qcri-ai/HCTQA · Datasets at Hugging Face

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Number_of_accidents_set118_4	syntheticHCTs	_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Male \| \| Female \| \| \|---\|---\|---\|---\|---\|---\| \| \| \| 2020 \| 2021 \| 2020 \| 2021 \| \| Fire \| Slight \| 16.00 \| 29.00 \| 53.00 \| 42.00 \| \| \| Serious \| 67.00 \| 27.00 \| 17.00 \| 75.00 \| \| \| Fatal \| 66.00 \| 52.00 \| 24.00 \| 48.00 \| \| \| Average \| 49.67 \| 36.00 \| 31.33 \| 55.00 \| \| Traffic \| Slight \| 44.00 \| 58.00 \| 14.00 \| 50.00 \| \| \| Serious \| 79.00 \| 22.00 \| 73.00 \| 85.00 \| \| \| Fatal \| 19.00 \| 43.00 \| 84.00 \| 59.00 \| \| \| Average \| 47.33 \| 41.00 \| 57.00 \| 64.67 \| \| Average \| \| 48.50 \| 38.50 \| 44.17 \| 59.83 \|	./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png	https://hcsdtables.qcri.…set118_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Number_of_accidents_set118_4--template 3	What is the number of Slight Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{44} \|\| {58} \|\| {50}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Slight Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Slight Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]
Number_of_accidents_set118_4	syntheticHCTs	_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Male \| \| Female \| \| \|---\|---\|---\|---\|---\|---\| \| \| \| 2020 \| 2021 \| 2020 \| 2021 \| \| Fire \| Slight \| 16.00 \| 29.00 \| 53.00 \| 42.00 \| \| \| Serious \| 67.00 \| 27.00 \| 17.00 \| 75.00 \| \| \| Fatal \| 66.00 \| 52.00 \| 24.00 \| 48.00 \| \| \| Average \| 49.67 \| 36.00 \| 31.33 \| 55.00 \| \| Traffic \| Slight \| 44.00 \| 58.00 \| 14.00 \| 50.00 \| \| \| Serious \| 79.00 \| 22.00 \| 73.00 \| 85.00 \| \| \| Fatal \| 19.00 \| 43.00 \| 84.00 \| 59.00 \| \| \| Average \| 47.33 \| 41.00 \| 57.00 \| 64.67 \| \| Average \| \| 48.50 \| 38.50 \| 44.17 \| 59.83 \|	./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png	https://hcsdtables.qcri.…set118_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Number_of_accidents_set118_4--template 8	What are the maximum and minimum numbers for each Gender and Year, of Fatal or Slight Traffic or Serious or Slight Fire accidents involving Female or Male casualties in 2020 or 2021? Please, report the corresponding Gender and Year.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Female \| 2020 \| 84 \| 14} \|\| {Female \| 2021 \| 75 \| 42} \|\| {Male \| 2020 \| 67 \| 16} \|\| {Male \| 2021 \| 58 \| 27}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and minimum numbers for each Gender and Year, of Fatal or Slight Traffic or Serious or Slight Fire accidents involving Female or Male casualties in 2020 or 2021? Please, report the corresponding Gender and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and minimum numbers for each Gender and Year, of Fatal or Slight Traffic or Serious or Slight Fire accidents involving Female or Male casualties in 2020 or 2021? Please, report the corresponding Gender and Year.` \n\n # OUTPUT: \nAnswer:"}]
Number_of_accidents_set118_4	syntheticHCTs	_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Male \| \| Female \| \| \|---\|---\|---\|---\|---\|---\| \| \| \| 2020 \| 2021 \| 2020 \| 2021 \| \| Fire \| Slight \| 16.00 \| 29.00 \| 53.00 \| 42.00 \| \| \| Serious \| 67.00 \| 27.00 \| 17.00 \| 75.00 \| \| \| Fatal \| 66.00 \| 52.00 \| 24.00 \| 48.00 \| \| \| Average \| 49.67 \| 36.00 \| 31.33 \| 55.00 \| \| Traffic \| Slight \| 44.00 \| 58.00 \| 14.00 \| 50.00 \| \| \| Serious \| 79.00 \| 22.00 \| 73.00 \| 85.00 \| \| \| Fatal \| 19.00 \| 43.00 \| 84.00 \| 59.00 \| \| \| Average \| 47.33 \| 41.00 \| 57.00 \| 64.67 \| \| Average \| \| 48.50 \| 38.50 \| 44.17 \| 59.83 \|	./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png	https://hcsdtables.qcri.…set118_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Number_of_accidents_set118_4--template 15	What is the number of accidents involving Male casualties in 2020 of Event and of Severity for which the number of accidents involving Male casualties in 2021 is lower than 47.75? Please, report the corresponding Event, Severity, and number of accidents.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Fire \| Slight \| 16} \|\| {Fire \| Serious \| 67} \|\| {Traffic \| Serious \| 79} \|\| {Traffic \| Fatal \| 19}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of accidents involving Male casualties in 2020 of Event and of Severity for which the number of accidents involving Male casualties in 2021 is lower than 47.75? Please, report the corresponding Event, Severity, and number of accidents.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of accidents involving Male casualties in 2020 of Event and of Severity for which the number of accidents involving Male casualties in 2021 is lower than 47.75? Please, report the corresponding Event, Severity, and number of accidents.` \n\n # OUTPUT: \nAnswer:"}]
Number_of_accidents_set118_4	syntheticHCTs	_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Male \| \| Female \| \| \|---\|---\|---\|---\|---\|---\| \| \| \| 2020 \| 2021 \| 2020 \| 2021 \| \| Fire \| Slight \| 16.00 \| 29.00 \| 53.00 \| 42.00 \| \| \| Serious \| 67.00 \| 27.00 \| 17.00 \| 75.00 \| \| \| Fatal \| 66.00 \| 52.00 \| 24.00 \| 48.00 \| \| \| Average \| 49.67 \| 36.00 \| 31.33 \| 55.00 \| \| Traffic \| Slight \| 44.00 \| 58.00 \| 14.00 \| 50.00 \| \| \| Serious \| 79.00 \| 22.00 \| 73.00 \| 85.00 \| \| \| Fatal \| 19.00 \| 43.00 \| 84.00 \| 59.00 \| \| \| Average \| 47.33 \| 41.00 \| 57.00 \| 64.67 \| \| Average \| \| 48.50 \| 38.50 \| 44.17 \| 59.83 \|	./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png	https://hcsdtables.qcri.…set118_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Number_of_accidents_set118_4--template 11	What is the total number for each Event, Gender, and Year, of Fire or Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021? Please, report the corresponding Event, Gender, and Year.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Fire \| Female \| 2021 \| 165} \|\| {Fire \| Male \| 2020 \| 149} \|\| {Fire \| Male \| 2021 \| 108} \|\| {Traffic \| Female \| 2021 \| 194} \|\| {Traffic \| Male \| 2020 \| 142} \|\| {Traffic \| Male \| 2021 \| 123}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number for each Event, Gender, and Year, of Fire or Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021? Please, report the corresponding Event, Gender, and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number for each Event, Gender, and Year, of Fire or Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021? Please, report the corresponding Event, Gender, and Year.` \n\n # OUTPUT: \nAnswer:"}]
Number_of_accidents_set118_4	syntheticHCTs	_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Male \| \| Female \| \| \|---\|---\|---\|---\|---\|---\| \| \| \| 2020 \| 2021 \| 2020 \| 2021 \| \| Fire \| Slight \| 16.00 \| 29.00 \| 53.00 \| 42.00 \| \| \| Serious \| 67.00 \| 27.00 \| 17.00 \| 75.00 \| \| \| Fatal \| 66.00 \| 52.00 \| 24.00 \| 48.00 \| \| \| Average \| 49.67 \| 36.00 \| 31.33 \| 55.00 \| \| Traffic \| Slight \| 44.00 \| 58.00 \| 14.00 \| 50.00 \| \| \| Serious \| 79.00 \| 22.00 \| 73.00 \| 85.00 \| \| \| Fatal \| 19.00 \| 43.00 \| 84.00 \| 59.00 \| \| \| Average \| 47.33 \| 41.00 \| 57.00 \| 64.67 \| \| Average \| \| 48.50 \| 38.50 \| 44.17 \| 59.83 \|	./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png	https://hcsdtables.qcri.…set118_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Number_of_accidents_set118_4--template 6	What is the number of Fatal Fire or Fatal or Serious Traffic accidents involving Female casualties in 2020 or 2021 or involving Male casualties in 2021?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{73} \|\| {22} \|\| {85} \|\| {24} \|\| {52} \|\| {48} \|\| {84} \|\| {43} \|\| {59}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Fatal Fire or Fatal or Serious Traffic accidents involving Female casualties in 2020 or 2021 or involving Male casualties in 2021?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Fatal Fire or Fatal or Serious Traffic accidents involving Female casualties in 2020 or 2021 or involving Male casualties in 2021?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 5	What is the average evolution of Light pollution in Maryland or Massachusetts?	template 5	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-3.96}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Light pollution in Maryland or Massachusetts?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Light pollution in Maryland or Massachusetts?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 3	What is the evolution of Oxygen-depletion pollution in Baltimore, Maryland in 2018 or 2019 or Cambridge, Massachusetts in 2020?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-51.67} \|\| {-45.97} \|\| {70.31}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Oxygen-depletion pollution in Baltimore, Maryland in 2018 or 2019 or Cambridge, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Oxygen-depletion pollution in Baltimore, Maryland in 2018 or 2019 or Cambridge, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 1	What is the evolution of Surface water pollution in Baltimore, Maryland in 2018?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-45.43}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Surface water pollution in Baltimore, Maryland in 2018?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Surface water pollution in Baltimore, Maryland in 2018?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 15	What is the evolution of pollution in Boston, Massachusetts in 2018 of Polluted element and of Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Chemical \| 20.23} \|\| {Water \| Oxygen-depletion \| -12.76} \|\| {Soil \| Industrial \| 58.6} \|\| {Soil \| Inferior Irrigation \| -28.83}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Boston, Massachusetts in 2018 of Polluted element and of Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Boston, Massachusetts in 2018 of Polluted element and of Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 9	What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Cambridge, Massachusetts in 2018?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-80.62} \|\| {-79.28} \|\| {-31.21}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Cambridge, Massachusetts in 2018?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Cambridge, Massachusetts in 2018?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 12	What are the top 2 evolutions of pollution of Air or Soil in Cambridge, Massachusetts in 2019?	template 12	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{67.14} \|\| {37.3}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 2 evolutions of pollution of Air or Soil in Cambridge, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 2 evolutions of pollution of Air or Soil in Cambridge, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 14	What are the Polluted element and Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Chemical} \|\| {Water \| Oxygen-depletion} \|\| {Soil \| Industrial} \|\| {Soil \| Inferior Irrigation}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 4	What are the total and maximum evolutions of Noise pollution in Baltimore, Maryland in 2019 or 2020 or Boston, Massachusetts in 2019 or 2020 or Cambridge, Massachusetts in 2018, 2019, or 2020 or Columbia, Maryland in 2018 or 2019?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{321.06 \| 99.14}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum evolutions of Noise pollution in Baltimore, Maryland in 2019 or 2020 or Boston, Massachusetts in 2019 or 2020 or Cambridge, Massachusetts in 2018, 2019, or 2020 or Columbia, Maryland in 2018 or 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum evolutions of Noise pollution in Baltimore, Maryland in 2019 or 2020 or Boston, Massachusetts in 2019 or 2020 or Cambridge, Massachusetts in 2018, 2019, or 2020 or Columbia, Maryland in 2018 or 2019?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 8	What are the average and total evolutions for each State, City, and Year, of Groundwater, Light, or Surface water pollution in Boston, Massachusetts in 2018 or Cambridge, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding State, City, and Year.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Maryland \| Columbia \| 2018 \| 41.46 \| 124.38} \|\| {Maryland \| Columbia \| 2020 \| 47.54 \| 142.63} \|\| {Massachusetts \| Boston \| 2018 \| -60.62 \| -181.86} \|\| {Massachusetts \| Cambridge \| 2020 \| -7.44 \| -22.33}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions for each State, City, and Year, of Groundwater, Light, or Surface water pollution in Boston, Massachusetts in 2018 or Cambridge, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions for each State, City, and Year, of Groundwater, Light, or Surface water pollution in Boston, Massachusetts in 2018 or Cambridge, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 7	What are the average and total evolutions of Chemical, Inferior Irrigation, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2019?	template 7	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{36.74 \| 146.94}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions of Chemical, Inferior Irrigation, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions of Chemical, Inferior Irrigation, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 11	What is the minimum evolution of pollution for each Polluted element, State, City, and Year, of Air, Soil, or Water in Boston, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding Polluted element, State, City, and Year.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| Maryland \| Columbia \| 2018 \| -5.74} \|\| {Air \| Maryland \| Columbia \| 2020 \| -3.62} \|\| {Air \| Massachusetts \| Boston \| 2020 \| -75.84} \|\| {Soil \| Maryland \| Columbia \| 2018 \| -99.74} \|\| {Soil \| Maryland \| Columbia \| 2020 \| -26.52} \|\| {Soil \| Massachusetts \| Boston \| 2020 \| -68.93} \|\| {Water \| Maryland \| Columbia \| 2018 \| -7.53} \|\| {Water \| Maryland \| Columbia \| 2020 \| -83.64} \|\| {Water \| Massachusetts \| Boston \| 2020 \| -61.05}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, City, and Year, of Air, Soil, or Water in Boston, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding Polluted element, State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, City, and Year, of Air, Soil, or Water in Boston, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding Polluted element, State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 10	What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Baltimore, Maryland in 2020? Please, report the corresponding Polluted element.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| -78.59} \|\| {Soil \| -4.55} \|\| {Water \| -97.1}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Baltimore, Maryland in 2020? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Baltimore, Maryland in 2020? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 6	What is the evolution of Groundwater or Oxygen-depletion pollution in Baltimore or Columbia, Maryland in 2018 or Boston, Massachusetts or Columbia, Maryland in 2020?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{91.17} \|\| {76.34} \|\| {96.38} \|\| {46.04} \|\| {-51.67} \|\| {-7.53} \|\| {-83.64} \|\| {61.21}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater or Oxygen-depletion pollution in Baltimore or Columbia, Maryland in 2018 or Boston, Massachusetts or Columbia, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater or Oxygen-depletion pollution in Baltimore or Columbia, Maryland in 2018 or Boston, Massachusetts or Columbia, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 2	What is the evolution of Chemical, Inorganic Fertilizers, Noise, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2020?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-61.05} \|\| {61.21} \|\| {49.67} \|\| {-68.93} \|\| {69.24}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Chemical, Inorganic Fertilizers, Noise, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Chemical, Inorganic Fertilizers, Noise, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set93_1	syntheticHCTs	_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Maryland \| \| \| \| \| \| \| \| \| Massachusetts \| \| \| \| \| \| \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Baltimore \| \| \| \| Columbia \| \| \| \| Average \| Boston \| \| \| \| Cambridge \| \| \| \| Average \| \| \| \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| 2018 \| 2019 \| 2020 \| Average \| 2018 \| 2019 \| 2020 \| Average \| \| \| \| Air \| Light \| 68.37 \| 72.14 \| -78.59 \| 20.64 \| -5.74 \| -28.91 \| 90.63 \| 18.66 \| 19.65 \| -81.94 \| 55.79 \| -75.84 \| -34.00 \| -50.90 \| -1.43 \| -11.14 \| -21.16 \| -27.58 \| -3.96 \| \| \| Noise \| -44.86 \| 68.16 \| 22.30 \| 15.20 \| 89.40 \| -25.97 \| -3.62 \| 19.94 \| 17.57 \| 75.50 \| 99.14 \| 69.24 \| 81.29 \| -80.62 \| 67.14 \| 12.27 \| -0.40 \| 40.45 \| 29.01 \| \| Soil \| Industrial \| 8.14 \| -12.52 \| 48.12 \| 14.58 \| 37.99 \| -50.31 \| -26.52 \| -12.95 \| 0.82 \| 58.60 \| 53.89 \| -44.53 \| 22.65 \| 82.82 \| 37.30 \| 37.73 \| 52.62 \| 37.63 \| 19.23 \| \| \| Inferior Irrigation \| 96.96 \| -19.36 \| -4.55 \| 24.35 \| -99.74 \| 17.00 \| 29.11 \| -17.88 \| 3.24 \| -28.83 \| 57.31 \| 35.81 \| 21.43 \| 53.74 \| 29.50 \| 8.43 \| 30.56 \| 25.99 \| 14.62 \| \| \| Inorganic Fertilizers \| -97.01 \| 47.90 \| 40.67 \| -2.81 \| 35.12 \| 39.11 \| 87.82 \| 54.02 \| 25.60 \| 77.29 \| -15.13 \| -68.93 \| -2.26 \| -79.28 \| -40.76 \| 68.63 \| -17.14 \| -9.70 \| 7.95 \| \| Water \| Chemical \| -39.56 \| -15.19 \| 29.82 \| -8.31 \| 33.40 \| -73.07 \| -46.19 \| -28.62 \| -18.46 \| 20.23 \| 7.74 \| -61.05 \| -11.03 \| -26.41 \| -76.96 \| 9.41 \| -31.32 \| -21.17 \| -19.82 \| \| \| Groundwater \| 91.17 \| 36.19 \| -97.10 \| 10.09 \| 76.34 \| 54.66 \| 96.38 \| 75.79 \| 42.94 \| -73.08 \| 5.70 \| 46.04 \| -7.11 \| -31.21 \| -62.23 \| -94.92 \| -62.79 \| -34.95 \| 4.00 \| \| \| Oxygen-depletion \| -51.67 \| -45.97 \| -70.90 \| -56.18 \| -7.53 \| 50.87 \| -83.64 \| -13.43 \| -34.81 \| -12.76 \| 4.46 \| 61.21 \| 17.64 \| 2.63 \| -73.06 \| 70.31 \| -0.04 \| 8.80 \| -13.00 \| \| \| Surface water \| -45.43 \| 7.71 \| -67.68 \| -35.13 \| 53.78 \| -11.24 \| -44.38 \| -0.61 \| -17.87 \| -26.84 \| 77.43 \| 49.67 \| 33.42 \| 70.19 \| 2.80 \| 83.73 \| 52.24 \| 42.83 \| 12.48 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png	https://hcsdtables.qcri.…_set93_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set93_1--template 13	What are the evolutions ordered by decreasing values of pollution of Soil or Water in Baltimore, Maryland in 2020?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{48.12} \|\| {40.67} \|\| {29.82} \|\| {-4.55} \|\| {-67.68} \|\| {-70.9} \|\| {-97.1}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Soil or Water in Baltimore, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Soil or Water in Baltimore, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 9	What is the minimum number of days for each Characteristic, with Humidity, Temperature, or Wind in Tampa, Florida in 2016?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{18} \|\| {39} \|\| {40}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum number of days for each Characteristic, with Humidity, Temperature, or Wind in Tampa, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum number of days for each Characteristic, with Humidity, Temperature, or Wind in Tampa, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 1	How many days were there with Low Humidity in Fort Lauderdale, Florida in 2016?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{44}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Low Humidity in Fort Lauderdale, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Low Humidity in Fort Lauderdale, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 14	What are the Characteristic and Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Wind \| Breeze}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Characteristic and Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Characteristic and Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 7	What are the minimum and maximum numbers of days with 31-40 Temperature or Breeze Wind in Fort Lauderdale, Florida in 2015?	template 7	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{31 \| 60}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum numbers of days with 31-40 Temperature or Breeze Wind in Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum numbers of days with 31-40 Temperature or Breeze Wind in Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 13	What are the numbers of days ordered by ascending values with Temperature or Wind in Tampa, Florida in 2015?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{42} \|\| {47} \|\| {62} \|\| {68} \|\| {80}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the numbers of days ordered by ascending values with Temperature or Wind in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the numbers of days ordered by ascending values with Temperature or Wind in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 3	How many days were there with Breeze Wind in Chicago, Illinois in 2015 or 2016 or Columbus or Washington, Georgia in 2016 or Fort Lauderdale, Florida in 2015?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{31} \|\| {30} \|\| {55} \|\| {33} \|\| {13}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Breeze Wind in Chicago, Illinois in 2015 or 2016 or Columbus or Washington, Georgia in 2016 or Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Breeze Wind in Chicago, Illinois in 2015 or 2016 or Columbus or Washington, Georgia in 2016 or Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 8	What are the total and minimum numbers of days for each Year, State, and City, with Breeze Wind or High Humidity in Chicago, Illinois or Columbus, Georgia or Tampa, Florida in 2016? Please, report the corresponding Year, State, and City.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{2016 \| Florida \| Tampa \| 58 \| 18} \|\| {2016 \| Georgia \| Columbus \| 126 \| 30} \|\| {2016 \| Illinois \| Chicago \| 59 \| 13}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and minimum numbers of days for each Year, State, and City, with Breeze Wind or High Humidity in Chicago, Illinois or Columbus, Georgia or Tampa, Florida in 2016? Please, report the corresponding Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and minimum numbers of days for each Year, State, and City, with Breeze Wind or High Humidity in Chicago, Illinois or Columbus, Georgia or Tampa, Florida in 2016? Please, report the corresponding Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 12	What are the smallest 4 numbers of days with Humidity or Temperature in Columbus, Georgia in 2015?	template 12	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{4} \|\| {19} \|\| {27} \|\| {50}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the smallest 4 numbers of days with Humidity or Temperature in Columbus, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the smallest 4 numbers of days with Humidity or Temperature in Columbus, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 4	What are the minimum and total numbers of days with Breeze Wind in Chicago or Springfield, Illinois in 2016 or Fort Lauderdale or Tampa, Florida in 2015 or 2016 or Springfield, Illinois in 2015 or Washington, Georgia in 2015?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{9 \| 349}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total numbers of days with Breeze Wind in Chicago or Springfield, Illinois in 2016 or Fort Lauderdale or Tampa, Florida in 2015 or 2016 or Springfield, Illinois in 2015 or Washington, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total numbers of days with Breeze Wind in Chicago or Springfield, Illinois in 2016 or Fort Lauderdale or Tampa, Florida in 2015 or 2016 or Springfield, Illinois in 2015 or Washington, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 10	What is the total number of days for each Characteristic, with Humidity, Temperature, or Wind in Chicago, Illinois in 2016? Please, report the corresponding Characteristic.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Humidity \| 59} \|\| {Temperature \| 93} \|\| {Wind \| 78}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number of days for each Characteristic, with Humidity, Temperature, or Wind in Chicago, Illinois in 2016? Please, report the corresponding Characteristic.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number of days for each Characteristic, with Humidity, Temperature, or Wind in Chicago, Illinois in 2016? Please, report the corresponding Characteristic.` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 6	How many days were there with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Fort Lauderdale, Florida in 2016 or with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Tampa, Florida in 2015?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{11} \|\| {47} \|\| {59} \|\| {68} \|\| {73} \|\| {42} \|\| {76} \|\| {32}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Fort Lauderdale, Florida in 2016 or with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Fort Lauderdale, Florida in 2016 or with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 2	How many days were there with 21-30 or 31-40 Temperature, Breeze Wind, or Low or Medium Humidity in Tampa, Florida in 2015?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{80} \|\| {47} \|\| {68} \|\| {65} \|\| {32}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 21-30 or 31-40 Temperature, Breeze Wind, or Low or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 21-30 or 31-40 Temperature, Breeze Wind, or Low or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 11	What is the maximum number of days for each Characteristic, Year, State, and City, with Humidity, Temperature, or Wind in Springfield, Illinois or Tampa, Florida in 2015? Please, report the corresponding Characteristic, Year, State, and City.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Humidity \| 2015 \| Florida \| Tampa \| 65} \|\| {Humidity \| 2015 \| Illinois \| Springfield \| 53} \|\| {Temperature \| 2015 \| Florida \| Tampa \| 80} \|\| {Temperature \| 2015 \| Illinois \| Springfield \| 57} \|\| {Wind \| 2015 \| Florida \| Tampa \| 68} \|\| {Wind \| 2015 \| Illinois \| Springfield \| 86}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum number of days for each Characteristic, Year, State, and City, with Humidity, Temperature, or Wind in Springfield, Illinois or Tampa, Florida in 2015? Please, report the corresponding Characteristic, Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum number of days for each Characteristic, Year, State, and City, with Humidity, Temperature, or Wind in Springfield, Illinois or Tampa, Florida in 2015? Please, report the corresponding Characteristic, Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]
Weather_statistics_set110_4	syntheticHCTs	_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| 2015 \| \| \| \| \| \| 2016 \| \| \| \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Florida \| \| Georgia \| \| Illinois \| \| Florida \| \| Georgia \| \| Illinois \| \| \| \| \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| Fort Lauderdale \| Tampa \| Columbus \| Washington \| Chicago \| Springfield \| \| Humidity \| High \| 92.00 \| 23.00 \| 4.00 \| 91.00 \| 24.00 \| 38.00 \| 48.00 \| 18.00 \| 96.00 \| 6.00 \| 46.00 \| 35.00 \| \| \| Low \| 88.00 \| 65.00 \| 27.00 \| 52.00 \| 83.00 \| 53.00 \| 44.00 \| 34.00 \| 22.00 \| 67.00 \| 1.00 \| 71.00 \| \| \| Medium \| 70.00 \| 32.00 \| 50.00 \| 17.00 \| 64.00 \| 8.00 \| 76.00 \| 94.00 \| 66.00 \| 28.00 \| 12.00 \| 7.00 \| \| Temperature \| 21-30 \| 93.00 \| 80.00 \| 19.00 \| 15.00 \| 78.00 \| 57.00 \| 75.00 \| 39.00 \| 74.00 \| 0.00 \| 90.00 \| 87.00 \| \| \| 31-40 \| 60.00 \| 47.00 \| 95.00 \| 84.00 \| 89.00 \| 25.00 \| 11.00 \| 49.00 \| 37.00 \| 2.00 \| 3.00 \| 79.00 \| \| Wind \| Breeze \| 31.00 \| 68.00 \| 10.00 \| 9.00 \| 33.00 \| 86.00 \| 59.00 \| 40.00 \| 30.00 \| 55.00 \| 13.00 \| 43.00 \| \| \| Calm \| 82.00 \| 62.00 \| 72.00 \| 58.00 \| 56.00 \| 5.00 \| 14.00 \| 77.00 \| 36.00 \| 54.00 \| 20.00 \| 26.00 \| \| \| Storm \| 85.00 \| 42.00 \| 69.00 \| 63.00 \| 51.00 \| 81.00 \| 73.00 \| 41.00 \| 21.00 \| 16.00 \| 45.00 \| 29.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png	https://hcsdtables.qcri.…set110_4_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Weather_statistics_set110_4--template 15	How many days were there in Washington, Georgia in 2015 with Characteristic and with Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86? Please, report the corresponding Characteristic, Intensity, and number of days.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Wind \| Breeze \| 9}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there in Washington, Georgia in 2015 with Characteristic and with Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86? Please, report the corresponding Characteristic, Intensity, and number of days.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there in Washington, Georgia in 2015 with Characteristic and with Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86? Please, report the corresponding Characteristic, Intensity, and number of days.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 2	What is the amount of Import of Cheese or Yoghurt in 2018?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{388} \|\| {929}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Yoghurt in 2018?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Yoghurt in 2018?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 11	What is the maximum amount for each Category, Import-Export, and Year, of Import of Cereals or Dairy in 2017 or of Export of Cereals or Dairy in 2018? Please, report the corresponding Category, Import-Export, and Year.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Cereals \| Export \| 2018 \| 855} \|\| {Cereals \| Import \| 2017 \| 759} \|\| {Dairy \| Export \| 2018 \| 385} \|\| {Dairy \| Import \| 2017 \| 649}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Cereals or Dairy in 2017 or of Export of Cereals or Dairy in 2018? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Cereals or Dairy in 2017 or of Export of Cereals or Dairy in 2018? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 9	What is the minimum amount for each Category, of Export of Cereals or Dairy in 2019?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{536} \|\| {408}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Export of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Export of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 4	What are the average and maximum amounts of Export or Import of Seeds in 2017, of Export of Seeds in 2018 or 2019, or of Import of Seeds in 2019?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{579 \| 855}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum amounts of Export or Import of Seeds in 2017, of Export of Seeds in 2018 or 2019, or of Import of Seeds in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum amounts of Export or Import of Seeds in 2017, of Export of Seeds in 2018 or 2019, or of Import of Seeds in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 7	What are the total and maximum amounts of Export of Cream, Rice, or Seeds in 2017?	template 7	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{1087 \| 667}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum amounts of Export of Cream, Rice, or Seeds in 2017?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum amounts of Export of Cream, Rice, or Seeds in 2017?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 8	What are the minimum and total amounts for each Import-Export and Year, of Import of Cream or Seeds in 2017 or of Export or Import of Cream or Seeds in 2018? Please, report the corresponding Import-Export and Year.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Export \| 2018 \| 332 \| 1187} \|\| {Import \| 2017 \| 145 \| 507} \|\| {Import \| 2018 \| 738 \| 1479}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total amounts for each Import-Export and Year, of Import of Cream or Seeds in 2017 or of Export or Import of Cream or Seeds in 2018? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total amounts for each Import-Export and Year, of Import of Cream or Seeds in 2017 or of Export or Import of Cream or Seeds in 2018? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 15	What is the amount of Import in 2017 of Category and of Item for which the amount of Export in 2019 is greater than 482.6? Please, report the corresponding Category, Item, and amount of import-export.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Cereals \| Rice \| 759} \|\| {Cereals \| Seeds \| 145} \|\| {Dairy \| Cheese \| 649}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2017 of Category and of Item for which the amount of Export in 2019 is greater than 482.6? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2017 of Category and of Item for which the amount of Export in 2019 is greater than 482.6? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 13	What are the amounts ordered by decreasing values of Export of Cereals or Dairy in 2017?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{668} \|\| {667} \|\| {320} \|\| {238} \|\| {100}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by decreasing values of Export of Cereals or Dairy in 2017?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by decreasing values of Export of Cereals or Dairy in 2017?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 14	What are the Category and Item for which the amount of Export in 2019 is greater than 482.6?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Cereals \| Rice} \|\| {Cereals \| Seeds} \|\| {Dairy \| Cheese}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2019 is greater than 482.6?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2019 is greater than 482.6?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 3	What is the amount of Import of Cheese in 2017 or 2018?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{649} \|\| {388}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 6	What is the amount of Export of Cream or Seeds in 2017 or 2018?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{667} \|\| {855} \|\| {100} \|\| {332}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream or Seeds in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream or Seeds in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 10	What is the average amount for each Category, of Export of Cereals or Dairy in 2018? Please, report the corresponding Category.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Cereals \| 703} \|\| {Dairy \| 335.33}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average amount for each Category, of Export of Cereals or Dairy in 2018? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average amount for each Category, of Export of Cereals or Dairy in 2018? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 1	What is the amount of Export of Cream in 2017?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{100}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream in 2017?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream in 2017?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set302_3	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2017 \| 2018 \| 2019 \| 2017 \| 2018 \| 2019 \| \| Cereals \| \| 452.00 \| 402.00 \| 729.50 \| 493.50 \| 703.00 \| 574.00 \| \| \| Rice \| 759.00 \| 63.00 \| 843.00 \| 320.00 \| 551.00 \| 536.00 \| \| \| Seeds \| 145.00 \| 741.00 \| 616.00 \| 667.00 \| 855.00 \| 612.00 \| \| Dairy \| \| 531.67 \| 685.00 \| 253.67 \| 335.33 \| 335.33 \| 449.00 \| \| \| Cheese \| 649.00 \| 388.00 \| 58.00 \| 668.00 \| 385.00 \| 514.00 \| \| \| Cream \| 362.00 \| 738.00 \| 243.00 \| 100.00 \| 332.00 \| 425.00 \| \| \| Yoghurt \| 584.00 \| 929.00 \| 460.00 \| 238.00 \| 289.00 \| 408.00 \| \| Average \| \| 499.80 \| 571.80 \| 444.00 \| 398.60 \| 482.40 \| 499.00 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png	https://hcsdtables.qcri.…set302_3_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set302_3--template 12	What are the top 3 amounts of Import of Cereals or Dairy in 2019?	template 12	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{843} \|\| {616} \|\| {460}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 3 amounts of Import of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 3 amounts of Import of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 14	What are the Polluted element and Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Chemical} \|\| {Water \| Groundwater} \|\| {Water \| Oxygen-depletion} \|\| {Soil \| Inferior Irrigation} \|\| {Soil \| Solid Waste} \|\| {Soil \| Urban Activities} \|\| {Air \| Noise} \|\| {Air \| Light}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 7	What are the minimum and maximum evolutions of Groundwater, Noise, Thermal, or Urban Activities pollution in Tampa, Florida?	template 7	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-68.82 \| 33.31}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions of Groundwater, Noise, Thermal, or Urban Activities pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions of Groundwater, Noise, Thermal, or Urban Activities pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 4	What are the minimum and total evolutions of Light pollution in Fort Lauderdale or Tampa, Florida?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-85.99 \| -12.61}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions of Light pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions of Light pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 15	What is the evolution of pollution in Fort Lauderdale, Florida of Polluted element and of Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Chemical \| 19.13} \|\| {Water \| Groundwater \| -17.89} \|\| {Water \| Oxygen-depletion \| 43.74} \|\| {Soil \| Inferior Irrigation \| -70.48} \|\| {Soil \| Solid Waste \| 9.21} \|\| {Soil \| Urban Activities \| 66.89} \|\| {Air \| Noise \| -96.92} \|\| {Air \| Light \| -85.99}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Fort Lauderdale, Florida of Polluted element and of Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Fort Lauderdale, Florida of Polluted element and of Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 9	What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Tampa, Florida?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-65.15} \|\| {-64.83} \|\| {-68.82}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 5	What is the average evolution of Oxygen-depletion pollution in Fort Lauderdale or Tampa, Florida?	template 5	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{67.64}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Oxygen-depletion pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Oxygen-depletion pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 8	What are the minimum and maximum evolutions for each State and City, of Groundwater or Urban Activities pollution in Berkeley or Los-Angeles, California or Tampa, Florida? Please, report the corresponding State and City.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{California \| Berkeley \| -20.31 \| 53.41} \|\| {California \| Los-Angeles \| -65.48 \| -30.61} \|\| {Florida \| Tampa \| -68.82 \| 9.06}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions for each State and City, of Groundwater or Urban Activities pollution in Berkeley or Los-Angeles, California or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions for each State and City, of Groundwater or Urban Activities pollution in Berkeley or Los-Angeles, California or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 11	What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Berkeley, California or Tampa, Florida? Please, report the corresponding Polluted element, State, and City.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| California \| Berkeley \| -1.1} \|\| {Air \| Florida \| Tampa \| 41.54} \|\| {Soil \| California \| Berkeley \| 40.05} \|\| {Soil \| Florida \| Tampa \| -92.13} \|\| {Water \| California \| Berkeley \| 70.93} \|\| {Water \| Florida \| Tampa \| 8.83}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Berkeley, California or Tampa, Florida? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Berkeley, California or Tampa, Florida? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 3	What is the evolution of Noise pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-30.07} \|\| {-19.95} \|\| {-96.92} \|\| {33.31}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Noise pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Noise pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 6	What is the evolution of Light, Solid Waste, or Thermal pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{80.84} \|\| {-90.01} \|\| {9.21} \|\| {-64.83} \|\| {-19.2} \|\| {-43.6} \|\| {-85.99} \|\| {73.38} \|\| {48.17} \|\| {1.77} \|\| {-2.41} \|\| {-65.15}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Solid Waste, or Thermal pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Solid Waste, or Thermal pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 1	What is the evolution of Groundwater pollution in Los-Angeles, California?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-65.48}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater pollution in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater pollution in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 2	What is the evolution of Groundwater, Inferior Irrigation, Light, Noise, Solid Waste, Thermal, or Urban Activities pollution in Berkeley, California?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-20.31} \|\| {-94.2} \|\| {80.84} \|\| {53.41} \|\| {-30.07} \|\| {-19.2} \|\| {48.17}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Inferior Irrigation, Light, Noise, Solid Waste, Thermal, or Urban Activities pollution in Berkeley, California?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Inferior Irrigation, Light, Noise, Solid Waste, Thermal, or Urban Activities pollution in Berkeley, California?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 12	What are the bottom 5 evolutions of pollution of Air or Soil in Los-Angeles, California?	template 12	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{-90.01} \|\| {-71.1} \|\| {-43.6} \|\| {-30.61} \|\| {-19.95}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 5 evolutions of pollution of Air or Soil in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 5 evolutions of pollution of Air or Soil in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 10	What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Berkeley, California? Please, report the corresponding Polluted element.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| -30.07} \|\| {Soil \| -94.2} \|\| {Water \| -20.31}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Berkeley, California? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Berkeley, California? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set249_2	syntheticHCTs	_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| California \| \| \| Florida \| \| \| Average \| \|---\|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Berkeley \| Los-Angeles \| Average \| Fort Lauderdale \| Tampa \| Average \| \| \| Air \| \| -0.37 \| -20.59 \| -10.48 \| -61.77 \| 13.85 \| -23.96 \| -17.22 \| \| \| Light \| -19.20 \| -43.60 \| -31.40 \| -85.99 \| 73.38 \| -6.30 \| -18.85 \| \| \| Noise \| -30.07 \| -19.95 \| -25.01 \| -96.92 \| 33.31 \| -31.80 \| -28.41 \| \| \| Thermal \| 48.17 \| 1.77 \| 24.97 \| -2.41 \| -65.15 \| -33.78 \| -4.41 \| \| Soil \| \| 13.35 \| -63.91 \| -25.28 \| 1.87 \| -30.71 \| -14.42 \| -19.85 \| \| \| Inferior Irrigation \| -94.20 \| -71.10 \| -82.65 \| -70.48 \| -36.36 \| -53.42 \| -68.03 \| \| \| Solid Waste \| 80.84 \| -90.01 \| -4.59 \| 9.21 \| -64.83 \| -27.81 \| -16.20 \| \| \| Urban Activities \| 53.41 \| -30.61 \| 11.40 \| 66.89 \| 9.06 \| 37.98 \| 24.69 \| \| Water \| \| 23.64 \| -54.17 \| -15.26 \| 14.99 \| 2.94 \| 8.97 \| -3.15 \| \| \| Chemical \| 53.76 \| -19.55 \| 17.10 \| 19.13 \| -13.90 \| 2.61 \| 9.86 \| \| \| Groundwater \| -20.31 \| -65.48 \| -42.90 \| -17.89 \| -68.82 \| -43.35 \| -43.12 \| \| \| Oxygen-depletion \| 37.48 \| -77.47 \| -20.00 \| 43.74 \| 91.55 \| 67.64 \| 23.82 \| \| Average \| \| 12.21 \| -46.22 \| -17.01 \| -14.97 \| -4.64 \| -9.80 \| -13.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png	https://hcsdtables.qcri.…set249_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set249_2--template 13	What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{-70.48} \|\| {-17.89} \|\| {9.21} \|\| {19.13} \|\| {43.74} \|\| {66.89}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 1	What is the evolution of Thermal pollution in Springfield, Illinois?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{98.15}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Thermal pollution in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Thermal pollution in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 13	What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{-96.2} \|\| {-89.76} \|\| {-60.09} \|\| {72.57} \|\| {72.58}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 14	What are the Polluted element and Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Groundwater} \|\| {Soil \| Industrial} \|\| {Air \| Light} \|\| {Air \| Thermal}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 8	What are the minimum and total evolutions for each State and City, of Industrial, Inferior Irrigation, or Thermal pollution in Albany or Columbus, Georgia or Tampa, Florida? Please, report the corresponding State and City.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Florida \| Tampa \| -3.9 \| 169.62} \|\| {Georgia \| Albany \| -19.05 \| 105.25} \|\| {Georgia \| Columbus \| -92.94 \| -176.18}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions for each State and City, of Industrial, Inferior Irrigation, or Thermal pollution in Albany or Columbus, Georgia or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions for each State and City, of Industrial, Inferior Irrigation, or Thermal pollution in Albany or Columbus, Georgia or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 10	What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Springfield, Illinois? Please, report the corresponding Polluted element.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| 172.51} \|\| {Soil \| -50.75} \|\| {Water \| 52.58}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Springfield, Illinois? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Springfield, Illinois? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 9	What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Columbus, Georgia?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-51.12} \|\| {-92.94} \|\| {-96.72}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 12	What are the bottom 2 evolutions of pollution of Air or Water in Springfield, Illinois?	template 12	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{-28.58} \|\| {74.36}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 2 evolutions of pollution of Air or Water in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 2 evolutions of pollution of Air or Water in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 15	What is the evolution of pollution in Albany, Georgia of Polluted element and of Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Groundwater \| 58.76} \|\| {Soil \| Industrial \| 53.69} \|\| {Air \| Light \| 19.64} \|\| {Air \| Thermal \| 70.61}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Albany, Georgia of Polluted element and of Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Albany, Georgia of Polluted element and of Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 6	What is the evolution of Industrial, Inferior Irrigation, Oxygen-depletion, or Solid Waste pollution in Albany or Columbus, Georgia or Fort Lauderdale or Tampa, Florida or Springfield, Illinois?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-89.76} \|\| {94.73} \|\| {-2.96} \|\| {42.97} \|\| {-28.58} \|\| {72.58} \|\| {-3.9} \|\| {53.69} \|\| {-92.94} \|\| {20.65} \|\| {-96.2} \|\| {84.03} \|\| {-19.05} \|\| {-32.12} \|\| {-87.13} \|\| {-60.09} \|\| {-9.45} \|\| {45.08} \|\| {77.62} \|\| {15.73}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Industrial, Inferior Irrigation, Oxygen-depletion, or Solid Waste pollution in Albany or Columbus, Georgia or Fort Lauderdale or Tampa, Florida or Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Industrial, Inferior Irrigation, Oxygen-depletion, or Solid Waste pollution in Albany or Columbus, Georgia or Fort Lauderdale or Tampa, Florida or Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 7	What are the average and maximum evolutions of Industrial, Inferior Irrigation, or Thermal pollution in Tampa, Florida?	template 7	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{56.54 \| 89.49}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Industrial, Inferior Irrigation, or Thermal pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Industrial, Inferior Irrigation, or Thermal pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 3	What is the evolution of Light pollution in Chicago, Illinois or Tampa, Florida?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-28.17} \|\| {-46.35}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light pollution in Chicago, Illinois or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light pollution in Chicago, Illinois or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 4	What are the maximum and total evolutions of Inferior Irrigation pollution in Chicago, Illinois or Columbus, Georgia?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{61.52 \| 29.4}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total evolutions of Inferior Irrigation pollution in Chicago, Illinois or Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total evolutions of Inferior Irrigation pollution in Chicago, Illinois or Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 11	What is the minimum evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Albany, Georgia or Springfield, Illinois? Please, report the corresponding Polluted element, State, and City.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| Georgia \| Albany \| 19.64} \|\| {Air \| Illinois \| Springfield \| 74.36} \|\| {Soil \| Georgia \| Albany \| -19.05} \|\| {Soil \| Illinois \| Springfield \| -87.13} \|\| {Water \| Georgia \| Albany \| -2.96} \|\| {Water \| Illinois \| Springfield \| -28.58}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Albany, Georgia or Springfield, Illinois? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Albany, Georgia or Springfield, Illinois? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set11_5	syntheticHCTs	_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91	<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Florida \| \| Georgia \| \| Illinois \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Fort Lauderdale \| Tampa \| Albany \| Columbus \| Chicago \| Springfield \| \| Air \| Light \| 62.86 \| -28.17 \| 19.64 \| 48.00 \| -46.35 \| 74.36 \| \| \| Thermal \| 14.54 \| 89.49 \| 70.61 \| -51.12 \| 22.50 \| 98.15 \| \| \| Average \| 38.70 \| 30.66 \| 45.12 \| -1.56 \| -11.93 \| 86.25 \| \| Soil \| Industrial \| 72.58 \| -3.90 \| 53.69 \| -92.94 \| 67.96 \| 20.65 \| \| \| Inferior Irrigation \| -96.20 \| 84.03 \| -19.05 \| -32.12 \| 61.52 \| -87.13 \| \| \| Solid Waste \| -60.09 \| -9.45 \| 45.08 \| 77.62 \| 71.36 \| 15.73 \| \| \| Average \| -27.90 \| 23.56 \| 26.57 \| -15.81 \| 66.95 \| -16.92 \| \| Water \| Groundwater \| 72.57 \| 86.56 \| 58.76 \| -96.72 \| -47.63 \| 81.16 \| \| \| Oxygen-depletion \| -89.76 \| 94.73 \| -2.96 \| 42.97 \| 66.31 \| -28.58 \| \| \| Average \| -8.60 \| 90.65 \| 27.90 \| -26.88 \| 9.34 \| 26.29 \| \| Average \| \| -3.36 \| 44.76 \| 32.25 \| -14.90 \| 27.95 \| 24.91 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png	https://hcsdtables.qcri.…_set11_5_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set11_5--template 2	What is the evolution of Groundwater, Industrial, Inferior Irrigation, Light, Oxygen-depletion, Solid Waste, or Thermal pollution in Fort Lauderdale, Florida?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{72.57} \|\| {-89.76} \|\| {72.58} \|\| {-96.2} \|\| {-60.09} \|\| {62.86} \|\| {14.54}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Industrial, Inferior Irrigation, Light, Oxygen-depletion, Solid Waste, or Thermal pollution in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Industrial, Inferior Irrigation, Light, Oxygen-depletion, Solid Waste, or Thermal pollution in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 7	What are the minimum and maximum amounts of Export of Cheese, Soda, Tea, or Yoghurt in 2021?	template 7	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{21 \| 508}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum amounts of Export of Cheese, Soda, Tea, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum amounts of Export of Cheese, Soda, Tea, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 4	What are the maximum and total amounts of Export or Import of Cheese in 2020?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{867 \| 1103}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts of Export or Import of Cheese in 2020?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts of Export or Import of Cheese in 2020?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 10	What is the maximum amount for each Category, of Import of Beverage or Dairy in 2019? Please, report the corresponding Category.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Beverage \| 701} \|\| {Dairy \| 928}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, of Import of Beverage or Dairy in 2019? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, of Import of Beverage or Dairy in 2019? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 2	What is the amount of Export of Cheese, Coffee, Soda, or Yoghurt in 2021?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{83} \|\| {508} \|\| {147} \|\| {21}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese, Coffee, Soda, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese, Coffee, Soda, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 13	What are the amounts ordered by increasing values of Export of Beverage or Dairy in 2019?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{31} \|\| {274} \|\| {398} \|\| {556} \|\| {847}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by increasing values of Export of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by increasing values of Export of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 11	What is the maximum amount for each Category, Import-Export, and Year, of Import of Beverage or Dairy in 2019 or 2020 or of Export of Beverage or Dairy in 2021? Please, report the corresponding Category, Import-Export, and Year.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Beverage \| Export \| 2021 \| 223} \|\| {Beverage \| Import \| 2019 \| 701} \|\| {Beverage \| Import \| 2020 \| 895} \|\| {Dairy \| Export \| 2021 \| 508} \|\| {Dairy \| Import \| 2019 \| 928} \|\| {Dairy \| Import \| 2020 \| 236}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Beverage or Dairy in 2019 or 2020 or of Export of Beverage or Dairy in 2021? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Beverage or Dairy in 2019 or 2020 or of Export of Beverage or Dairy in 2021? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 9	What is the minimum amount for each Category, of Import of Beverage or Dairy in 2020?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{182} \|\| {174}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Import of Beverage or Dairy in 2020?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Import of Beverage or Dairy in 2020?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 12	What are the bottom 3 amounts of Import of Beverage or Dairy in 2019?	template 12	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{406} \|\| {433} \|\| {701}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 3 amounts of Import of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 3 amounts of Import of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 14	What are the Category and Item for which the amount of Export in 2021 is greater than 491.67?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Dairy \| Yoghurt}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2021 is greater than 491.67?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2021 is greater than 491.67?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 15	What is the amount of Import in 2021 of Category and of Item for which the amount of Export in 2021 is greater than 491.67? Please, report the corresponding Category, Item, and amount of import-export.	template 15	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Dairy \| Yoghurt \| 76}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2021 of Category and of Item for which the amount of Export in 2021 is greater than 491.67? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2021 of Category and of Item for which the amount of Export in 2021 is greater than 491.67? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 6	What is the amount of Import of Cheese or Coffee in 2019, 2020, or 2021?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{825} \|\| {236} \|\| {620} \|\| {701} \|\| {629} \|\| {222}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Coffee in 2019, 2020, or 2021?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Coffee in 2019, 2020, or 2021?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 3	What is the amount of Import of Yoghurt in 2019 or 2021 or of Export of Yoghurt in 2020 or 2021?	template 3	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{928} \|\| {972} \|\| {76} \|\| {508}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Yoghurt in 2019 or 2021 or of Export of Yoghurt in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Yoghurt in 2019 or 2021 or of Export of Yoghurt in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 1	What is the amount of Export of Cheese in 2019?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{556}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese in 2019?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese in 2019?` \n\n # OUTPUT: \nAnswer:"}]
Food_import-export_in_tons_set269_1	syntheticHCTs	_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Import \| \| \| Export \| \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| 2019 \| 2020 \| 2021 \| 2019 \| 2020 \| 2021 \| \| Beverage \| \| 513.33 \| 568.67 \| 674.00 \| 425.33 \| 565.33 \| 130.33 \| \| \| Coffee \| 701.00 \| 629.00 \| 222.00 \| 31.00 \| 643.00 \| 147.00 \| \| \| Soda \| 406.00 \| 895.00 \| 974.00 \| 398.00 \| 984.00 \| 21.00 \| \| \| Tea \| 433.00 \| 182.00 \| 826.00 \| 847.00 \| 69.00 \| 223.00 \| \| Dairy \| \| 876.50 \| 205.00 \| 348.00 \| 415.00 \| 919.50 \| 295.50 \| \| \| Cheese \| 825.00 \| 236.00 \| 620.00 \| 556.00 \| 867.00 \| 83.00 \| \| \| Yoghurt \| 928.00 \| 174.00 \| 76.00 \| 274.00 \| 972.00 \| 508.00 \| \| Average \| \| 658.60 \| 423.20 \| 543.60 \| 421.20 \| 707.00 \| 196.40 \|	./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png	https://hcsdtables.qcri.…set269_1_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Food_import-export_in_tons_set269_1--template 8	What are the maximum and total amounts for each Import-Export and Year, of Export of Cheese, Soda, or Tea in 2019, 2020, or 2021 or of Import of Cheese, Soda, or Tea in 2021? Please, report the corresponding Import-Export and Year.	template 8	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Export \| 2019 \| 847 \| 1801} \|\| {Export \| 2020 \| 984 \| 1920} \|\| {Export \| 2021 \| 223 \| 327} \|\| {Import \| 2021 \| 974 \| 2420}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts for each Import-Export and Year, of Export of Cheese, Soda, or Tea in 2019, 2020, or 2021 or of Import of Cheese, Soda, or Tea in 2021? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts for each Import-Export and Year, of Export of Cheese, Soda, or Tea in 2019, 2020, or 2021 or of Import of Cheese, Soda, or Tea in 2021? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 10	What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Flint, Michigan? Please, report the corresponding Polluted element.	template 10	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| -51.78} \|\| {Soil \| 57.07} \|\| {Water \| -77.74}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Flint, Michigan? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Flint, Michigan? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 1	What is the evolution of Solid Waste pollution in Reno, Nevada?	template 1	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{35.87}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Solid Waste pollution in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Solid Waste pollution in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 9	What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Las Vegas, Nevada?	template 9	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-88.01} \|\| {-58.65} \|\| {69.23}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Las Vegas, Nevada?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Las Vegas, Nevada?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 4	What are the average and maximum evolutions of Inferior Irrigation pollution in Flint or Port Huron, Michigan or Hastings, Minnesota or Las Vegas or Reno, Nevada?	template 4	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{2.54 \| 91.05}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Inferior Irrigation pollution in Flint or Port Huron, Michigan or Hastings, Minnesota or Las Vegas or Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Inferior Irrigation pollution in Flint or Port Huron, Michigan or Hastings, Minnesota or Las Vegas or Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 11	What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Flint, Michigan or Hastings or Minneapolis, Minnesota? Please, report the corresponding Polluted element, State, and City.	template 11	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Air \| Michigan \| Flint \| -51.78} \|\| {Air \| Minnesota \| Hastings \| -49.91} \|\| {Air \| Minnesota \| Minneapolis \| 99.31} \|\| {Soil \| Michigan \| Flint \| 57.07} \|\| {Soil \| Minnesota \| Hastings \| 180.77} \|\| {Soil \| Minnesota \| Minneapolis \| -154.27} \|\| {Water \| Michigan \| Flint \| -77.74} \|\| {Water \| Minnesota \| Hastings \| -8.79} \|\| {Water \| Minnesota \| Minneapolis \| -172.24}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Flint, Michigan or Hastings or Minneapolis, Minnesota? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Flint, Michigan or Hastings or Minneapolis, Minnesota? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 14	What are the Polluted element and Type of pollution for which the evolution in Las Vegas, Nevada is greater than -1.32?	template 14	{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{Water \| Groundwater} \|\| {Water \| Oxygen-depletion} \|\| {Water \| Surface water} \|\| {Air \| Noise} \|\| {Air \| Thermal}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Las Vegas, Nevada is greater than -1.32?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Las Vegas, Nevada is greater than -1.32?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 2	What is the evolution of Groundwater, Light, Noise, Solid Waste, or Surface water pollution in Flint, Michigan?	template 2	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-87.91} \|\| {75.68} \|\| {58.98} \|\| {-40.93} \|\| {48.75}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Light, Noise, Solid Waste, or Surface water pollution in Flint, Michigan?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Light, Noise, Solid Waste, or Surface water pollution in Flint, Michigan?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 6	What is the evolution of Light, Oxygen-depletion, or Thermal pollution in Flint or Port Huron, Michigan or Las Vegas or Reno, Nevada or Minneapolis, Minnesota?	template 6	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}	{-65.51} \|\| {-86.38} \|\| {-55.51} \|\| {69.23} \|\| {56.74} \|\| {48.75} \|\| {-97.72} \|\| {5.21} \|\| {-88.01} \|\| {-76.66} \|\| {-59.6} \|\| {31.92} \|\| {9.01} \|\| {59.46} \|\| {60.51}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Oxygen-depletion, or Thermal pollution in Flint or Port Huron, Michigan or Las Vegas or Reno, Nevada or Minneapolis, Minnesota?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Oxygen-depletion, or Thermal pollution in Flint or Port Huron, Michigan or Las Vegas or Reno, Nevada or Minneapolis, Minnesota?` \n\n # OUTPUT: \nAnswer:"}]
Evolution_of_pollution_in_percent_set196_2	syntheticHCTs	_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41	<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (iscale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)\|\|(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cntscale) + 'px' break } } </script></body>	\| \| \| Michigan \| \| Minnesota \| \| Nevada \| \| \|---\|---\|---\|---\|---\|---\|---\|---\| \| \| \| Flint \| Port Huron \| Hastings \| Minneapolis \| Las Vegas \| Reno \| \| Air \| \| -17.26 \| -40.56 \| -16.64 \| 33.10 \| 20.82 \| -11.32 \| \| \| Light \| 48.75 \| -97.72 \| 93.82 \| 5.21 \| -88.01 \| -76.66 \| \| \| Noise \| -40.93 \| -55.88 \| -67.15 \| 85.09 \| 91.02 \| -17.81 \| \| \| Thermal \| -59.60 \| 31.92 \| -76.58 \| 9.01 \| 59.46 \| 60.51 \| \| Soil \| \| 28.54 \| -8.09 \| 90.38 \| -77.14 \| -34.93 \| 29.50 \| \| \| Inferior Irrigation \| -1.91 \| -88.37 \| 91.05 \| -99.09 \| -11.21 \| 23.14 \| \| \| Solid Waste \| 58.98 \| 72.18 \| 89.72 \| -55.18 \| -58.65 \| 35.87 \| \| Water \| \| -25.91 \| -8.27 \| -2.93 \| -57.41 \| 80.32 \| 6.08 \| \| \| Groundwater \| -87.91 \| 63.39 \| 18.64 \| -46.37 \| 75.22 \| -36.75 \| \| \| Oxygen-depletion \| -65.51 \| -86.38 \| -95.89 \| -55.51 \| 69.23 \| 56.74 \| \| \| Surface water \| 75.68 \| -1.81 \| 68.46 \| -70.36 \| 96.52 \| -1.76 \| \| Average \| \| -9.06 \| -20.33 \| 15.26 \| -28.40 \| 29.20 \| 5.41 \|	./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png	https://hcsdtables.qcri.…set196_2_HCT.png	{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}	Evolution_of_pollution_in_percent_set196_2--template 13	What are the evolutions ordered by decreasing values of pollution of Air or Soil in Reno, Nevada?	template 13	{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}	{60.51} \|\| {35.87} \|\| {23.14} \|\| {-17.81} \|\| {-76.66}	[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Air or Soil in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]	[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' \|\| ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (iscale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)\|\|(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cntscale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Air or Soil in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

Number_of_accidents_set118_4

syntheticHCTs

_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Male | | Female | | |---|---|---|---|---|---| | | | 2020 | 2021 | 2020 | 2021 | | Fire | Slight | 16.00 | 29.00 | 53.00 | 42.00 | | | Serious | 67.00 | 27.00 | 17.00 | 75.00 | | | Fatal | 66.00 | 52.00 | 24.00 | 48.00 | | | Average | 49.67 | 36.00 | 31.33 | 55.00 | | Traffic | Slight | 44.00 | 58.00 | 14.00 | 50.00 | | | Serious | 79.00 | 22.00 | 73.00 | 85.00 | | | Fatal | 19.00 | 43.00 | 84.00 | 59.00 | | | Average | 47.33 | 41.00 | 57.00 | 64.67 | | Average | | 48.50 | 38.50 | 44.17 | 59.83 |

./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png

https://hcsdtables.qcri.…set118_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Number_of_accidents_set118_4--template 3

What is the number of Slight Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{44} || {58} || {50}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Slight Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Slight Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]

Number_of_accidents_set118_4

syntheticHCTs

_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Male | | Female | | |---|---|---|---|---|---| | | | 2020 | 2021 | 2020 | 2021 | | Fire | Slight | 16.00 | 29.00 | 53.00 | 42.00 | | | Serious | 67.00 | 27.00 | 17.00 | 75.00 | | | Fatal | 66.00 | 52.00 | 24.00 | 48.00 | | | Average | 49.67 | 36.00 | 31.33 | 55.00 | | Traffic | Slight | 44.00 | 58.00 | 14.00 | 50.00 | | | Serious | 79.00 | 22.00 | 73.00 | 85.00 | | | Fatal | 19.00 | 43.00 | 84.00 | 59.00 | | | Average | 47.33 | 41.00 | 57.00 | 64.67 | | Average | | 48.50 | 38.50 | 44.17 | 59.83 |

./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png

https://hcsdtables.qcri.…set118_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Number_of_accidents_set118_4--template 8

What are the maximum and minimum numbers for each Gender and Year, of Fatal or Slight Traffic or Serious or Slight Fire accidents involving Female or Male casualties in 2020 or 2021? Please, report the corresponding Gender and Year.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Female | 2020 | 84 | 14} || {Female | 2021 | 75 | 42} || {Male | 2020 | 67 | 16} || {Male | 2021 | 58 | 27}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and minimum numbers for each Gender and Year, of Fatal or Slight Traffic or Serious or Slight Fire accidents involving Female or Male casualties in 2020 or 2021? Please, report the corresponding Gender and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and minimum numbers for each Gender and Year, of Fatal or Slight Traffic or Serious or Slight Fire accidents involving Female or Male casualties in 2020 or 2021? Please, report the corresponding Gender and Year.` \n\n # OUTPUT: \nAnswer:"}]

Number_of_accidents_set118_4

syntheticHCTs

_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Male | | Female | | |---|---|---|---|---|---| | | | 2020 | 2021 | 2020 | 2021 | | Fire | Slight | 16.00 | 29.00 | 53.00 | 42.00 | | | Serious | 67.00 | 27.00 | 17.00 | 75.00 | | | Fatal | 66.00 | 52.00 | 24.00 | 48.00 | | | Average | 49.67 | 36.00 | 31.33 | 55.00 | | Traffic | Slight | 44.00 | 58.00 | 14.00 | 50.00 | | | Serious | 79.00 | 22.00 | 73.00 | 85.00 | | | Fatal | 19.00 | 43.00 | 84.00 | 59.00 | | | Average | 47.33 | 41.00 | 57.00 | 64.67 | | Average | | 48.50 | 38.50 | 44.17 | 59.83 |

./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png

https://hcsdtables.qcri.…set118_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Number_of_accidents_set118_4--template 15

What is the number of accidents involving Male casualties in 2020 of Event and of Severity for which the number of accidents involving Male casualties in 2021 is lower than 47.75? Please, report the corresponding Event, Severity, and number of accidents.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Fire | Slight | 16} || {Fire | Serious | 67} || {Traffic | Serious | 79} || {Traffic | Fatal | 19}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of accidents involving Male casualties in 2020 of Event and of Severity for which the number of accidents involving Male casualties in 2021 is lower than 47.75? Please, report the corresponding Event, Severity, and number of accidents.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of accidents involving Male casualties in 2020 of Event and of Severity for which the number of accidents involving Male casualties in 2021 is lower than 47.75? Please, report the corresponding Event, Severity, and number of accidents.` \n\n # OUTPUT: \nAnswer:"}]

Number_of_accidents_set118_4

syntheticHCTs

_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Male | | Female | | |---|---|---|---|---|---| | | | 2020 | 2021 | 2020 | 2021 | | Fire | Slight | 16.00 | 29.00 | 53.00 | 42.00 | | | Serious | 67.00 | 27.00 | 17.00 | 75.00 | | | Fatal | 66.00 | 52.00 | 24.00 | 48.00 | | | Average | 49.67 | 36.00 | 31.33 | 55.00 | | Traffic | Slight | 44.00 | 58.00 | 14.00 | 50.00 | | | Serious | 79.00 | 22.00 | 73.00 | 85.00 | | | Fatal | 19.00 | 43.00 | 84.00 | 59.00 | | | Average | 47.33 | 41.00 | 57.00 | 64.67 | | Average | | 48.50 | 38.50 | 44.17 | 59.83 |

./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png

https://hcsdtables.qcri.…set118_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Number_of_accidents_set118_4--template 11

What is the total number for each Event, Gender, and Year, of Fire or Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021? Please, report the corresponding Event, Gender, and Year.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Fire | Female | 2021 | 165} || {Fire | Male | 2020 | 149} || {Fire | Male | 2021 | 108} || {Traffic | Female | 2021 | 194} || {Traffic | Male | 2020 | 142} || {Traffic | Male | 2021 | 123}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number for each Event, Gender, and Year, of Fire or Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021? Please, report the corresponding Event, Gender, and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number for each Event, Gender, and Year, of Fire or Traffic accidents involving Female casualties in 2021 or involving Male casualties in 2020 or 2021? Please, report the corresponding Event, Gender, and Year.` \n\n # OUTPUT: \nAnswer:"}]

Number_of_accidents_set118_4

syntheticHCTs

_,_,Male,_,Female,_ ,,2020.0,2021.0,2020.0,2021.0 Fire,Slight,16.0,29.0,53.0,42.0 ,Serious,67.0,27.0,17.0,75.0 ,Fatal,66.0,52.0,24.0,48.0 ,Average,49.67,36.0,31.33,55.0 Traffic,Slight,44.0,58.0,14.0,50.0 ,Serious,79.0,22.0,73.0,85.0 ,Fatal,19.0,43.0,84.0,59.0 ,Average,47.33,41.0,57.0,64.67 Average,,48.5,38.5,44.17,59.83

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Male</th> <th class="ColumnHeader" colspan="2">Female</th> </tr> <tr> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="RowHeader" rowspan="4">Fire</th> <th class="RowHeader">Slight</th> <td class="Cell">16.00</td> <td class="Cell">29.00</td> <td class="Cell">53.00</td> <td class="Cell">42.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">67.00</td> <td class="Cell">27.00</td> <td class="Cell">17.00</td> <td class="Cell">75.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">66.00</td> <td class="Cell">52.00</td> <td class="Cell">24.00</td> <td class="Cell">48.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">49.67</td> <td class="Total">36.00</td> <td class="Total">31.33</td> <td class="Total">55.00</td> </tr> <tr> <th class="RowHeader" rowspan="4">Traffic</th> <th class="RowHeader">Slight</th> <td class="Cell">44.00</td> <td class="Cell">58.00</td> <td class="Cell">14.00</td> <td class="Cell">50.00</td> </tr> <tr> <th class="RowHeader">Serious</th> <td class="Cell">79.00</td> <td class="Cell">22.00</td> <td class="Cell">73.00</td> <td class="Cell">85.00</td> </tr> <tr> <th class="RowHeader">Fatal</th> <td class="Cell">19.00</td> <td class="Cell">43.00</td> <td class="Cell">84.00</td> <td class="Cell">59.00</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">47.33</td> <td class="Total">41.00</td> <td class="Total">57.00</td> <td class="Total">64.67</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">48.50</td> <td class="Total">38.50</td> <td class="Total">44.17</td> <td class="Total">59.83</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Male | | Female | | |---|---|---|---|---|---| | | | 2020 | 2021 | 2020 | 2021 | | Fire | Slight | 16.00 | 29.00 | 53.00 | 42.00 | | | Serious | 67.00 | 27.00 | 17.00 | 75.00 | | | Fatal | 66.00 | 52.00 | 24.00 | 48.00 | | | Average | 49.67 | 36.00 | 31.33 | 55.00 | | Traffic | Slight | 44.00 | 58.00 | 14.00 | 50.00 | | | Serious | 79.00 | 22.00 | 73.00 | 85.00 | | | Fatal | 19.00 | 43.00 | 84.00 | 59.00 | | | Average | 47.33 | 41.00 | 57.00 | 64.67 | | Average | | 48.50 | 38.50 | 44.17 | 59.83 |

./datasets/synthetic_datasets/orignal/semantic/images/Number_of_accidents_set118_4_HCT.png

https://hcsdtables.qcri.…set118_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Number_of_accidents_set118_4--template 6

What is the number of Fatal Fire or Fatal or Serious Traffic accidents involving Female casualties in 2020 or 2021 or involving Male casualties in 2021?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{73} || {22} || {85} || {24} || {52} || {48} || {84} || {43} || {59}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Fatal Fire or Fatal or Serious Traffic accidents involving Female casualties in 2020 or 2021 or involving Male casualties in 2021?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Number of accidents </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Male</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Female</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Fire</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">29.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">42.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">75.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">48.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">49.67</td>\n <td class=\"Total\">36.00</td>\n <td class=\"Total\">31.33</td>\n <td class=\"Total\">55.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Traffic</th>\n <th class=\"RowHeader\">Slight</th>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">50.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Serious</th>\n <td class=\"Cell\">79.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">85.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Fatal</th>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">43.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">59.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">47.33</td>\n <td class=\"Total\">41.00</td>\n <td class=\"Total\">57.00</td>\n <td class=\"Total\">64.67</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">48.50</td>\n <td class=\"Total\">38.50</td>\n <td class=\"Total\">44.17</td>\n <td class=\"Total\">59.83</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the number of Fatal Fire or Fatal or Serious Traffic accidents involving Female casualties in 2020 or 2021 or involving Male casualties in 2021?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 5

What is the average evolution of Light pollution in Maryland or Massachusetts?

template 5

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-3.96}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Light pollution in Maryland or Massachusetts?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Light pollution in Maryland or Massachusetts?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 3

What is the evolution of Oxygen-depletion pollution in Baltimore, Maryland in 2018 or 2019 or Cambridge, Massachusetts in 2020?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-51.67} || {-45.97} || {70.31}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Oxygen-depletion pollution in Baltimore, Maryland in 2018 or 2019 or Cambridge, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Oxygen-depletion pollution in Baltimore, Maryland in 2018 or 2019 or Cambridge, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 1

What is the evolution of Surface water pollution in Baltimore, Maryland in 2018?

template 1

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-45.43}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Surface water pollution in Baltimore, Maryland in 2018?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Surface water pollution in Baltimore, Maryland in 2018?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

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Evolution_of_pollution_in_percent_set93_1--template 15

What is the evolution of pollution in Boston, Massachusetts in 2018 of Polluted element and of Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Chemical | 20.23} || {Water | Oxygen-depletion | -12.76} || {Soil | Industrial | 58.6} || {Soil | Inferior Irrigation | -28.83}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Boston, Massachusetts in 2018 of Polluted element and of Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Boston, Massachusetts in 2018 of Polluted element and of Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 9

What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Cambridge, Massachusetts in 2018?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-80.62} || {-79.28} || {-31.21}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Cambridge, Massachusetts in 2018?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Cambridge, Massachusetts in 2018?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 12

What are the top 2 evolutions of pollution of Air or Soil in Cambridge, Massachusetts in 2019?

template 12

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{67.14} || {37.3}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 2 evolutions of pollution of Air or Soil in Cambridge, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 2 evolutions of pollution of Air or Soil in Cambridge, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 14

What are the Polluted element and Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Chemical} || {Water | Oxygen-depletion} || {Soil | Industrial} || {Soil | Inferior Irrigation}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Baltimore, Maryland in 2019 is lower than 5.61?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 4

What are the total and maximum evolutions of Noise pollution in Baltimore, Maryland in 2019 or 2020 or Boston, Massachusetts in 2019 or 2020 or Cambridge, Massachusetts in 2018, 2019, or 2020 or Columbia, Maryland in 2018 or 2019?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{321.06 | 99.14}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum evolutions of Noise pollution in Baltimore, Maryland in 2019 or 2020 or Boston, Massachusetts in 2019 or 2020 or Cambridge, Massachusetts in 2018, 2019, or 2020 or Columbia, Maryland in 2018 or 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum evolutions of Noise pollution in Baltimore, Maryland in 2019 or 2020 or Boston, Massachusetts in 2019 or 2020 or Cambridge, Massachusetts in 2018, 2019, or 2020 or Columbia, Maryland in 2018 or 2019?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

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Evolution_of_pollution_in_percent_set93_1--template 8

What are the average and total evolutions for each State, City, and Year, of Groundwater, Light, or Surface water pollution in Boston, Massachusetts in 2018 or Cambridge, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding State, City, and Year.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Maryland | Columbia | 2018 | 41.46 | 124.38} || {Maryland | Columbia | 2020 | 47.54 | 142.63} || {Massachusetts | Boston | 2018 | -60.62 | -181.86} || {Massachusetts | Cambridge | 2020 | -7.44 | -22.33}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions for each State, City, and Year, of Groundwater, Light, or Surface water pollution in Boston, Massachusetts in 2018 or Cambridge, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions for each State, City, and Year, of Groundwater, Light, or Surface water pollution in Boston, Massachusetts in 2018 or Cambridge, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 7

What are the average and total evolutions of Chemical, Inferior Irrigation, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2019?

template 7

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{36.74 | 146.94}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions of Chemical, Inferior Irrigation, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and total evolutions of Chemical, Inferior Irrigation, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 11

What is the minimum evolution of pollution for each Polluted element, State, City, and Year, of Air, Soil, or Water in Boston, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding Polluted element, State, City, and Year.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | Maryland | Columbia | 2018 | -5.74} || {Air | Maryland | Columbia | 2020 | -3.62} || {Air | Massachusetts | Boston | 2020 | -75.84} || {Soil | Maryland | Columbia | 2018 | -99.74} || {Soil | Maryland | Columbia | 2020 | -26.52} || {Soil | Massachusetts | Boston | 2020 | -68.93} || {Water | Maryland | Columbia | 2018 | -7.53} || {Water | Maryland | Columbia | 2020 | -83.64} || {Water | Massachusetts | Boston | 2020 | -61.05}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, City, and Year, of Air, Soil, or Water in Boston, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding Polluted element, State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, City, and Year, of Air, Soil, or Water in Boston, Massachusetts in 2020 or Columbia, Maryland in 2018 or 2020? Please, report the corresponding Polluted element, State, City, and Year.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 10

What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Baltimore, Maryland in 2020? Please, report the corresponding Polluted element.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | -78.59} || {Soil | -4.55} || {Water | -97.1}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Baltimore, Maryland in 2020? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Baltimore, Maryland in 2020? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

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Evolution_of_pollution_in_percent_set93_1--template 6

What is the evolution of Groundwater or Oxygen-depletion pollution in Baltimore or Columbia, Maryland in 2018 or Boston, Massachusetts or Columbia, Maryland in 2020?

template 6

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{91.17} || {76.34} || {96.38} || {46.04} || {-51.67} || {-7.53} || {-83.64} || {61.21}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater or Oxygen-depletion pollution in Baltimore or Columbia, Maryland in 2018 or Boston, Massachusetts or Columbia, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater or Oxygen-depletion pollution in Baltimore or Columbia, Maryland in 2018 or Boston, Massachusetts or Columbia, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td 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| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set93_1--template 2

What is the evolution of Chemical, Inorganic Fertilizers, Noise, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2020?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-61.05} || {61.21} || {49.67} || {-68.93} || {69.24}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Chemical, Inorganic Fertilizers, Noise, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Chemical, Inorganic Fertilizers, Noise, Oxygen-depletion, or Surface water pollution in Boston, Massachusetts in 2020?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set93_1

syntheticHCTs

_,_,Maryland,_,_,_,_,_,_,_,_,Massachusetts,_,_,_,_,_,_,_,_,Average ,,Baltimore,,,,Columbia,,,,Average,Boston,,,,Cambridge,,,,Average, ,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,,2018,2019.0,2020.0,Average,2018,2019.0,2020.0,Average,, Air,Light,68.37,72.14,-78.59,20.64,-5.74,-28.91,90.63,18.66,19.65,-81.94,55.79,-75.84,-34.00,-50.90,-1.43,-11.14,-21.16,-27.58,-3.96 ,Noise,-44.86,68.16,22.3,15.20,89.40,-25.97,-3.62,19.94,17.57,75.50,99.14,69.24,81.29,-80.62,67.14,12.27,-0.40,40.45,29.01 Soil,Industrial,8.14,-12.52,48.12,14.58,37.99,-50.31,-26.52,-12.95,0.82,58.60,53.89,-44.53,22.65,82.82,37.3,37.73,52.62,37.63,19.23 ,Inferior Irrigation,96.96,-19.36,-4.55,24.35,-99.74,17.0,29.11,-17.88,3.24,-28.83,57.31,35.81,21.43,53.74,29.5,8.43,30.56,25.99,14.62 ,Inorganic Fertilizers,-97.01,47.9,40.67,-2.81,35.12,39.11,87.82,54.02,25.60,77.29,-15.13,-68.93,-2.26,-79.28,-40.76,68.63,-17.14,-9.70,7.95 Water,Chemical,-39.56,-15.19,29.82,-8.31,33.40,-73.07,-46.19,-28.62,-18.46,20.23,7.74,-61.05,-11.03,-26.41,-76.96,9.41,-31.32,-21.17,-19.82 ,Groundwater,91.17,36.19,-97.1,10.09,76.34,54.66,96.38,75.79,42.94,-73.08,5.7,46.04,-7.11,-31.21,-62.23,-94.92,-62.79,-34.95,4.0 ,Oxygen-depletion,-51.67,-45.97,-70.9,-56.18,-7.53,50.87,-83.64,-13.43,-34.81,-12.76,4.46,61.21,17.64,2.63,-73.06,70.31,-0.04,8.80,-13.0 ,Surface water,-45.43,7.71,-67.68,-35.13,53.78,-11.24,-44.38,-0.61,-17.87,-26.84,77.43,49.67,33.42,70.19,2.8,83.73,52.24,42.83,12.48

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="9">Maryland</th> <th class="ColumnHeader" colspan="9">Massachusetts</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader" colspan="4">Baltimore</th> <th class="ColumnHeader" colspan="4">Columbia</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader" colspan="4">Boston</th> <th class="ColumnHeader" colspan="4">Cambridge</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="RowHeader" rowspan="2">Air</th> <th class="RowHeader">Light</th> <td class="Cell">68.37</td> <td class="Cell">72.14</td> <td class="Cell">-78.59</td> <td class="Total">20.64</td> <td class="Cell">-5.74</td> <td class="Cell">-28.91</td> <td class="Cell">90.63</td> <td class="Total">18.66</td> <td class="Total">19.65</td> <td class="Cell">-81.94</td> <td class="Cell">55.79</td> <td class="Cell">-75.84</td> <td class="Total">-34.00</td> <td class="Cell">-50.90</td> <td class="Cell">-1.43</td> <td class="Cell">-11.14</td> <td class="Total">-21.16</td> <td class="Total">-27.58</td> <td class="Total">-3.96</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-44.86</td> <td class="Cell">68.16</td> <td class="Cell">22.30</td> <td class="Total">15.20</td> <td class="Cell">89.40</td> <td class="Cell">-25.97</td> <td class="Cell">-3.62</td> <td class="Total">19.94</td> <td class="Total">17.57</td> <td class="Cell">75.50</td> <td class="Cell">99.14</td> <td class="Cell">69.24</td> <td class="Total">81.29</td> <td class="Cell">-80.62</td> <td class="Cell">67.14</td> <td class="Cell">12.27</td> <td class="Total">-0.40</td> <td class="Total">40.45</td> <td class="Total">29.01</td> </tr> <tr> <th class="RowHeader" rowspan="3">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">8.14</td> <td class="Cell">-12.52</td> <td class="Cell">48.12</td> <td class="Total">14.58</td> <td class="Cell">37.99</td> <td class="Cell">-50.31</td> <td class="Cell">-26.52</td> <td class="Total">-12.95</td> <td class="Total">0.82</td> <td class="Cell">58.60</td> <td class="Cell">53.89</td> <td class="Cell">-44.53</td> <td class="Total">22.65</td> <td class="Cell">82.82</td> <td class="Cell">37.30</td> <td class="Cell">37.73</td> <td class="Total">52.62</td> <td class="Total">37.63</td> <td class="Total">19.23</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">96.96</td> <td class="Cell">-19.36</td> <td class="Cell">-4.55</td> <td class="Total">24.35</td> <td class="Cell">-99.74</td> <td class="Cell">17.00</td> <td class="Cell">29.11</td> <td class="Total">-17.88</td> <td class="Total">3.24</td> <td class="Cell">-28.83</td> <td class="Cell">57.31</td> <td class="Cell">35.81</td> <td class="Total">21.43</td> <td class="Cell">53.74</td> <td class="Cell">29.50</td> <td class="Cell">8.43</td> <td class="Total">30.56</td> <td class="Total">25.99</td> <td class="Total">14.62</td> </tr> <tr> <th class="RowHeader">Inorganic Fertilizers</th> <td class="Cell">-97.01</td> <td class="Cell">47.90</td> <td class="Cell">40.67</td> <td class="Total">-2.81</td> <td class="Cell">35.12</td> <td class="Cell">39.11</td> <td class="Cell">87.82</td> <td class="Total">54.02</td> <td class="Total">25.60</td> <td class="Cell">77.29</td> <td class="Cell">-15.13</td> <td class="Cell">-68.93</td> <td class="Total">-2.26</td> <td class="Cell">-79.28</td> <td class="Cell">-40.76</td> <td class="Cell">68.63</td> <td class="Total">-17.14</td> <td class="Total">-9.70</td> <td class="Total">7.95</td> </tr> <tr> <th class="RowHeader" rowspan="4">Water</th> <th class="RowHeader">Chemical</th> <td class="Cell">-39.56</td> <td class="Cell">-15.19</td> <td class="Cell">29.82</td> <td class="Total">-8.31</td> <td class="Cell">33.40</td> <td class="Cell">-73.07</td> <td class="Cell">-46.19</td> <td class="Total">-28.62</td> <td class="Total">-18.46</td> <td class="Cell">20.23</td> <td class="Cell">7.74</td> <td class="Cell">-61.05</td> <td class="Total">-11.03</td> <td class="Cell">-26.41</td> <td class="Cell">-76.96</td> <td class="Cell">9.41</td> <td class="Total">-31.32</td> <td class="Total">-21.17</td> <td class="Total">-19.82</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">91.17</td> <td class="Cell">36.19</td> <td class="Cell">-97.10</td> <td class="Total">10.09</td> <td class="Cell">76.34</td> <td class="Cell">54.66</td> <td class="Cell">96.38</td> <td class="Total">75.79</td> <td class="Total">42.94</td> <td class="Cell">-73.08</td> <td class="Cell">5.70</td> <td class="Cell">46.04</td> <td class="Total">-7.11</td> <td class="Cell">-31.21</td> <td class="Cell">-62.23</td> <td class="Cell">-94.92</td> <td class="Total">-62.79</td> <td class="Total">-34.95</td> <td class="Total">4.00</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-51.67</td> <td class="Cell">-45.97</td> <td class="Cell">-70.90</td> <td class="Total">-56.18</td> <td class="Cell">-7.53</td> <td class="Cell">50.87</td> <td class="Cell">-83.64</td> <td class="Total">-13.43</td> <td class="Total">-34.81</td> <td class="Cell">-12.76</td> <td class="Cell">4.46</td> <td class="Cell">61.21</td> <td class="Total">17.64</td> <td class="Cell">2.63</td> <td class="Cell">-73.06</td> <td class="Cell">70.31</td> <td class="Total">-0.04</td> <td class="Total">8.80</td> <td class="Total">-13.00</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">-45.43</td> <td class="Cell">7.71</td> <td class="Cell">-67.68</td> <td class="Total">-35.13</td> <td class="Cell">53.78</td> <td class="Cell">-11.24</td> <td class="Cell">-44.38</td> <td class="Total">-0.61</td> <td class="Total">-17.87</td> <td class="Cell">-26.84</td> <td class="Cell">77.43</td> <td class="Cell">49.67</td> <td class="Total">33.42</td> <td class="Cell">70.19</td> <td class="Cell">2.80</td> <td class="Cell">83.73</td> <td class="Total">52.24</td> <td class="Total">42.83</td> <td class="Total">12.48</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Maryland | | | | | | | | | Massachusetts | | | | | | | | | Average | |---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Baltimore | | | | Columbia | | | | Average | Boston | | | | Cambridge | | | | Average | | | | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | 2018 | 2019 | 2020 | Average | 2018 | 2019 | 2020 | Average | | | | Air | Light | 68.37 | 72.14 | -78.59 | 20.64 | -5.74 | -28.91 | 90.63 | 18.66 | 19.65 | -81.94 | 55.79 | -75.84 | -34.00 | -50.90 | -1.43 | -11.14 | -21.16 | -27.58 | -3.96 | | | Noise | -44.86 | 68.16 | 22.30 | 15.20 | 89.40 | -25.97 | -3.62 | 19.94 | 17.57 | 75.50 | 99.14 | 69.24 | 81.29 | -80.62 | 67.14 | 12.27 | -0.40 | 40.45 | 29.01 | | Soil | Industrial | 8.14 | -12.52 | 48.12 | 14.58 | 37.99 | -50.31 | -26.52 | -12.95 | 0.82 | 58.60 | 53.89 | -44.53 | 22.65 | 82.82 | 37.30 | 37.73 | 52.62 | 37.63 | 19.23 | | | Inferior Irrigation | 96.96 | -19.36 | -4.55 | 24.35 | -99.74 | 17.00 | 29.11 | -17.88 | 3.24 | -28.83 | 57.31 | 35.81 | 21.43 | 53.74 | 29.50 | 8.43 | 30.56 | 25.99 | 14.62 | | | Inorganic Fertilizers | -97.01 | 47.90 | 40.67 | -2.81 | 35.12 | 39.11 | 87.82 | 54.02 | 25.60 | 77.29 | -15.13 | -68.93 | -2.26 | -79.28 | -40.76 | 68.63 | -17.14 | -9.70 | 7.95 | | Water | Chemical | -39.56 | -15.19 | 29.82 | -8.31 | 33.40 | -73.07 | -46.19 | -28.62 | -18.46 | 20.23 | 7.74 | -61.05 | -11.03 | -26.41 | -76.96 | 9.41 | -31.32 | -21.17 | -19.82 | | | Groundwater | 91.17 | 36.19 | -97.10 | 10.09 | 76.34 | 54.66 | 96.38 | 75.79 | 42.94 | -73.08 | 5.70 | 46.04 | -7.11 | -31.21 | -62.23 | -94.92 | -62.79 | -34.95 | 4.00 | | | Oxygen-depletion | -51.67 | -45.97 | -70.90 | -56.18 | -7.53 | 50.87 | -83.64 | -13.43 | -34.81 | -12.76 | 4.46 | 61.21 | 17.64 | 2.63 | -73.06 | 70.31 | -0.04 | 8.80 | -13.00 | | | Surface water | -45.43 | 7.71 | -67.68 | -35.13 | 53.78 | -11.24 | -44.38 | -0.61 | -17.87 | -26.84 | 77.43 | 49.67 | 33.42 | 70.19 | 2.80 | 83.73 | 52.24 | 42.83 | 12.48 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set93_1_HCT.png

https://hcsdtables.qcri.…_set93_1_HCT.png

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Evolution_of_pollution_in_percent_set93_1--template 13

What are the evolutions ordered by decreasing values of pollution of Soil or Water in Baltimore, Maryland in 2020?

template 13

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{48.12} || {40.67} || {29.82} || {-4.55} || {-67.68} || {-70.9} || {-97.1}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Soil or Water in Baltimore, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"9\">Maryland</th>\n <th class=\"ColumnHeader\" colspan=\"9\">Massachusetts</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"4\">Baltimore</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Columbia</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Boston</th>\n <th class=\"ColumnHeader\" colspan=\"4\">Cambridge</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">68.37</td>\n <td class=\"Cell\">72.14</td>\n <td class=\"Cell\">-78.59</td>\n <td class=\"Total\">20.64</td>\n <td class=\"Cell\">-5.74</td>\n <td class=\"Cell\">-28.91</td>\n <td class=\"Cell\">90.63</td>\n <td class=\"Total\">18.66</td>\n <td class=\"Total\">19.65</td>\n <td class=\"Cell\">-81.94</td>\n <td class=\"Cell\">55.79</td>\n <td class=\"Cell\">-75.84</td>\n <td class=\"Total\">-34.00</td>\n <td class=\"Cell\">-50.90</td>\n <td class=\"Cell\">-1.43</td>\n <td class=\"Cell\">-11.14</td>\n <td class=\"Total\">-21.16</td>\n <td class=\"Total\">-27.58</td>\n <td class=\"Total\">-3.96</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-44.86</td>\n <td class=\"Cell\">68.16</td>\n <td class=\"Cell\">22.30</td>\n <td class=\"Total\">15.20</td>\n <td class=\"Cell\">89.40</td>\n <td class=\"Cell\">-25.97</td>\n <td class=\"Cell\">-3.62</td>\n <td class=\"Total\">19.94</td>\n <td class=\"Total\">17.57</td>\n <td class=\"Cell\">75.50</td>\n <td class=\"Cell\">99.14</td>\n <td class=\"Cell\">69.24</td>\n <td class=\"Total\">81.29</td>\n <td class=\"Cell\">-80.62</td>\n <td class=\"Cell\">67.14</td>\n <td class=\"Cell\">12.27</td>\n <td class=\"Total\">-0.40</td>\n <td class=\"Total\">40.45</td>\n <td class=\"Total\">29.01</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">8.14</td>\n <td class=\"Cell\">-12.52</td>\n <td class=\"Cell\">48.12</td>\n <td class=\"Total\">14.58</td>\n <td class=\"Cell\">37.99</td>\n <td class=\"Cell\">-50.31</td>\n <td class=\"Cell\">-26.52</td>\n <td class=\"Total\">-12.95</td>\n <td class=\"Total\">0.82</td>\n <td class=\"Cell\">58.60</td>\n <td class=\"Cell\">53.89</td>\n <td class=\"Cell\">-44.53</td>\n <td class=\"Total\">22.65</td>\n <td class=\"Cell\">82.82</td>\n <td class=\"Cell\">37.30</td>\n <td class=\"Cell\">37.73</td>\n <td class=\"Total\">52.62</td>\n <td class=\"Total\">37.63</td>\n <td class=\"Total\">19.23</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">96.96</td>\n <td class=\"Cell\">-19.36</td>\n <td class=\"Cell\">-4.55</td>\n <td class=\"Total\">24.35</td>\n <td class=\"Cell\">-99.74</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">29.11</td>\n <td class=\"Total\">-17.88</td>\n <td class=\"Total\">3.24</td>\n <td class=\"Cell\">-28.83</td>\n <td class=\"Cell\">57.31</td>\n <td class=\"Cell\">35.81</td>\n <td class=\"Total\">21.43</td>\n <td class=\"Cell\">53.74</td>\n <td class=\"Cell\">29.50</td>\n <td class=\"Cell\">8.43</td>\n <td class=\"Total\">30.56</td>\n <td class=\"Total\">25.99</td>\n <td class=\"Total\">14.62</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inorganic Fertilizers</th>\n <td class=\"Cell\">-97.01</td>\n <td class=\"Cell\">47.90</td>\n <td class=\"Cell\">40.67</td>\n <td class=\"Total\">-2.81</td>\n <td class=\"Cell\">35.12</td>\n <td class=\"Cell\">39.11</td>\n <td class=\"Cell\">87.82</td>\n <td class=\"Total\">54.02</td>\n <td class=\"Total\">25.60</td>\n <td class=\"Cell\">77.29</td>\n <td class=\"Cell\">-15.13</td>\n <td class=\"Cell\">-68.93</td>\n <td class=\"Total\">-2.26</td>\n <td class=\"Cell\">-79.28</td>\n <td class=\"Cell\">-40.76</td>\n <td class=\"Cell\">68.63</td>\n <td class=\"Total\">-17.14</td>\n <td class=\"Total\">-9.70</td>\n <td class=\"Total\">7.95</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Water</th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">-39.56</td>\n <td class=\"Cell\">-15.19</td>\n <td class=\"Cell\">29.82</td>\n <td class=\"Total\">-8.31</td>\n <td class=\"Cell\">33.40</td>\n <td class=\"Cell\">-73.07</td>\n <td class=\"Cell\">-46.19</td>\n <td class=\"Total\">-28.62</td>\n <td class=\"Total\">-18.46</td>\n <td class=\"Cell\">20.23</td>\n <td class=\"Cell\">7.74</td>\n <td class=\"Cell\">-61.05</td>\n <td class=\"Total\">-11.03</td>\n <td class=\"Cell\">-26.41</td>\n <td class=\"Cell\">-76.96</td>\n <td class=\"Cell\">9.41</td>\n <td class=\"Total\">-31.32</td>\n <td class=\"Total\">-21.17</td>\n <td class=\"Total\">-19.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">91.17</td>\n <td class=\"Cell\">36.19</td>\n <td class=\"Cell\">-97.10</td>\n <td class=\"Total\">10.09</td>\n <td class=\"Cell\">76.34</td>\n <td class=\"Cell\">54.66</td>\n <td class=\"Cell\">96.38</td>\n <td class=\"Total\">75.79</td>\n <td class=\"Total\">42.94</td>\n <td class=\"Cell\">-73.08</td>\n <td class=\"Cell\">5.70</td>\n <td class=\"Cell\">46.04</td>\n <td class=\"Total\">-7.11</td>\n <td class=\"Cell\">-31.21</td>\n <td class=\"Cell\">-62.23</td>\n <td class=\"Cell\">-94.92</td>\n <td class=\"Total\">-62.79</td>\n <td class=\"Total\">-34.95</td>\n <td class=\"Total\">4.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-51.67</td>\n <td class=\"Cell\">-45.97</td>\n <td class=\"Cell\">-70.90</td>\n <td class=\"Total\">-56.18</td>\n <td class=\"Cell\">-7.53</td>\n <td class=\"Cell\">50.87</td>\n <td class=\"Cell\">-83.64</td>\n <td class=\"Total\">-13.43</td>\n <td class=\"Total\">-34.81</td>\n <td class=\"Cell\">-12.76</td>\n <td class=\"Cell\">4.46</td>\n <td class=\"Cell\">61.21</td>\n <td class=\"Total\">17.64</td>\n <td class=\"Cell\">2.63</td>\n <td class=\"Cell\">-73.06</td>\n <td class=\"Cell\">70.31</td>\n <td class=\"Total\">-0.04</td>\n <td class=\"Total\">8.80</td>\n <td class=\"Total\">-13.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">-45.43</td>\n <td class=\"Cell\">7.71</td>\n <td class=\"Cell\">-67.68</td>\n <td class=\"Total\">-35.13</td>\n <td class=\"Cell\">53.78</td>\n <td class=\"Cell\">-11.24</td>\n <td class=\"Cell\">-44.38</td>\n <td class=\"Total\">-0.61</td>\n <td class=\"Total\">-17.87</td>\n <td class=\"Cell\">-26.84</td>\n <td class=\"Cell\">77.43</td>\n <td class=\"Cell\">49.67</td>\n <td class=\"Total\">33.42</td>\n <td class=\"Cell\">70.19</td>\n <td class=\"Cell\">2.80</td>\n <td class=\"Cell\">83.73</td>\n <td class=\"Total\">52.24</td>\n <td class=\"Total\">42.83</td>\n <td class=\"Total\">12.48</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Soil or Water in Baltimore, Maryland in 2020?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 9

What is the minimum number of days for each Characteristic, with Humidity, Temperature, or Wind in Tampa, Florida in 2016?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{18} || {39} || {40}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum number of days for each Characteristic, with Humidity, Temperature, or Wind in Tampa, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum number of days for each Characteristic, with Humidity, Temperature, or Wind in Tampa, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 1

How many days were there with Low Humidity in Fort Lauderdale, Florida in 2016?

template 1

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{44}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Low Humidity in Fort Lauderdale, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Low Humidity in Fort Lauderdale, Florida in 2016?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

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Weather_statistics_set110_4--template 14

What are the Characteristic and Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Wind | Breeze}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Characteristic and Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Characteristic and Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 7

What are the minimum and maximum numbers of days with 31-40 Temperature or Breeze Wind in Fort Lauderdale, Florida in 2015?

template 7

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{31 | 60}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum numbers of days with 31-40 Temperature or Breeze Wind in Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum numbers of days with 31-40 Temperature or Breeze Wind in Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 13

What are the numbers of days ordered by ascending values with Temperature or Wind in Tampa, Florida in 2015?

template 13

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{42} || {47} || {62} || {68} || {80}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the numbers of days ordered by ascending values with Temperature or Wind in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the numbers of days ordered by ascending values with Temperature or Wind in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 3

How many days were there with Breeze Wind in Chicago, Illinois in 2015 or 2016 or Columbus or Washington, Georgia in 2016 or Fort Lauderdale, Florida in 2015?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{31} || {30} || {55} || {33} || {13}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Breeze Wind in Chicago, Illinois in 2015 or 2016 or Columbus or Washington, Georgia in 2016 or Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with Breeze Wind in Chicago, Illinois in 2015 or 2016 or Columbus or Washington, Georgia in 2016 or Fort Lauderdale, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 8

What are the total and minimum numbers of days for each Year, State, and City, with Breeze Wind or High Humidity in Chicago, Illinois or Columbus, Georgia or Tampa, Florida in 2016? Please, report the corresponding Year, State, and City.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{2016 | Florida | Tampa | 58 | 18} || {2016 | Georgia | Columbus | 126 | 30} || {2016 | Illinois | Chicago | 59 | 13}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and minimum numbers of days for each Year, State, and City, with Breeze Wind or High Humidity in Chicago, Illinois or Columbus, Georgia or Tampa, Florida in 2016? Please, report the corresponding Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and minimum numbers of days for each Year, State, and City, with Breeze Wind or High Humidity in Chicago, Illinois or Columbus, Georgia or Tampa, Florida in 2016? Please, report the corresponding Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 12

What are the smallest 4 numbers of days with Humidity or Temperature in Columbus, Georgia in 2015?

template 12

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{4} || {19} || {27} || {50}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the smallest 4 numbers of days with Humidity or Temperature in Columbus, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the smallest 4 numbers of days with Humidity or Temperature in Columbus, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 4

What are the minimum and total numbers of days with Breeze Wind in Chicago or Springfield, Illinois in 2016 or Fort Lauderdale or Tampa, Florida in 2015 or 2016 or Springfield, Illinois in 2015 or Washington, Georgia in 2015?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{9 | 349}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total numbers of days with Breeze Wind in Chicago or Springfield, Illinois in 2016 or Fort Lauderdale or Tampa, Florida in 2015 or 2016 or Springfield, Illinois in 2015 or Washington, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total numbers of days with Breeze Wind in Chicago or Springfield, Illinois in 2016 or Fort Lauderdale or Tampa, Florida in 2015 or 2016 or Springfield, Illinois in 2015 or Washington, Georgia in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 10

What is the total number of days for each Characteristic, with Humidity, Temperature, or Wind in Chicago, Illinois in 2016? Please, report the corresponding Characteristic.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Humidity | 59} || {Temperature | 93} || {Wind | 78}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number of days for each Characteristic, with Humidity, Temperature, or Wind in Chicago, Illinois in 2016? Please, report the corresponding Characteristic.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total number of days for each Characteristic, with Humidity, Temperature, or Wind in Chicago, Illinois in 2016? Please, report the corresponding Characteristic.` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 6

How many days were there with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Fort Lauderdale, Florida in 2016 or with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Tampa, Florida in 2015?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{11} || {47} || {59} || {68} || {73} || {42} || {76} || {32}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Fort Lauderdale, Florida in 2016 or with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Fort Lauderdale, Florida in 2016 or with 31-40 Temperature, Breeze or Storm Wind, or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

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Weather_statistics_set110_4--template 2

How many days were there with 21-30 or 31-40 Temperature, Breeze Wind, or Low or Medium Humidity in Tampa, Florida in 2015?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{80} || {47} || {68} || {65} || {32}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 21-30 or 31-40 Temperature, Breeze Wind, or Low or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there with 21-30 or 31-40 Temperature, Breeze Wind, or Low or Medium Humidity in Tampa, Florida in 2015?` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 11

What is the maximum number of days for each Characteristic, Year, State, and City, with Humidity, Temperature, or Wind in Springfield, Illinois or Tampa, Florida in 2015? Please, report the corresponding Characteristic, Year, State, and City.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Humidity | 2015 | Florida | Tampa | 65} || {Humidity | 2015 | Illinois | Springfield | 53} || {Temperature | 2015 | Florida | Tampa | 80} || {Temperature | 2015 | Illinois | Springfield | 57} || {Wind | 2015 | Florida | Tampa | 68} || {Wind | 2015 | Illinois | Springfield | 86}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum number of days for each Characteristic, Year, State, and City, with Humidity, Temperature, or Wind in Springfield, Illinois or Tampa, Florida in 2015? Please, report the corresponding Characteristic, Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum number of days for each Characteristic, Year, State, and City, with Humidity, Temperature, or Wind in Springfield, Illinois or Tampa, Florida in 2015? Please, report the corresponding Characteristic, Year, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

Weather_statistics_set110_4

syntheticHCTs

_,_,2015,_,_,_,_,_,2016,_,_,_,_,_ ,,Florida,,Georgia,,Illinois,,Florida,,Georgia,,Illinois, ,,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield,Fort Lauderdale,Tampa,Columbus,Washington,Chicago,Springfield Humidity,High,92.00,23.00,4.00,91.00,24.00,38.00,48.00,18.00,96.00,6.00,46.00,35.00 ,Low,88.00,65.00,27.00,52.00,83.00,53.00,44.00,34.00,22.00,67.00,1.00,71.00 ,Medium,70.00,32.00,50.00,17.00,64.00,8.00,76.00,94.00,66.00,28.00,12.00,7.00 Temperature,21-30,93.00,80.00,19.00,15.00,78.00,57.00,75.00,39.00,74.00,0.00,90.00,87.00 ,31-40,60.00,47.00,95.00,84.00,89.00,25.00,11.00,49.00,37.00,2.00,3.00,79.00 Wind,Breeze,31.00,68.00,10.00,9.00,33.00,86.00,59.00,40.00,30.00,55.00,13.00,43.00 ,Calm,82.00,62.00,72.00,58.00,56.00,5.00,14.00,77.00,36.00,54.00,20.00,26.00 ,Storm,85.00,42.00,69.00,63.00,51.00,81.00,73.00,41.00,21.00,16.00,45.00,29.00

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="3" colspan="2"> </th> <th class="ColumnHeader" colspan="6">2015</th> <th class="ColumnHeader" colspan="6">2016</th> </tr> <tr> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Washington</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Humidity</th> <th class="RowHeader">High</th> <td class="Cell">92.00</td> <td class="Cell">23.00</td> <td class="Cell">4.00</td> <td class="Cell">91.00</td> <td class="Cell">24.00</td> <td class="Cell">38.00</td> <td class="Cell">48.00</td> <td class="Cell">18.00</td> <td class="Cell">96.00</td> <td class="Cell">6.00</td> <td class="Cell">46.00</td> <td class="Cell">35.00</td> </tr> <tr> <th class="RowHeader">Low</th> <td class="Cell">88.00</td> <td class="Cell">65.00</td> <td class="Cell">27.00</td> <td class="Cell">52.00</td> <td class="Cell">83.00</td> <td class="Cell">53.00</td> <td class="Cell">44.00</td> <td class="Cell">34.00</td> <td class="Cell">22.00</td> <td class="Cell">67.00</td> <td class="Cell">1.00</td> <td class="Cell">71.00</td> </tr> <tr> <th class="RowHeader">Medium</th> <td class="Cell">70.00</td> <td class="Cell">32.00</td> <td class="Cell">50.00</td> <td class="Cell">17.00</td> <td class="Cell">64.00</td> <td class="Cell">8.00</td> <td class="Cell">76.00</td> <td class="Cell">94.00</td> <td class="Cell">66.00</td> <td class="Cell">28.00</td> <td class="Cell">12.00</td> <td class="Cell">7.00</td> </tr> <tr> <th class="RowHeader" rowspan="2">Temperature</th> <th class="RowHeader">21-30</th> <td class="Cell">93.00</td> <td class="Cell">80.00</td> <td class="Cell">19.00</td> <td class="Cell">15.00</td> <td class="Cell">78.00</td> <td class="Cell">57.00</td> <td class="Cell">75.00</td> <td class="Cell">39.00</td> <td class="Cell">74.00</td> <td class="Cell">0.00</td> <td class="Cell">90.00</td> <td class="Cell">87.00</td> </tr> <tr> <th class="RowHeader">31-40</th> <td class="Cell">60.00</td> <td class="Cell">47.00</td> <td class="Cell">95.00</td> <td class="Cell">84.00</td> <td class="Cell">89.00</td> <td class="Cell">25.00</td> <td class="Cell">11.00</td> <td class="Cell">49.00</td> <td class="Cell">37.00</td> <td class="Cell">2.00</td> <td class="Cell">3.00</td> <td class="Cell">79.00</td> </tr> <tr> <th class="RowHeader" rowspan="3">Wind</th> <th class="RowHeader">Breeze</th> <td class="Cell">31.00</td> <td class="Cell">68.00</td> <td class="Cell">10.00</td> <td class="Cell">9.00</td> <td class="Cell">33.00</td> <td class="Cell">86.00</td> <td class="Cell">59.00</td> <td class="Cell">40.00</td> <td class="Cell">30.00</td> <td class="Cell">55.00</td> <td class="Cell">13.00</td> <td class="Cell">43.00</td> </tr> <tr> <th class="RowHeader">Calm</th> <td class="Cell">82.00</td> <td class="Cell">62.00</td> <td class="Cell">72.00</td> <td class="Cell">58.00</td> <td class="Cell">56.00</td> <td class="Cell">5.00</td> <td class="Cell">14.00</td> <td class="Cell">77.00</td> <td class="Cell">36.00</td> <td class="Cell">54.00</td> <td class="Cell">20.00</td> <td class="Cell">26.00</td> </tr> <tr> <th class="RowHeader">Storm</th> <td class="Cell">85.00</td> <td class="Cell">42.00</td> <td class="Cell">69.00</td> <td class="Cell">63.00</td> <td class="Cell">51.00</td> <td class="Cell">81.00</td> <td class="Cell">73.00</td> <td class="Cell">41.00</td> <td class="Cell">21.00</td> <td class="Cell">16.00</td> <td class="Cell">45.00</td> <td class="Cell">29.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | 2015 | | | | | | 2016 | | | | | | |---|---|---|---|---|---|---|---|---|---|---|---|---|---| | | | Florida | | Georgia | | Illinois | | Florida | | Georgia | | Illinois | | | | | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | Fort Lauderdale | Tampa | Columbus | Washington | Chicago | Springfield | | Humidity | High | 92.00 | 23.00 | 4.00 | 91.00 | 24.00 | 38.00 | 48.00 | 18.00 | 96.00 | 6.00 | 46.00 | 35.00 | | | Low | 88.00 | 65.00 | 27.00 | 52.00 | 83.00 | 53.00 | 44.00 | 34.00 | 22.00 | 67.00 | 1.00 | 71.00 | | | Medium | 70.00 | 32.00 | 50.00 | 17.00 | 64.00 | 8.00 | 76.00 | 94.00 | 66.00 | 28.00 | 12.00 | 7.00 | | Temperature | 21-30 | 93.00 | 80.00 | 19.00 | 15.00 | 78.00 | 57.00 | 75.00 | 39.00 | 74.00 | 0.00 | 90.00 | 87.00 | | | 31-40 | 60.00 | 47.00 | 95.00 | 84.00 | 89.00 | 25.00 | 11.00 | 49.00 | 37.00 | 2.00 | 3.00 | 79.00 | | Wind | Breeze | 31.00 | 68.00 | 10.00 | 9.00 | 33.00 | 86.00 | 59.00 | 40.00 | 30.00 | 55.00 | 13.00 | 43.00 | | | Calm | 82.00 | 62.00 | 72.00 | 58.00 | 56.00 | 5.00 | 14.00 | 77.00 | 36.00 | 54.00 | 20.00 | 26.00 | | | Storm | 85.00 | 42.00 | 69.00 | 63.00 | 51.00 | 81.00 | 73.00 | 41.00 | 21.00 | 16.00 | 45.00 | 29.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Weather_statistics_set110_4_HCT.png

https://hcsdtables.qcri.…set110_4_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": false, "Global Row Aggregation": false, "Local Row-Group Aggregation": false, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Weather_statistics_set110_4--template 15

How many days were there in Washington, Georgia in 2015 with Characteristic and with Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86? Please, report the corresponding Characteristic, Intensity, and number of days.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Wind | Breeze | 9}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there in Washington, Georgia in 2015 with Characteristic and with Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86? Please, report the corresponding Characteristic, Intensity, and number of days.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Weather statistics </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"6\">2015</th>\n <th class=\"ColumnHeader\" colspan=\"6\">2016</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Washington</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Humidity</th>\n <th class=\"RowHeader\">High</th>\n <td class=\"Cell\">92.00</td>\n <td class=\"Cell\">23.00</td>\n <td class=\"Cell\">4.00</td>\n <td class=\"Cell\">91.00</td>\n <td class=\"Cell\">24.00</td>\n <td class=\"Cell\">38.00</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">18.00</td>\n <td class=\"Cell\">96.00</td>\n <td class=\"Cell\">6.00</td>\n <td class=\"Cell\">46.00</td>\n <td class=\"Cell\">35.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Low</th>\n <td class=\"Cell\">88.00</td>\n <td class=\"Cell\">65.00</td>\n <td class=\"Cell\">27.00</td>\n <td class=\"Cell\">52.00</td>\n <td class=\"Cell\">83.00</td>\n <td class=\"Cell\">53.00</td>\n <td class=\"Cell\">44.00</td>\n <td class=\"Cell\">34.00</td>\n <td class=\"Cell\">22.00</td>\n <td class=\"Cell\">67.00</td>\n <td class=\"Cell\">1.00</td>\n <td class=\"Cell\">71.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Medium</th>\n <td class=\"Cell\">70.00</td>\n <td class=\"Cell\">32.00</td>\n <td class=\"Cell\">50.00</td>\n <td class=\"Cell\">17.00</td>\n <td class=\"Cell\">64.00</td>\n <td class=\"Cell\">8.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">94.00</td>\n <td class=\"Cell\">66.00</td>\n <td class=\"Cell\">28.00</td>\n <td class=\"Cell\">12.00</td>\n <td class=\"Cell\">7.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\">Temperature</th>\n <th class=\"RowHeader\">21-30</th>\n <td class=\"Cell\">93.00</td>\n <td class=\"Cell\">80.00</td>\n <td class=\"Cell\">19.00</td>\n <td class=\"Cell\">15.00</td>\n <td class=\"Cell\">78.00</td>\n <td class=\"Cell\">57.00</td>\n <td class=\"Cell\">75.00</td>\n <td class=\"Cell\">39.00</td>\n <td class=\"Cell\">74.00</td>\n <td class=\"Cell\">0.00</td>\n <td class=\"Cell\">90.00</td>\n <td class=\"Cell\">87.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">31-40</th>\n <td class=\"Cell\">60.00</td>\n <td class=\"Cell\">47.00</td>\n <td class=\"Cell\">95.00</td>\n <td class=\"Cell\">84.00</td>\n <td class=\"Cell\">89.00</td>\n <td class=\"Cell\">25.00</td>\n <td class=\"Cell\">11.00</td>\n <td class=\"Cell\">49.00</td>\n <td class=\"Cell\">37.00</td>\n <td class=\"Cell\">2.00</td>\n <td class=\"Cell\">3.00</td>\n <td class=\"Cell\">79.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Wind</th>\n <th class=\"RowHeader\">Breeze</th>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">68.00</td>\n <td class=\"Cell\">10.00</td>\n <td class=\"Cell\">9.00</td>\n <td class=\"Cell\">33.00</td>\n <td class=\"Cell\">86.00</td>\n <td class=\"Cell\">59.00</td>\n <td class=\"Cell\">40.00</td>\n <td class=\"Cell\">30.00</td>\n <td class=\"Cell\">55.00</td>\n <td class=\"Cell\">13.00</td>\n <td class=\"Cell\">43.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Calm</th>\n <td class=\"Cell\">82.00</td>\n <td class=\"Cell\">62.00</td>\n <td class=\"Cell\">72.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">56.00</td>\n <td class=\"Cell\">5.00</td>\n <td class=\"Cell\">14.00</td>\n <td class=\"Cell\">77.00</td>\n <td class=\"Cell\">36.00</td>\n <td class=\"Cell\">54.00</td>\n <td class=\"Cell\">20.00</td>\n <td class=\"Cell\">26.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Storm</th>\n <td class=\"Cell\">85.00</td>\n <td class=\"Cell\">42.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">51.00</td>\n <td class=\"Cell\">81.00</td>\n <td class=\"Cell\">73.00</td>\n <td class=\"Cell\">41.00</td>\n <td class=\"Cell\">21.00</td>\n <td class=\"Cell\">16.00</td>\n <td class=\"Cell\">45.00</td>\n <td class=\"Cell\">29.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `How many days were there in Washington, Georgia in 2015 with Characteristic and with Intensity for which the number of days in Fort Lauderdale, Florida in 2015 is lower than 47.86? Please, report the corresponding Characteristic, Intensity, and number of days.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 2

What is the amount of Import of Cheese or Yoghurt in 2018?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{388} || {929}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Yoghurt in 2018?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Yoghurt in 2018?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 11

What is the maximum amount for each Category, Import-Export, and Year, of Import of Cereals or Dairy in 2017 or of Export of Cereals or Dairy in 2018? Please, report the corresponding Category, Import-Export, and Year.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Cereals | Export | 2018 | 855} || {Cereals | Import | 2017 | 759} || {Dairy | Export | 2018 | 385} || {Dairy | Import | 2017 | 649}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Cereals or Dairy in 2017 or of Export of Cereals or Dairy in 2018? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Cereals or Dairy in 2017 or of Export of Cereals or Dairy in 2018? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 9

What is the minimum amount for each Category, of Export of Cereals or Dairy in 2019?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{536} || {408}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Export of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Export of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 4

What are the average and maximum amounts of Export or Import of Seeds in 2017, of Export of Seeds in 2018 or 2019, or of Import of Seeds in 2019?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{579 | 855}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum amounts of Export or Import of Seeds in 2017, of Export of Seeds in 2018 or 2019, or of Import of Seeds in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum amounts of Export or Import of Seeds in 2017, of Export of Seeds in 2018 or 2019, or of Import of Seeds in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 7

What are the total and maximum amounts of Export of Cream, Rice, or Seeds in 2017?

template 7

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{1087 | 667}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum amounts of Export of Cream, Rice, or Seeds in 2017?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the total and maximum amounts of Export of Cream, Rice, or Seeds in 2017?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 8

What are the minimum and total amounts for each Import-Export and Year, of Import of Cream or Seeds in 2017 or of Export or Import of Cream or Seeds in 2018? Please, report the corresponding Import-Export and Year.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Export | 2018 | 332 | 1187} || {Import | 2017 | 145 | 507} || {Import | 2018 | 738 | 1479}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total amounts for each Import-Export and Year, of Import of Cream or Seeds in 2017 or of Export or Import of Cream or Seeds in 2018? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total amounts for each Import-Export and Year, of Import of Cream or Seeds in 2017 or of Export or Import of Cream or Seeds in 2018? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 15

What is the amount of Import in 2017 of Category and of Item for which the amount of Export in 2019 is greater than 482.6? Please, report the corresponding Category, Item, and amount of import-export.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Cereals | Rice | 759} || {Cereals | Seeds | 145} || {Dairy | Cheese | 649}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2017 of Category and of Item for which the amount of Export in 2019 is greater than 482.6? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2017 of Category and of Item for which the amount of Export in 2019 is greater than 482.6? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 13

What are the amounts ordered by decreasing values of Export of Cereals or Dairy in 2017?

template 13

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{668} || {667} || {320} || {238} || {100}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by decreasing values of Export of Cereals or Dairy in 2017?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by decreasing values of Export of Cereals or Dairy in 2017?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 14

What are the Category and Item for which the amount of Export in 2019 is greater than 482.6?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Cereals | Rice} || {Cereals | Seeds} || {Dairy | Cheese}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2019 is greater than 482.6?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2019 is greater than 482.6?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 3

What is the amount of Import of Cheese in 2017 or 2018?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{649} || {388}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 6

What is the amount of Export of Cream or Seeds in 2017 or 2018?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{667} || {855} || {100} || {332}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream or Seeds in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream or Seeds in 2017 or 2018?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 10

What is the average amount for each Category, of Export of Cereals or Dairy in 2018? Please, report the corresponding Category.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Cereals | 703} || {Dairy | 335.33}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average amount for each Category, of Export of Cereals or Dairy in 2018? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average amount for each Category, of Export of Cereals or Dairy in 2018? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 1

What is the amount of Export of Cream in 2017?

template 1

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{100}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream in 2017?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cream in 2017?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set302_3

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2017.0,2018.0,2019.0,2017.0,2018.0,2019.0 Cereals,,452.0,402.0,729.5,493.5,703.0,574.0 ,Rice,759.0,63.0,843.0,320.0,551.0,536.0 ,Seeds,145.0,741.0,616.0,667.0,855.0,612.0 Dairy,,531.67,685.0,253.67,335.33,335.33,449.0 ,Cheese,649.0,388.0,58.0,668.0,385.0,514.0 ,Cream,362.0,738.0,243.0,100.0,332.0,425.0 ,Yoghurt,584.0,929.0,460.0,238.0,289.0,408.0 Average,,499.8,571.8,444.0,398.6,482.4,499.0

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2017</th> <th class="ColumnHeader">2018</th> <th class="ColumnHeader">2019</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Cereals</th> <td class="OutlineCell">452.00</td> <td class="OutlineCell">402.00</td> <td class="OutlineCell">729.50</td> <td class="OutlineCell">493.50</td> <td class="OutlineCell">703.00</td> <td class="OutlineCell">574.00</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Rice</th> <td class="Cell">759.00</td> <td class="Cell">63.00</td> <td class="Cell">843.00</td> <td class="Cell">320.00</td> <td class="Cell">551.00</td> <td class="Cell">536.00</td> </tr> <tr> <th class="RowHeader">Seeds</th> <td class="Cell">145.00</td> <td class="Cell">741.00</td> <td class="Cell">616.00</td> <td class="Cell">667.00</td> <td class="Cell">855.00</td> <td class="Cell">612.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">531.67</td> <td class="OutlineCell">685.00</td> <td class="OutlineCell">253.67</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">335.33</td> <td class="OutlineCell">449.00</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">649.00</td> <td class="Cell">388.00</td> <td class="Cell">58.00</td> <td class="Cell">668.00</td> <td class="Cell">385.00</td> <td class="Cell">514.00</td> </tr> <tr> <th class="RowHeader">Cream</th> <td class="Cell">362.00</td> <td class="Cell">738.00</td> <td class="Cell">243.00</td> <td class="Cell">100.00</td> <td class="Cell">332.00</td> <td class="Cell">425.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">584.00</td> <td class="Cell">929.00</td> <td class="Cell">460.00</td> <td class="Cell">238.00</td> <td class="Cell">289.00</td> <td class="Cell">408.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">499.80</td> <td class="Total">571.80</td> <td class="Total">444.00</td> <td class="Total">398.60</td> <td class="Total">482.40</td> <td class="Total">499.00</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2017 | 2018 | 2019 | 2017 | 2018 | 2019 | | Cereals | | 452.00 | 402.00 | 729.50 | 493.50 | 703.00 | 574.00 | | | Rice | 759.00 | 63.00 | 843.00 | 320.00 | 551.00 | 536.00 | | | Seeds | 145.00 | 741.00 | 616.00 | 667.00 | 855.00 | 612.00 | | Dairy | | 531.67 | 685.00 | 253.67 | 335.33 | 335.33 | 449.00 | | | Cheese | 649.00 | 388.00 | 58.00 | 668.00 | 385.00 | 514.00 | | | Cream | 362.00 | 738.00 | 243.00 | 100.00 | 332.00 | 425.00 | | | Yoghurt | 584.00 | 929.00 | 460.00 | 238.00 | 289.00 | 408.00 | | Average | | 499.80 | 571.80 | 444.00 | 398.60 | 482.40 | 499.00 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set302_3_HCT.png

https://hcsdtables.qcri.…set302_3_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set302_3--template 12

What are the top 3 amounts of Import of Cereals or Dairy in 2019?

template 12

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{843} || {616} || {460}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 3 amounts of Import of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2017</th>\n <th class=\"ColumnHeader\">2018</th>\n <th class=\"ColumnHeader\">2019</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Cereals</th>\n <td class=\"OutlineCell\">452.00</td>\n <td class=\"OutlineCell\">402.00</td>\n <td class=\"OutlineCell\">729.50</td>\n <td class=\"OutlineCell\">493.50</td>\n <td class=\"OutlineCell\">703.00</td>\n <td class=\"OutlineCell\">574.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Rice</th>\n <td class=\"Cell\">759.00</td>\n <td class=\"Cell\">63.00</td>\n <td class=\"Cell\">843.00</td>\n <td class=\"Cell\">320.00</td>\n <td class=\"Cell\">551.00</td>\n <td class=\"Cell\">536.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Seeds</th>\n <td class=\"Cell\">145.00</td>\n <td class=\"Cell\">741.00</td>\n <td class=\"Cell\">616.00</td>\n <td class=\"Cell\">667.00</td>\n <td class=\"Cell\">855.00</td>\n <td class=\"Cell\">612.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">531.67</td>\n <td class=\"OutlineCell\">685.00</td>\n <td class=\"OutlineCell\">253.67</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">335.33</td>\n <td class=\"OutlineCell\">449.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">649.00</td>\n <td class=\"Cell\">388.00</td>\n <td class=\"Cell\">58.00</td>\n <td class=\"Cell\">668.00</td>\n <td class=\"Cell\">385.00</td>\n <td class=\"Cell\">514.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Cream</th>\n <td class=\"Cell\">362.00</td>\n <td class=\"Cell\">738.00</td>\n <td class=\"Cell\">243.00</td>\n <td class=\"Cell\">100.00</td>\n <td class=\"Cell\">332.00</td>\n <td class=\"Cell\">425.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">584.00</td>\n <td class=\"Cell\">929.00</td>\n <td class=\"Cell\">460.00</td>\n <td class=\"Cell\">238.00</td>\n <td class=\"Cell\">289.00</td>\n <td class=\"Cell\">408.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">499.80</td>\n <td class=\"Total\">571.80</td>\n <td class=\"Total\">444.00</td>\n <td class=\"Total\">398.60</td>\n <td class=\"Total\">482.40</td>\n <td class=\"Total\">499.00</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the top 3 amounts of Import of Cereals or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 14

What are the Polluted element and Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Chemical} || {Water | Groundwater} || {Water | Oxygen-depletion} || {Soil | Inferior Irrigation} || {Soil | Solid Waste} || {Soil | Urban Activities} || {Air | Noise} || {Air | Light}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 7

What are the minimum and maximum evolutions of Groundwater, Noise, Thermal, or Urban Activities pollution in Tampa, Florida?

template 7

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-68.82 | 33.31}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions of Groundwater, Noise, Thermal, or Urban Activities pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions of Groundwater, Noise, Thermal, or Urban Activities pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

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Evolution_of_pollution_in_percent_set249_2--template 4

What are the minimum and total evolutions of Light pollution in Fort Lauderdale or Tampa, Florida?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-85.99 | -12.61}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions of Light pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions of Light pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 15

What is the evolution of pollution in Fort Lauderdale, Florida of Polluted element and of Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Chemical | 19.13} || {Water | Groundwater | -17.89} || {Water | Oxygen-depletion | 43.74} || {Soil | Inferior Irrigation | -70.48} || {Soil | Solid Waste | 9.21} || {Soil | Urban Activities | 66.89} || {Air | Noise | -96.92} || {Air | Light | -85.99}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Fort Lauderdale, Florida of Polluted element and of Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Fort Lauderdale, Florida of Polluted element and of Type of pollution for which the evolution in Los-Angeles, California is lower than -13.41? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 9

What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Tampa, Florida?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-65.15} || {-64.83} || {-68.82}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 5

What is the average evolution of Oxygen-depletion pollution in Fort Lauderdale or Tampa, Florida?

template 5

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{67.64}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Oxygen-depletion pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the average evolution of Oxygen-depletion pollution in Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 8

What are the minimum and maximum evolutions for each State and City, of Groundwater or Urban Activities pollution in Berkeley or Los-Angeles, California or Tampa, Florida? Please, report the corresponding State and City.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{California | Berkeley | -20.31 | 53.41} || {California | Los-Angeles | -65.48 | -30.61} || {Florida | Tampa | -68.82 | 9.06}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions for each State and City, of Groundwater or Urban Activities pollution in Berkeley or Los-Angeles, California or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum evolutions for each State and City, of Groundwater or Urban Activities pollution in Berkeley or Los-Angeles, California or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 11

What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Berkeley, California or Tampa, Florida? Please, report the corresponding Polluted element, State, and City.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | California | Berkeley | -1.1} || {Air | Florida | Tampa | 41.54} || {Soil | California | Berkeley | 40.05} || {Soil | Florida | Tampa | -92.13} || {Water | California | Berkeley | 70.93} || {Water | Florida | Tampa | 8.83}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Berkeley, California or Tampa, Florida? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Berkeley, California or Tampa, Florida? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 3

What is the evolution of Noise pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-30.07} || {-19.95} || {-96.92} || {33.31}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Noise pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Noise pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 6

What is the evolution of Light, Solid Waste, or Thermal pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{80.84} || {-90.01} || {9.21} || {-64.83} || {-19.2} || {-43.6} || {-85.99} || {73.38} || {48.17} || {1.77} || {-2.41} || {-65.15}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Solid Waste, or Thermal pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Solid Waste, or Thermal pollution in Berkeley or Los-Angeles, California or Fort Lauderdale or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

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Evolution_of_pollution_in_percent_set249_2--template 1

What is the evolution of Groundwater pollution in Los-Angeles, California?

template 1

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{-65.48}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater pollution in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater pollution in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 2

What is the evolution of Groundwater, Inferior Irrigation, Light, Noise, Solid Waste, Thermal, or Urban Activities pollution in Berkeley, California?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-20.31} || {-94.2} || {80.84} || {53.41} || {-30.07} || {-19.2} || {48.17}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Inferior Irrigation, Light, Noise, Solid Waste, Thermal, or Urban Activities pollution in Berkeley, California?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Inferior Irrigation, Light, Noise, Solid Waste, Thermal, or Urban Activities pollution in Berkeley, California?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 12

What are the bottom 5 evolutions of pollution of Air or Soil in Los-Angeles, California?

template 12

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{-90.01} || {-71.1} || {-43.6} || {-30.61} || {-19.95}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 5 evolutions of pollution of Air or Soil in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 5 evolutions of pollution of Air or Soil in Los-Angeles, California?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": true, "Global Column Aggregation": true, "Local Column-Group Aggregation": true, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set249_2--template 10

What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Berkeley, California? Please, report the corresponding Polluted element.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | -30.07} || {Soil | -94.2} || {Water | -20.31}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Berkeley, California? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Berkeley, California? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set249_2

syntheticHCTs

_,_,California,_,_,Florida,_,_,Average ,,Berkeley,Los-Angeles,Average,Fort Lauderdale,Tampa,Average, Air,,-0.37,-20.59,-10.48,-61.77,13.85,-23.96,-17.22 ,Light,-19.20,-43.60,-31.40,-85.99,73.38,-6.30,-18.85 ,Noise,-30.07,-19.95,-25.01,-96.92,33.31,-31.80,-28.41 ,Thermal,48.17,1.77,24.97,-2.41,-65.15,-33.78,-4.41 Soil,,13.35,-63.91,-25.28,1.87,-30.71,-14.42,-19.85 ,Inferior Irrigation,-94.20,-71.10,-82.65,-70.48,-36.36,-53.42,-68.03 ,Solid Waste,80.84,-90.01,-4.59,9.21,-64.83,-27.81,-16.2 ,Urban Activities,53.41,-30.61,11.40,66.89,9.06,37.98,24.69 Water,,23.64,-54.17,-15.26,14.99,2.94,8.97,-3.15 ,Chemical,53.76,-19.55,17.10,19.13,-13.90,2.61,9.86 ,Groundwater,-20.31,-65.48,-42.90,-17.89,-68.82,-43.35,-43.12 ,Oxygen-depletion,37.48,-77.47,-20.00,43.74,91.55,67.64,23.82 Average,,12.21,-46.22,-17.01,-14.97,-4.64,-9.80,-13.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">California</th> <th class="ColumnHeader" colspan="3">Florida</th> <th class="ColumnHeader">Average</th> </tr> <tr> <th class="ColumnHeader">Berkeley</th> <th class="ColumnHeader">Los-Angeles</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Average</th> <th class="ColumnHeader"> </th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-0.37</td> <td class="OutlineCell">-20.59</td> <td class="OutlineCell">-10.48</td> <td class="OutlineCell">-61.77</td> <td class="OutlineCell">13.85</td> <td class="OutlineCell">-23.96</td> <td class="OutlineCell">-17.22</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">-19.20</td> <td class="Cell">-43.60</td> <td class="Total">-31.40</td> <td class="Cell">-85.99</td> <td class="Cell">73.38</td> <td class="Total">-6.30</td> <td class="Total">-18.85</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-30.07</td> <td class="Cell">-19.95</td> <td class="Total">-25.01</td> <td class="Cell">-96.92</td> <td class="Cell">33.31</td> <td class="Total">-31.80</td> <td class="Total">-28.41</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">48.17</td> <td class="Cell">1.77</td> <td class="Total">24.97</td> <td class="Cell">-2.41</td> <td class="Cell">-65.15</td> <td class="Total">-33.78</td> <td class="Total">-4.41</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">13.35</td> <td class="OutlineCell">-63.91</td> <td class="OutlineCell">-25.28</td> <td class="OutlineCell">1.87</td> <td class="OutlineCell">-30.71</td> <td class="OutlineCell">-14.42</td> <td class="OutlineCell">-19.85</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-94.20</td> <td class="Cell">-71.10</td> <td class="Total">-82.65</td> <td class="Cell">-70.48</td> <td class="Cell">-36.36</td> <td class="Total">-53.42</td> <td class="Total">-68.03</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">80.84</td> <td class="Cell">-90.01</td> <td class="Total">-4.59</td> <td class="Cell">9.21</td> <td class="Cell">-64.83</td> <td class="Total">-27.81</td> <td class="Total">-16.20</td> </tr> <tr> <th class="RowHeader">Urban Activities</th> <td class="Cell">53.41</td> <td class="Cell">-30.61</td> <td class="Total">11.40</td> <td class="Cell">66.89</td> <td class="Cell">9.06</td> <td class="Total">37.98</td> <td class="Total">24.69</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">23.64</td> <td class="OutlineCell">-54.17</td> <td class="OutlineCell">-15.26</td> <td class="OutlineCell">14.99</td> <td class="OutlineCell">2.94</td> <td class="OutlineCell">8.97</td> <td class="OutlineCell">-3.15</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Chemical</th> <td class="Cell">53.76</td> <td class="Cell">-19.55</td> <td class="Total">17.10</td> <td class="Cell">19.13</td> <td class="Cell">-13.90</td> <td class="Total">2.61</td> <td class="Total">9.86</td> </tr> <tr> <th class="RowHeader">Groundwater</th> <td class="Cell">-20.31</td> <td class="Cell">-65.48</td> <td class="Total">-42.90</td> <td class="Cell">-17.89</td> <td class="Cell">-68.82</td> <td class="Total">-43.35</td> <td class="Total">-43.12</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">37.48</td> <td class="Cell">-77.47</td> <td class="Total">-20.00</td> <td class="Cell">43.74</td> <td class="Cell">91.55</td> <td class="Total">67.64</td> <td class="Total">23.82</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">12.21</td> <td class="Total">-46.22</td> <td class="Total">-17.01</td> <td class="Total">-14.97</td> <td class="Total">-4.64</td> <td class="Total">-9.80</td> <td class="Total">-13.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | California | | | Florida | | | Average | |---|---|---|---|---|---|---|---|---| | | | Berkeley | Los-Angeles | Average | Fort Lauderdale | Tampa | Average | | | Air | | -0.37 | -20.59 | -10.48 | -61.77 | 13.85 | -23.96 | -17.22 | | | Light | -19.20 | -43.60 | -31.40 | -85.99 | 73.38 | -6.30 | -18.85 | | | Noise | -30.07 | -19.95 | -25.01 | -96.92 | 33.31 | -31.80 | -28.41 | | | Thermal | 48.17 | 1.77 | 24.97 | -2.41 | -65.15 | -33.78 | -4.41 | | Soil | | 13.35 | -63.91 | -25.28 | 1.87 | -30.71 | -14.42 | -19.85 | | | Inferior Irrigation | -94.20 | -71.10 | -82.65 | -70.48 | -36.36 | -53.42 | -68.03 | | | Solid Waste | 80.84 | -90.01 | -4.59 | 9.21 | -64.83 | -27.81 | -16.20 | | | Urban Activities | 53.41 | -30.61 | 11.40 | 66.89 | 9.06 | 37.98 | 24.69 | | Water | | 23.64 | -54.17 | -15.26 | 14.99 | 2.94 | 8.97 | -3.15 | | | Chemical | 53.76 | -19.55 | 17.10 | 19.13 | -13.90 | 2.61 | 9.86 | | | Groundwater | -20.31 | -65.48 | -42.90 | -17.89 | -68.82 | -43.35 | -43.12 | | | Oxygen-depletion | 37.48 | -77.47 | -20.00 | 43.74 | 91.55 | 67.64 | 23.82 | | Average | | 12.21 | -46.22 | -17.01 | -14.97 | -4.64 | -9.80 | -13.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set249_2_HCT.png

https://hcsdtables.qcri.…set249_2_HCT.png

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Evolution_of_pollution_in_percent_set249_2--template 13

What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?

template 13

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{-70.48} || {-17.89} || {9.21} || {19.13} || {43.74} || {66.89}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">California</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Florida</th>\n <th class=\"ColumnHeader\">Average</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Berkeley</th>\n <th class=\"ColumnHeader\">Los-Angeles</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Average</th>\n <th class=\"ColumnHeader\"> </th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-0.37</td>\n <td class=\"OutlineCell\">-20.59</td>\n <td class=\"OutlineCell\">-10.48</td>\n <td class=\"OutlineCell\">-61.77</td>\n <td class=\"OutlineCell\">13.85</td>\n <td class=\"OutlineCell\">-23.96</td>\n <td class=\"OutlineCell\">-17.22</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">-19.20</td>\n <td class=\"Cell\">-43.60</td>\n <td class=\"Total\">-31.40</td>\n <td class=\"Cell\">-85.99</td>\n <td class=\"Cell\">73.38</td>\n <td class=\"Total\">-6.30</td>\n <td class=\"Total\">-18.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-30.07</td>\n <td class=\"Cell\">-19.95</td>\n <td class=\"Total\">-25.01</td>\n <td class=\"Cell\">-96.92</td>\n <td class=\"Cell\">33.31</td>\n <td class=\"Total\">-31.80</td>\n <td class=\"Total\">-28.41</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">48.17</td>\n <td class=\"Cell\">1.77</td>\n <td class=\"Total\">24.97</td>\n <td class=\"Cell\">-2.41</td>\n <td class=\"Cell\">-65.15</td>\n <td class=\"Total\">-33.78</td>\n <td class=\"Total\">-4.41</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">13.35</td>\n <td class=\"OutlineCell\">-63.91</td>\n <td class=\"OutlineCell\">-25.28</td>\n <td class=\"OutlineCell\">1.87</td>\n <td class=\"OutlineCell\">-30.71</td>\n <td class=\"OutlineCell\">-14.42</td>\n <td class=\"OutlineCell\">-19.85</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-94.20</td>\n <td class=\"Cell\">-71.10</td>\n <td class=\"Total\">-82.65</td>\n <td class=\"Cell\">-70.48</td>\n <td class=\"Cell\">-36.36</td>\n <td class=\"Total\">-53.42</td>\n <td class=\"Total\">-68.03</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">80.84</td>\n <td class=\"Cell\">-90.01</td>\n <td class=\"Total\">-4.59</td>\n <td class=\"Cell\">9.21</td>\n <td class=\"Cell\">-64.83</td>\n <td class=\"Total\">-27.81</td>\n <td class=\"Total\">-16.20</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Urban Activities</th>\n <td class=\"Cell\">53.41</td>\n <td class=\"Cell\">-30.61</td>\n <td class=\"Total\">11.40</td>\n <td class=\"Cell\">66.89</td>\n <td class=\"Cell\">9.06</td>\n <td class=\"Total\">37.98</td>\n <td class=\"Total\">24.69</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">23.64</td>\n <td class=\"OutlineCell\">-54.17</td>\n <td class=\"OutlineCell\">-15.26</td>\n <td class=\"OutlineCell\">14.99</td>\n <td class=\"OutlineCell\">2.94</td>\n <td class=\"OutlineCell\">8.97</td>\n <td class=\"OutlineCell\">-3.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Chemical</th>\n <td class=\"Cell\">53.76</td>\n <td class=\"Cell\">-19.55</td>\n <td class=\"Total\">17.10</td>\n <td class=\"Cell\">19.13</td>\n <td class=\"Cell\">-13.90</td>\n <td class=\"Total\">2.61</td>\n <td class=\"Total\">9.86</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-20.31</td>\n <td class=\"Cell\">-65.48</td>\n <td class=\"Total\">-42.90</td>\n <td class=\"Cell\">-17.89</td>\n <td class=\"Cell\">-68.82</td>\n <td class=\"Total\">-43.35</td>\n <td class=\"Total\">-43.12</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">37.48</td>\n <td class=\"Cell\">-77.47</td>\n <td class=\"Total\">-20.00</td>\n <td class=\"Cell\">43.74</td>\n <td class=\"Cell\">91.55</td>\n <td class=\"Total\">67.64</td>\n <td class=\"Total\">23.82</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">12.21</td>\n <td class=\"Total\">-46.22</td>\n <td class=\"Total\">-17.01</td>\n <td class=\"Total\">-14.97</td>\n <td class=\"Total\">-4.64</td>\n <td class=\"Total\">-9.80</td>\n <td class=\"Total\">-13.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

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Evolution_of_pollution_in_percent_set11_5--template 1

What is the evolution of Thermal pollution in Springfield, Illinois?

template 1

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{98.15}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Thermal pollution in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Thermal pollution in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 13

What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?

template 13

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{-96.2} || {-89.76} || {-60.09} || {72.57} || {72.58}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by increasing values of pollution of Soil or Water in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 14

What are the Polluted element and Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Groundwater} || {Soil | Industrial} || {Air | Light} || {Air | Thermal}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 8

What are the minimum and total evolutions for each State and City, of Industrial, Inferior Irrigation, or Thermal pollution in Albany or Columbus, Georgia or Tampa, Florida? Please, report the corresponding State and City.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Florida | Tampa | -3.9 | 169.62} || {Georgia | Albany | -19.05 | 105.25} || {Georgia | Columbus | -92.94 | -176.18}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions for each State and City, of Industrial, Inferior Irrigation, or Thermal pollution in Albany or Columbus, Georgia or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and total evolutions for each State and City, of Industrial, Inferior Irrigation, or Thermal pollution in Albany or Columbus, Georgia or Tampa, Florida? Please, report the corresponding State and City.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 10

What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Springfield, Illinois? Please, report the corresponding Polluted element.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | 172.51} || {Soil | -50.75} || {Water | 52.58}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Springfield, Illinois? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Springfield, Illinois? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 9

What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Columbus, Georgia?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-51.12} || {-92.94} || {-96.72}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 12

What are the bottom 2 evolutions of pollution of Air or Water in Springfield, Illinois?

template 12

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{-28.58} || {74.36}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 2 evolutions of pollution of Air or Water in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 2 evolutions of pollution of Air or Water in Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 15

What is the evolution of pollution in Albany, Georgia of Polluted element and of Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Groundwater | 58.76} || {Soil | Industrial | 53.69} || {Air | Light | 19.64} || {Air | Thermal | 70.61}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Albany, Georgia of Polluted element and of Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of pollution in Albany, Georgia of Polluted element and of Type of pollution for which the evolution in Springfield, Illinois is greater than 18.6? Please, report the corresponding Polluted element, Type of pollution, and evolution of pollution.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 6

What is the evolution of Industrial, Inferior Irrigation, Oxygen-depletion, or Solid Waste pollution in Albany or Columbus, Georgia or Fort Lauderdale or Tampa, Florida or Springfield, Illinois?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-89.76} || {94.73} || {-2.96} || {42.97} || {-28.58} || {72.58} || {-3.9} || {53.69} || {-92.94} || {20.65} || {-96.2} || {84.03} || {-19.05} || {-32.12} || {-87.13} || {-60.09} || {-9.45} || {45.08} || {77.62} || {15.73}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Industrial, Inferior Irrigation, Oxygen-depletion, or Solid Waste pollution in Albany or Columbus, Georgia or Fort Lauderdale or Tampa, Florida or Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Industrial, Inferior Irrigation, Oxygen-depletion, or Solid Waste pollution in Albany or Columbus, Georgia or Fort Lauderdale or Tampa, Florida or Springfield, Illinois?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 7

What are the average and maximum evolutions of Industrial, Inferior Irrigation, or Thermal pollution in Tampa, Florida?

template 7

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{56.54 | 89.49}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Industrial, Inferior Irrigation, or Thermal pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Industrial, Inferior Irrigation, or Thermal pollution in Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 3

What is the evolution of Light pollution in Chicago, Illinois or Tampa, Florida?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-28.17} || {-46.35}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light pollution in Chicago, Illinois or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light pollution in Chicago, Illinois or Tampa, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 4

What are the maximum and total evolutions of Inferior Irrigation pollution in Chicago, Illinois or Columbus, Georgia?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{61.52 | 29.4}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total evolutions of Inferior Irrigation pollution in Chicago, Illinois or Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total evolutions of Inferior Irrigation pollution in Chicago, Illinois or Columbus, Georgia?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 11

What is the minimum evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Albany, Georgia or Springfield, Illinois? Please, report the corresponding Polluted element, State, and City.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | Georgia | Albany | 19.64} || {Air | Illinois | Springfield | 74.36} || {Soil | Georgia | Albany | -19.05} || {Soil | Illinois | Springfield | -87.13} || {Water | Georgia | Albany | -2.96} || {Water | Illinois | Springfield | -28.58}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Albany, Georgia or Springfield, Illinois? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Albany, Georgia or Springfield, Illinois? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set11_5

syntheticHCTs

_,_,Florida,_,Georgia,_,Illinois,_ ,,Fort Lauderdale,Tampa,Albany,Columbus,Chicago,Springfield Air,Light,62.86,-28.17,19.64,48.00,-46.35,74.36 ,Thermal,14.54,89.49,70.61,-51.12,22.50,98.15 ,Average,38.70,30.66,45.12,-1.56,-11.93,86.25 Soil,Industrial,72.58,-3.90,53.69,-92.94,67.96,20.65 ,Inferior Irrigation,-96.20,84.03,-19.05,-32.12,61.52,-87.13 ,Solid Waste,-60.09,-9.45,45.08,77.62,71.36,15.73 ,Average,-27.90,23.56,26.57,-15.81,66.95,-16.92 Water,Groundwater,72.57,86.56,58.76,-96.72,-47.63,81.16 ,Oxygen-depletion,-89.76,94.73,-2.96,42.97,66.31,-28.58 ,Average,-8.60,90.65,27.90,-26.88,9.34,26.29 Average,,-3.36,44.76,32.25,-14.90,27.95,24.91

<html><head><style> Table { border: 0px solid; border-collapse: collapse; } th, td { border: 0px solid; padding: 5px; text-align: left; vertical-align: top; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Florida</th> <th class="ColumnHeader" colspan="2">Georgia</th> <th class="ColumnHeader" colspan="2">Illinois</th> </tr> <tr> <th class="ColumnHeader">Fort Lauderdale</th> <th class="ColumnHeader">Tampa</th> <th class="ColumnHeader">Albany</th> <th class="ColumnHeader">Columbus</th> <th class="ColumnHeader">Chicago</th> <th class="ColumnHeader">Springfield</th> </tr> <tr> <th class="RowHeader" rowspan="3">Air</th> <th class="RowHeader">Light</th> <td class="Cell">62.86</td> <td class="Cell">-28.17</td> <td class="Cell">19.64</td> <td class="Cell">48.00</td> <td class="Cell">-46.35</td> <td class="Cell">74.36</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">14.54</td> <td class="Cell">89.49</td> <td class="Cell">70.61</td> <td class="Cell">-51.12</td> <td class="Cell">22.50</td> <td class="Cell">98.15</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">38.70</td> <td class="Total">30.66</td> <td class="Total">45.12</td> <td class="Total">-1.56</td> <td class="Total">-11.93</td> <td class="Total">86.25</td> </tr> <tr> <th class="RowHeader" rowspan="4">Soil</th> <th class="RowHeader">Industrial</th> <td class="Cell">72.58</td> <td class="Cell">-3.90</td> <td class="Cell">53.69</td> <td class="Cell">-92.94</td> <td class="Cell">67.96</td> <td class="Cell">20.65</td> </tr> <tr> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-96.20</td> <td class="Cell">84.03</td> <td class="Cell">-19.05</td> <td class="Cell">-32.12</td> <td class="Cell">61.52</td> <td class="Cell">-87.13</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">-60.09</td> <td class="Cell">-9.45</td> <td class="Cell">45.08</td> <td class="Cell">77.62</td> <td class="Cell">71.36</td> <td class="Cell">15.73</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-27.90</td> <td class="Total">23.56</td> <td class="Total">26.57</td> <td class="Total">-15.81</td> <td class="Total">66.95</td> <td class="Total">-16.92</td> </tr> <tr> <th class="RowHeader" rowspan="3">Water</th> <th class="RowHeader">Groundwater</th> <td class="Cell">72.57</td> <td class="Cell">86.56</td> <td class="Cell">58.76</td> <td class="Cell">-96.72</td> <td class="Cell">-47.63</td> <td class="Cell">81.16</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-89.76</td> <td class="Cell">94.73</td> <td class="Cell">-2.96</td> <td class="Cell">42.97</td> <td class="Cell">66.31</td> <td class="Cell">-28.58</td> </tr> <tr> <th class="RowHeader">Average</th> <td class="Total">-8.60</td> <td class="Total">90.65</td> <td class="Total">27.90</td> <td class="Total">-26.88</td> <td class="Total">9.34</td> <td class="Total">26.29</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-3.36</td> <td class="Total">44.76</td> <td class="Total">32.25</td> <td class="Total">-14.90</td> <td class="Total">27.95</td> <td class="Total">24.91</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Florida | | Georgia | | Illinois | | |---|---|---|---|---|---|---|---| | | | Fort Lauderdale | Tampa | Albany | Columbus | Chicago | Springfield | | Air | Light | 62.86 | -28.17 | 19.64 | 48.00 | -46.35 | 74.36 | | | Thermal | 14.54 | 89.49 | 70.61 | -51.12 | 22.50 | 98.15 | | | Average | 38.70 | 30.66 | 45.12 | -1.56 | -11.93 | 86.25 | | Soil | Industrial | 72.58 | -3.90 | 53.69 | -92.94 | 67.96 | 20.65 | | | Inferior Irrigation | -96.20 | 84.03 | -19.05 | -32.12 | 61.52 | -87.13 | | | Solid Waste | -60.09 | -9.45 | 45.08 | 77.62 | 71.36 | 15.73 | | | Average | -27.90 | 23.56 | 26.57 | -15.81 | 66.95 | -16.92 | | Water | Groundwater | 72.57 | 86.56 | 58.76 | -96.72 | -47.63 | 81.16 | | | Oxygen-depletion | -89.76 | 94.73 | -2.96 | 42.97 | 66.31 | -28.58 | | | Average | -8.60 | 90.65 | 27.90 | -26.88 | 9.34 | 26.29 | | Average | | -3.36 | 44.76 | 32.25 | -14.90 | 27.95 | 24.91 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set11_5_HCT.png

https://hcsdtables.qcri.…_set11_5_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set11_5--template 2

What is the evolution of Groundwater, Industrial, Inferior Irrigation, Light, Oxygen-depletion, Solid Waste, or Thermal pollution in Fort Lauderdale, Florida?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{72.57} || {-89.76} || {72.58} || {-96.2} || {-60.09} || {62.86} || {14.54}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Industrial, Inferior Irrigation, Light, Oxygen-depletion, Solid Waste, or Thermal pollution in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 0px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 0px solid;\n padding: 5px;\n text-align: left;\n vertical-align: top;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Florida</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Georgia</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Illinois</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Fort Lauderdale</th>\n <th class=\"ColumnHeader\">Tampa</th>\n <th class=\"ColumnHeader\">Albany</th>\n <th class=\"ColumnHeader\">Columbus</th>\n <th class=\"ColumnHeader\">Chicago</th>\n <th class=\"ColumnHeader\">Springfield</th>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Air</th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">62.86</td>\n <td class=\"Cell\">-28.17</td>\n <td class=\"Cell\">19.64</td>\n <td class=\"Cell\">48.00</td>\n <td class=\"Cell\">-46.35</td>\n <td class=\"Cell\">74.36</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">14.54</td>\n <td class=\"Cell\">89.49</td>\n <td class=\"Cell\">70.61</td>\n <td class=\"Cell\">-51.12</td>\n <td class=\"Cell\">22.50</td>\n <td class=\"Cell\">98.15</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">38.70</td>\n <td class=\"Total\">30.66</td>\n <td class=\"Total\">45.12</td>\n <td class=\"Total\">-1.56</td>\n <td class=\"Total\">-11.93</td>\n <td class=\"Total\">86.25</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"4\">Soil</th>\n <th class=\"RowHeader\">Industrial</th>\n <td class=\"Cell\">72.58</td>\n <td class=\"Cell\">-3.90</td>\n <td class=\"Cell\">53.69</td>\n <td class=\"Cell\">-92.94</td>\n <td class=\"Cell\">67.96</td>\n <td class=\"Cell\">20.65</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-96.20</td>\n <td class=\"Cell\">84.03</td>\n <td class=\"Cell\">-19.05</td>\n <td class=\"Cell\">-32.12</td>\n <td class=\"Cell\">61.52</td>\n <td class=\"Cell\">-87.13</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">-60.09</td>\n <td class=\"Cell\">-9.45</td>\n <td class=\"Cell\">45.08</td>\n <td class=\"Cell\">77.62</td>\n <td class=\"Cell\">71.36</td>\n <td class=\"Cell\">15.73</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-27.90</td>\n <td class=\"Total\">23.56</td>\n <td class=\"Total\">26.57</td>\n <td class=\"Total\">-15.81</td>\n <td class=\"Total\">66.95</td>\n <td class=\"Total\">-16.92</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\">Water</th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">72.57</td>\n <td class=\"Cell\">86.56</td>\n <td class=\"Cell\">58.76</td>\n <td class=\"Cell\">-96.72</td>\n <td class=\"Cell\">-47.63</td>\n <td class=\"Cell\">81.16</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-89.76</td>\n <td class=\"Cell\">94.73</td>\n <td class=\"Cell\">-2.96</td>\n <td class=\"Cell\">42.97</td>\n <td class=\"Cell\">66.31</td>\n <td class=\"Cell\">-28.58</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <td class=\"Total\">-8.60</td>\n <td class=\"Total\">90.65</td>\n <td class=\"Total\">27.90</td>\n <td class=\"Total\">-26.88</td>\n <td class=\"Total\">9.34</td>\n <td class=\"Total\">26.29</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-3.36</td>\n <td class=\"Total\">44.76</td>\n <td class=\"Total\">32.25</td>\n <td class=\"Total\">-14.90</td>\n <td class=\"Total\">27.95</td>\n <td class=\"Total\">24.91</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Industrial, Inferior Irrigation, Light, Oxygen-depletion, Solid Waste, or Thermal pollution in Fort Lauderdale, Florida?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 7

What are the minimum and maximum amounts of Export of Cheese, Soda, Tea, or Yoghurt in 2021?

template 7

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{21 | 508}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum amounts of Export of Cheese, Soda, Tea, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the minimum and maximum amounts of Export of Cheese, Soda, Tea, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 4

What are the maximum and total amounts of Export or Import of Cheese in 2020?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{867 | 1103}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts of Export or Import of Cheese in 2020?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts of Export or Import of Cheese in 2020?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 10

What is the maximum amount for each Category, of Import of Beverage or Dairy in 2019? Please, report the corresponding Category.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Beverage | 701} || {Dairy | 928}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, of Import of Beverage or Dairy in 2019? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, of Import of Beverage or Dairy in 2019? Please, report the corresponding Category.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 2

What is the amount of Export of Cheese, Coffee, Soda, or Yoghurt in 2021?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{83} || {508} || {147} || {21}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese, Coffee, Soda, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese, Coffee, Soda, or Yoghurt in 2021?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 13

What are the amounts ordered by increasing values of Export of Beverage or Dairy in 2019?

template 13

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{31} || {274} || {398} || {556} || {847}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by increasing values of Export of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the amounts ordered by increasing values of Export of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 11

What is the maximum amount for each Category, Import-Export, and Year, of Import of Beverage or Dairy in 2019 or 2020 or of Export of Beverage or Dairy in 2021? Please, report the corresponding Category, Import-Export, and Year.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Beverage | Export | 2021 | 223} || {Beverage | Import | 2019 | 701} || {Beverage | Import | 2020 | 895} || {Dairy | Export | 2021 | 508} || {Dairy | Import | 2019 | 928} || {Dairy | Import | 2020 | 236}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Beverage or Dairy in 2019 or 2020 or of Export of Beverage or Dairy in 2021? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the maximum amount for each Category, Import-Export, and Year, of Import of Beverage or Dairy in 2019 or 2020 or of Export of Beverage or Dairy in 2021? Please, report the corresponding Category, Import-Export, and Year.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 9

What is the minimum amount for each Category, of Import of Beverage or Dairy in 2020?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{182} || {174}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Import of Beverage or Dairy in 2020?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum amount for each Category, of Import of Beverage or Dairy in 2020?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 12

What are the bottom 3 amounts of Import of Beverage or Dairy in 2019?

template 12

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{406} || {433} || {701}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 3 amounts of Import of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the bottom 3 amounts of Import of Beverage or Dairy in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 14

What are the Category and Item for which the amount of Export in 2021 is greater than 491.67?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Dairy | Yoghurt}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2021 is greater than 491.67?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Category and Item for which the amount of Export in 2021 is greater than 491.67?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 15

What is the amount of Import in 2021 of Category and of Item for which the amount of Export in 2021 is greater than 491.67? Please, report the corresponding Category, Item, and amount of import-export.

template 15

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Dairy | Yoghurt | 76}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2021 of Category and of Item for which the amount of Export in 2021 is greater than 491.67? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import in 2021 of Category and of Item for which the amount of Export in 2021 is greater than 491.67? Please, report the corresponding Category, Item, and amount of import-export.` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 6

What is the amount of Import of Cheese or Coffee in 2019, 2020, or 2021?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{825} || {236} || {620} || {701} || {629} || {222}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Coffee in 2019, 2020, or 2021?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Cheese or Coffee in 2019, 2020, or 2021?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 3

What is the amount of Import of Yoghurt in 2019 or 2021 or of Export of Yoghurt in 2020 or 2021?

template 3

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{928} || {972} || {76} || {508}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Yoghurt in 2019 or 2021 or of Export of Yoghurt in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Import of Yoghurt in 2019 or 2021 or of Export of Yoghurt in 2020 or 2021?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 1

What is the amount of Export of Cheese in 2019?

template 1

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{556}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese in 2019?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the amount of Export of Cheese in 2019?` \n\n # OUTPUT: \nAnswer:"}]

Food_import-export_in_tons_set269_1

syntheticHCTs

_,_,Import,_,_,Export,_,_ ,,2019.0,2020.0,2021.0,2019.0,2020.0,2021.0 Beverage,,513.33,568.67,674.0,425.33,565.33,130.33 ,Coffee,701.0,629.0,222.0,31.0,643.0,147.0 ,Soda,406.0,895.0,974.0,398.0,984.0,21.0 ,Tea,433.0,182.0,826.0,847.0,69.0,223.0 Dairy,,876.5,205.0,348.0,415.0,919.5,295.5 ,Cheese,825.0,236.0,620.0,556.0,867.0,83.0 ,Yoghurt,928.0,174.0,76.0,274.0,972.0,508.0 Average,,658.6,423.2,543.6,421.2,707.0,196.4

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="3">Import</th> <th class="ColumnHeader" colspan="3">Export</th> </tr> <tr> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> <th class="ColumnHeader">2019</th> <th class="ColumnHeader">2020</th> <th class="ColumnHeader">2021</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Beverage</th> <td class="OutlineCell">513.33</td> <td class="OutlineCell">568.67</td> <td class="OutlineCell">674.00</td> <td class="OutlineCell">425.33</td> <td class="OutlineCell">565.33</td> <td class="OutlineCell">130.33</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Coffee</th> <td class="Cell">701.00</td> <td class="Cell">629.00</td> <td class="Cell">222.00</td> <td class="Cell">31.00</td> <td class="Cell">643.00</td> <td class="Cell">147.00</td> </tr> <tr> <th class="RowHeader">Soda</th> <td class="Cell">406.00</td> <td class="Cell">895.00</td> <td class="Cell">974.00</td> <td class="Cell">398.00</td> <td class="Cell">984.00</td> <td class="Cell">21.00</td> </tr> <tr> <th class="RowHeader">Tea</th> <td class="Cell">433.00</td> <td class="Cell">182.00</td> <td class="Cell">826.00</td> <td class="Cell">847.00</td> <td class="Cell">69.00</td> <td class="Cell">223.00</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Dairy</th> <td class="OutlineCell">876.50</td> <td class="OutlineCell">205.00</td> <td class="OutlineCell">348.00</td> <td class="OutlineCell">415.00</td> <td class="OutlineCell">919.50</td> <td class="OutlineCell">295.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Cheese</th> <td class="Cell">825.00</td> <td class="Cell">236.00</td> <td class="Cell">620.00</td> <td class="Cell">556.00</td> <td class="Cell">867.00</td> <td class="Cell">83.00</td> </tr> <tr> <th class="RowHeader">Yoghurt</th> <td class="Cell">928.00</td> <td class="Cell">174.00</td> <td class="Cell">76.00</td> <td class="Cell">274.00</td> <td class="Cell">972.00</td> <td class="Cell">508.00</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">658.60</td> <td class="Total">423.20</td> <td class="Total">543.60</td> <td class="Total">421.20</td> <td class="Total">707.00</td> <td class="Total">196.40</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Import | | | Export | | | |---|---|---|---|---|---|---|---| | | | 2019 | 2020 | 2021 | 2019 | 2020 | 2021 | | Beverage | | 513.33 | 568.67 | 674.00 | 425.33 | 565.33 | 130.33 | | | Coffee | 701.00 | 629.00 | 222.00 | 31.00 | 643.00 | 147.00 | | | Soda | 406.00 | 895.00 | 974.00 | 398.00 | 984.00 | 21.00 | | | Tea | 433.00 | 182.00 | 826.00 | 847.00 | 69.00 | 223.00 | | Dairy | | 876.50 | 205.00 | 348.00 | 415.00 | 919.50 | 295.50 | | | Cheese | 825.00 | 236.00 | 620.00 | 556.00 | 867.00 | 83.00 | | | Yoghurt | 928.00 | 174.00 | 76.00 | 274.00 | 972.00 | 508.00 | | Average | | 658.60 | 423.20 | 543.60 | 421.20 | 707.00 | 196.40 |

./datasets/synthetic_datasets/orignal/semantic/images/Food_import-export_in_tons_set269_1_HCT.png

https://hcsdtables.qcri.…set269_1_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Food_import-export_in_tons_set269_1--template 8

What are the maximum and total amounts for each Import-Export and Year, of Export of Cheese, Soda, or Tea in 2019, 2020, or 2021 or of Import of Cheese, Soda, or Tea in 2021? Please, report the corresponding Import-Export and Year.

template 8

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Export | 2019 | 847 | 1801} || {Export | 2020 | 984 | 1920} || {Export | 2021 | 223 | 327} || {Import | 2021 | 974 | 2420}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts for each Import-Export and Year, of Export of Cheese, Soda, or Tea in 2019, 2020, or 2021 or of Import of Cheese, Soda, or Tea in 2021? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Food import-export in tons </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"3\">Import</th>\n <th class=\"ColumnHeader\" colspan=\"3\">Export</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n <th class=\"ColumnHeader\">2019</th>\n <th class=\"ColumnHeader\">2020</th>\n <th class=\"ColumnHeader\">2021</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Beverage</th>\n <td class=\"OutlineCell\">513.33</td>\n <td class=\"OutlineCell\">568.67</td>\n <td class=\"OutlineCell\">674.00</td>\n <td class=\"OutlineCell\">425.33</td>\n <td class=\"OutlineCell\">565.33</td>\n <td class=\"OutlineCell\">130.33</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Coffee</th>\n <td class=\"Cell\">701.00</td>\n <td class=\"Cell\">629.00</td>\n <td class=\"Cell\">222.00</td>\n <td class=\"Cell\">31.00</td>\n <td class=\"Cell\">643.00</td>\n <td class=\"Cell\">147.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Soda</th>\n <td class=\"Cell\">406.00</td>\n <td class=\"Cell\">895.00</td>\n <td class=\"Cell\">974.00</td>\n <td class=\"Cell\">398.00</td>\n <td class=\"Cell\">984.00</td>\n <td class=\"Cell\">21.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Tea</th>\n <td class=\"Cell\">433.00</td>\n <td class=\"Cell\">182.00</td>\n <td class=\"Cell\">826.00</td>\n <td class=\"Cell\">847.00</td>\n <td class=\"Cell\">69.00</td>\n <td class=\"Cell\">223.00</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Dairy</th>\n <td class=\"OutlineCell\">876.50</td>\n <td class=\"OutlineCell\">205.00</td>\n <td class=\"OutlineCell\">348.00</td>\n <td class=\"OutlineCell\">415.00</td>\n <td class=\"OutlineCell\">919.50</td>\n <td class=\"OutlineCell\">295.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Cheese</th>\n <td class=\"Cell\">825.00</td>\n <td class=\"Cell\">236.00</td>\n <td class=\"Cell\">620.00</td>\n <td class=\"Cell\">556.00</td>\n <td class=\"Cell\">867.00</td>\n <td class=\"Cell\">83.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Yoghurt</th>\n <td class=\"Cell\">928.00</td>\n <td class=\"Cell\">174.00</td>\n <td class=\"Cell\">76.00</td>\n <td class=\"Cell\">274.00</td>\n <td class=\"Cell\">972.00</td>\n <td class=\"Cell\">508.00</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">658.60</td>\n <td class=\"Total\">423.20</td>\n <td class=\"Total\">543.60</td>\n <td class=\"Total\">421.20</td>\n <td class=\"Total\">707.00</td>\n <td class=\"Total\">196.40</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the maximum and total amounts for each Import-Export and Year, of Export of Cheese, Soda, or Tea in 2019, 2020, or 2021 or of Import of Cheese, Soda, or Tea in 2021? Please, report the corresponding Import-Export and Year.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 10

What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Flint, Michigan? Please, report the corresponding Polluted element.

template 10

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | -51.78} || {Soil | 57.07} || {Water | -77.74}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Flint, Michigan? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, of Air, Soil, or Water in Flint, Michigan? Please, report the corresponding Polluted element.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 1

What is the evolution of Solid Waste pollution in Reno, Nevada?

template 1

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{35.87}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Solid Waste pollution in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Solid Waste pollution in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 9

What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Las Vegas, Nevada?

template 9

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-88.01} || {-58.65} || {69.23}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Las Vegas, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the minimum evolution of pollution for each Polluted element, of Air, Soil, or Water in Las Vegas, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 4

What are the average and maximum evolutions of Inferior Irrigation pollution in Flint or Port Huron, Michigan or Hastings, Minnesota or Las Vegas or Reno, Nevada?

template 4

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": true, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{2.54 | 91.05}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Inferior Irrigation pollution in Flint or Port Huron, Michigan or Hastings, Minnesota or Las Vegas or Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the average and maximum evolutions of Inferior Irrigation pollution in Flint or Port Huron, Michigan or Hastings, Minnesota or Las Vegas or Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 11

What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Flint, Michigan or Hastings or Minneapolis, Minnesota? Please, report the corresponding Polluted element, State, and City.

template 11

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": true, "Aggregation Aggregation On Plain": true, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": true, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": true, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": true, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Air | Michigan | Flint | -51.78} || {Air | Minnesota | Hastings | -49.91} || {Air | Minnesota | Minneapolis | 99.31} || {Soil | Michigan | Flint | 57.07} || {Soil | Minnesota | Hastings | 180.77} || {Soil | Minnesota | Minneapolis | -154.27} || {Water | Michigan | Flint | -77.74} || {Water | Minnesota | Hastings | -8.79} || {Water | Minnesota | Minneapolis | -172.24}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Flint, Michigan or Hastings or Minneapolis, Minnesota? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the total evolution of pollution for each Polluted element, State, and City, of Air, Soil, or Water in Flint, Michigan or Hastings or Minneapolis, Minnesota? Please, report the corresponding Polluted element, State, and City.` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 14

What are the Polluted element and Type of pollution for which the evolution in Las Vegas, Nevada is greater than -1.32?

template 14

{"Row Filter": true, "Row Filter Condition Type Lookup": false, "Row Filter Condition Type Expression": true, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": false, "Row Filter Retained Rows Multiple": true, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{Water | Groundwater} || {Water | Oxygen-depletion} || {Water | Surface water} || {Air | Noise} || {Air | Thermal}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Las Vegas, Nevada is greater than -1.32?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the Polluted element and Type of pollution for which the evolution in Las Vegas, Nevada is greater than -1.32?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 2

What is the evolution of Groundwater, Light, Noise, Solid Waste, or Surface water pollution in Flint, Michigan?

template 2

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-87.91} || {75.68} || {58.98} || {-40.93} || {48.75}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Light, Noise, Solid Waste, or Surface water pollution in Flint, Michigan?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Groundwater, Light, Noise, Solid Waste, or Surface water pollution in Flint, Michigan?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 6

What is the evolution of Light, Oxygen-depletion, or Thermal pollution in Flint or Port Huron, Michigan or Las Vegas or Reno, Nevada or Minneapolis, Minnesota?

template 6

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": false, "Rank Rank On Plain": false, "Rank Rank On Expression": false}

{-65.51} || {-86.38} || {-55.51} || {69.23} || {56.74} || {48.75} || {-97.72} || {5.21} || {-88.01} || {-76.66} || {-59.6} || {31.92} || {9.01} || {59.46} || {60.51}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Oxygen-depletion, or Thermal pollution in Flint or Port Huron, Michigan or Las Vegas or Reno, Nevada or Minneapolis, Minnesota?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What is the evolution of Light, Oxygen-depletion, or Thermal pollution in Flint or Port Huron, Michigan or Las Vegas or Reno, Nevada or Minneapolis, Minnesota?` \n\n # OUTPUT: \nAnswer:"}]

Evolution_of_pollution_in_percent_set196_2

syntheticHCTs

_,_,Michigan,_,Minnesota,_,Nevada,_ ,,Flint,Port Huron,Hastings,Minneapolis,Las Vegas,Reno Air,,-17.26,-40.56,-16.64,33.10,20.82,-11.32 ,Light,48.75,-97.72,93.82,5.21,-88.01,-76.66 ,Noise,-40.93,-55.88,-67.15,85.09,91.02,-17.81 ,Thermal,-59.60,31.92,-76.58,9.01,59.46,60.51 Soil,,28.54,-8.09,90.38,-77.14,-34.93,29.50 ,Inferior Irrigation,-1.91,-88.37,91.05,-99.09,-11.21,23.14 ,Solid Waste,58.98,72.18,89.72,-55.18,-58.65,35.87 Water,,-25.91,-8.27,-2.93,-57.41,80.32,6.08 ,Groundwater,-87.91,63.39,18.64,-46.37,75.22,-36.75 ,Oxygen-depletion,-65.51,-86.38,-95.89,-55.51,69.23,56.74 ,Surface water,75.68,-1.81,68.46,-70.36,96.52,-1.76 Average,,-9.06,-20.33,15.26,-28.40,29.20,5.41

<html><head><style> Table { border: 1px solid; border-collapse: collapse; } th, td { border: 1px solid; padding: 5px; text-align: center; vertical-align: center; } </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class="Table"> <tr> <th class="RowHeader" rowspan="2" colspan="2"> </th> <th class="ColumnHeader" colspan="2">Michigan</th> <th class="ColumnHeader" colspan="2">Minnesota</th> <th class="ColumnHeader" colspan="2">Nevada</th> </tr> <tr> <th class="ColumnHeader">Flint</th> <th class="ColumnHeader">Port Huron</th> <th class="ColumnHeader">Hastings</th> <th class="ColumnHeader">Minneapolis</th> <th class="ColumnHeader">Las Vegas</th> <th class="ColumnHeader">Reno</th> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Air</th> <td class="OutlineCell">-17.26</td> <td class="OutlineCell">-40.56</td> <td class="OutlineCell">-16.64</td> <td class="OutlineCell">33.10</td> <td class="OutlineCell">20.82</td> <td class="OutlineCell">-11.32</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Light</th> <td class="Cell">48.75</td> <td class="Cell">-97.72</td> <td class="Cell">93.82</td> <td class="Cell">5.21</td> <td class="Cell">-88.01</td> <td class="Cell">-76.66</td> </tr> <tr> <th class="RowHeader">Noise</th> <td class="Cell">-40.93</td> <td class="Cell">-55.88</td> <td class="Cell">-67.15</td> <td class="Cell">85.09</td> <td class="Cell">91.02</td> <td class="Cell">-17.81</td> </tr> <tr> <th class="RowHeader">Thermal</th> <td class="Cell">-59.60</td> <td class="Cell">31.92</td> <td class="Cell">-76.58</td> <td class="Cell">9.01</td> <td class="Cell">59.46</td> <td class="Cell">60.51</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Soil</th> <td class="OutlineCell">28.54</td> <td class="OutlineCell">-8.09</td> <td class="OutlineCell">90.38</td> <td class="OutlineCell">-77.14</td> <td class="OutlineCell">-34.93</td> <td class="OutlineCell">29.50</td> </tr> <tr> <th class="RowHeader" rowspan="2"> </th> <th class="RowHeader">Inferior Irrigation</th> <td class="Cell">-1.91</td> <td class="Cell">-88.37</td> <td class="Cell">91.05</td> <td class="Cell">-99.09</td> <td class="Cell">-11.21</td> <td class="Cell">23.14</td> </tr> <tr> <th class="RowHeader">Solid Waste</th> <td class="Cell">58.98</td> <td class="Cell">72.18</td> <td class="Cell">89.72</td> <td class="Cell">-55.18</td> <td class="Cell">-58.65</td> <td class="Cell">35.87</td> </tr> <tr> <th class="OutlineRowHeader" colspan="2">Water</th> <td class="OutlineCell">-25.91</td> <td class="OutlineCell">-8.27</td> <td class="OutlineCell">-2.93</td> <td class="OutlineCell">-57.41</td> <td class="OutlineCell">80.32</td> <td class="OutlineCell">6.08</td> </tr> <tr> <th class="RowHeader" rowspan="3"> </th> <th class="RowHeader">Groundwater</th> <td class="Cell">-87.91</td> <td class="Cell">63.39</td> <td class="Cell">18.64</td> <td class="Cell">-46.37</td> <td class="Cell">75.22</td> <td class="Cell">-36.75</td> </tr> <tr> <th class="RowHeader">Oxygen-depletion</th> <td class="Cell">-65.51</td> <td class="Cell">-86.38</td> <td class="Cell">-95.89</td> <td class="Cell">-55.51</td> <td class="Cell">69.23</td> <td class="Cell">56.74</td> </tr> <tr> <th class="RowHeader">Surface water</th> <td class="Cell">75.68</td> <td class="Cell">-1.81</td> <td class="Cell">68.46</td> <td class="Cell">-70.36</td> <td class="Cell">96.52</td> <td class="Cell">-1.76</td> </tr> <tr> <th class="RowHeader">Average</th> <th class="RowHeader"> </th> <td class="Total">-9.06</td> <td class="Total">-20.33</td> <td class="Total">15.26</td> <td class="Total">-28.40</td> <td class="Total">29.20</td> <td class="Total">5.41</td> </tr> </table> </div><script> // AUTOSCALING (fontsize determines cell dimensions, and so page width/height) let tb = document.getElementsByClassName('Table'); let pr = document.getElementsByClassName('mytable'); let cw = pr[0].clientWidth let sw = pr[0].scrollWidth let ch = pr[0].clientHeight let sh = window.innerHeight for (i=1;i<100;i++){ let scale = (cw/sw) tb[0].style.fontSize = (i*scale) + 'px' cw = pr[0].clientWidth sw = pr[0].scrollWidth ch = pr[0].clientHeight sh = window.innerHeight if ((cw < sw)||(ch > sh)) { let cnt = i-1 if (cnt == 0) cnt = 1 tb[0].style.fontSize = (cnt*scale) + 'px' break } } </script></body>

| | | Michigan | | Minnesota | | Nevada | | |---|---|---|---|---|---|---|---| | | | Flint | Port Huron | Hastings | Minneapolis | Las Vegas | Reno | | Air | | -17.26 | -40.56 | -16.64 | 33.10 | 20.82 | -11.32 | | | Light | 48.75 | -97.72 | 93.82 | 5.21 | -88.01 | -76.66 | | | Noise | -40.93 | -55.88 | -67.15 | 85.09 | 91.02 | -17.81 | | | Thermal | -59.60 | 31.92 | -76.58 | 9.01 | 59.46 | 60.51 | | Soil | | 28.54 | -8.09 | 90.38 | -77.14 | -34.93 | 29.50 | | | Inferior Irrigation | -1.91 | -88.37 | 91.05 | -99.09 | -11.21 | 23.14 | | | Solid Waste | 58.98 | 72.18 | 89.72 | -55.18 | -58.65 | 35.87 | | Water | | -25.91 | -8.27 | -2.93 | -57.41 | 80.32 | 6.08 | | | Groundwater | -87.91 | 63.39 | 18.64 | -46.37 | 75.22 | -36.75 | | | Oxygen-depletion | -65.51 | -86.38 | -95.89 | -55.51 | 69.23 | 56.74 | | | Surface water | 75.68 | -1.81 | 68.46 | -70.36 | 96.52 | -1.76 | | Average | | -9.06 | -20.33 | 15.26 | -28.40 | 29.20 | 5.41 |

./datasets/synthetic_datasets/orignal/semantic/images/Evolution_of_pollution_in_percent_set196_2_HCT.png

https://hcsdtables.qcri.…set196_2_HCT.png

{"Standard Relational Table": false, "Multi Level Column": true, "Balanced Multi Level Column": true, "Symmetric Multi Level Column": true, "Unbalanced Multi Level Column": false, "Asymmetric Multi Level Column": false, "Column Aggregation": false, "Global Column Aggregation": false, "Local Column-Group Aggregation": false, "Explicit Column Aggregation Terms": true, "Implicit Column Aggregation Terms": false, "Row Nesting": true, "Balanced Row Nesting": true, "Symmetric Row Nesting": true, "Unbalanced Row Nesting": false, "Asymmetric Row Nesting": false, "Row Aggregation": true, "Global Row Aggregation": true, "Local Row-Group Aggregation": true, "Explicit Row Aggregation Terms": true, "Implicit Row Aggregation Terms": false, "Split Header Cell": false, "Row Group Label": false}

Evolution_of_pollution_in_percent_set196_2--template 13

What are the evolutions ordered by decreasing values of pollution of Air or Soil in Reno, Nevada?

template 13

{"Row Filter": true, "Row Filter Condition Type Lookup": true, "Row Filter Condition Type Expression": false, "Row Filter Involved Columns Single": true, "Row Filter Involved Columns Multiple": false, "Row Filter Retained Rows Single": true, "Row Filter Retained Rows Multiple": false, "Row Filter Num Of Conditions": false, "Returned Columns": true, "Returned Columns Project On Plain": true, "Returned Columns Project On Expression": false, "Returned Columns Expression In Table Present": false, "Returned Columns Expression In Table Not Present": false, "Yes/No": false, "Yes/No Scope Single": false, "Yes/No Scope Multiple": false, "Aggregation": false, "Aggregation Aggregation On Plain": false, "Aggregation Aggregation On Expression": false, "Aggregation Aggregation Type Min": false, "Aggregation Aggregation Type Max": false, "Aggregation Aggregation Type Count": false, "Aggregation Aggregation Type Sum": false, "Aggregation Aggregation Type Avg": false, "Aggregation Grouping Local": false, "Aggregation Grouping Global": false, "Aggregation Aggregation In Table Present": false, "Aggregation Aggregation In Table Not Present": false, "Aggregation Num Of Aggregations": false, "Rank": true, "Rank Rank On Plain": true, "Rank Rank On Expression": false}

{60.51} || {35.87} || {23.14} || {-17.81} || {-76.66}

[{"role": "system", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token."}, {"role": "user", "content": "Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Air or Soil in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]

[{"role": "user", "content": "You are a table question answering assistant. You are given a table in CSV format and a question. Your task is to answer the question based on the information in the table. The table structure may be complex and not a standard relational table so try to understand the structure of the table when answering the question. If the question cannot be answered using information from the table, return 'No Answer'. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself. If there are multiple values, separate each value with the ' || ' token. Answer the question given the input table. Do not provide any explanations, equations, code, or text explaining intermediate steps in figuring out the answer. Return only the final answer itself.\n # INPUTS: \nTable: \n `<html><head><style>\n Table {\n border: 1px solid; \n border-collapse: collapse;\n }\n th, td {\n border: 1px solid;\n padding: 5px;\n text-align: center;\n vertical-align: center;\n }\n </style></head><body><div class='mytable'><h1> Evolution of pollution in percent </h1><table class=\"Table\">\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\" colspan=\"2\"> </th>\n <th class=\"ColumnHeader\" colspan=\"2\">Michigan</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Minnesota</th>\n <th class=\"ColumnHeader\" colspan=\"2\">Nevada</th>\n </tr>\n <tr>\n <th class=\"ColumnHeader\">Flint</th>\n <th class=\"ColumnHeader\">Port Huron</th>\n <th class=\"ColumnHeader\">Hastings</th>\n <th class=\"ColumnHeader\">Minneapolis</th>\n <th class=\"ColumnHeader\">Las Vegas</th>\n <th class=\"ColumnHeader\">Reno</th>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Air</th>\n <td class=\"OutlineCell\">-17.26</td>\n <td class=\"OutlineCell\">-40.56</td>\n <td class=\"OutlineCell\">-16.64</td>\n <td class=\"OutlineCell\">33.10</td>\n <td class=\"OutlineCell\">20.82</td>\n <td class=\"OutlineCell\">-11.32</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Light</th>\n <td class=\"Cell\">48.75</td>\n <td class=\"Cell\">-97.72</td>\n <td class=\"Cell\">93.82</td>\n <td class=\"Cell\">5.21</td>\n <td class=\"Cell\">-88.01</td>\n <td class=\"Cell\">-76.66</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Noise</th>\n <td class=\"Cell\">-40.93</td>\n <td class=\"Cell\">-55.88</td>\n <td class=\"Cell\">-67.15</td>\n <td class=\"Cell\">85.09</td>\n <td class=\"Cell\">91.02</td>\n <td class=\"Cell\">-17.81</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Thermal</th>\n <td class=\"Cell\">-59.60</td>\n <td class=\"Cell\">31.92</td>\n <td class=\"Cell\">-76.58</td>\n <td class=\"Cell\">9.01</td>\n <td class=\"Cell\">59.46</td>\n <td class=\"Cell\">60.51</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Soil</th>\n <td class=\"OutlineCell\">28.54</td>\n <td class=\"OutlineCell\">-8.09</td>\n <td class=\"OutlineCell\">90.38</td>\n <td class=\"OutlineCell\">-77.14</td>\n <td class=\"OutlineCell\">-34.93</td>\n <td class=\"OutlineCell\">29.50</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"2\"> </th>\n <th class=\"RowHeader\">Inferior Irrigation</th>\n <td class=\"Cell\">-1.91</td>\n <td class=\"Cell\">-88.37</td>\n <td class=\"Cell\">91.05</td>\n <td class=\"Cell\">-99.09</td>\n <td class=\"Cell\">-11.21</td>\n <td class=\"Cell\">23.14</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Solid Waste</th>\n <td class=\"Cell\">58.98</td>\n <td class=\"Cell\">72.18</td>\n <td class=\"Cell\">89.72</td>\n <td class=\"Cell\">-55.18</td>\n <td class=\"Cell\">-58.65</td>\n <td class=\"Cell\">35.87</td>\n </tr>\n <tr>\n <th class=\"OutlineRowHeader\" colspan=\"2\">Water</th>\n <td class=\"OutlineCell\">-25.91</td>\n <td class=\"OutlineCell\">-8.27</td>\n <td class=\"OutlineCell\">-2.93</td>\n <td class=\"OutlineCell\">-57.41</td>\n <td class=\"OutlineCell\">80.32</td>\n <td class=\"OutlineCell\">6.08</td>\n </tr>\n <tr>\n <th class=\"RowHeader\" rowspan=\"3\"> </th>\n <th class=\"RowHeader\">Groundwater</th>\n <td class=\"Cell\">-87.91</td>\n <td class=\"Cell\">63.39</td>\n <td class=\"Cell\">18.64</td>\n <td class=\"Cell\">-46.37</td>\n <td class=\"Cell\">75.22</td>\n <td class=\"Cell\">-36.75</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Oxygen-depletion</th>\n <td class=\"Cell\">-65.51</td>\n <td class=\"Cell\">-86.38</td>\n <td class=\"Cell\">-95.89</td>\n <td class=\"Cell\">-55.51</td>\n <td class=\"Cell\">69.23</td>\n <td class=\"Cell\">56.74</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Surface water</th>\n <td class=\"Cell\">75.68</td>\n <td class=\"Cell\">-1.81</td>\n <td class=\"Cell\">68.46</td>\n <td class=\"Cell\">-70.36</td>\n <td class=\"Cell\">96.52</td>\n <td class=\"Cell\">-1.76</td>\n </tr>\n <tr>\n <th class=\"RowHeader\">Average</th>\n <th class=\"RowHeader\"> </th>\n <td class=\"Total\">-9.06</td>\n <td class=\"Total\">-20.33</td>\n <td class=\"Total\">15.26</td>\n <td class=\"Total\">-28.40</td>\n <td class=\"Total\">29.20</td>\n <td class=\"Total\">5.41</td>\n </tr>\n</table> </div><script>\n // AUTOSCALING (fontsize determines cell dimensions, and so page width/height)\n let tb = document.getElementsByClassName('Table');\n let pr = document.getElementsByClassName('mytable');\n \n let cw = pr[0].clientWidth\n let sw = pr[0].scrollWidth\n let ch = pr[0].clientHeight\n let sh = window.innerHeight\n \n for (i=1;i<100;i++){\n let scale = (cw/sw) \n tb[0].style.fontSize = (i*scale) + 'px' \n cw = pr[0].clientWidth\n sw = pr[0].scrollWidth\n ch = pr[0].clientHeight\n sh = window.innerHeight \n \n if ((cw < sw)||(ch > sh)) { \n let cnt = i-1\n if (cnt == 0) cnt = 1\n tb[0].style.fontSize = (cnt*scale) + 'px'\n break\n }\n }\n </script></body>\n` \n\nQuestion: `What are the evolutions ordered by decreasing values of pollution of Air or Soil in Reno, Nevada?` \n\n # OUTPUT: \nAnswer:"}]