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5. Call ExcelTemplate.Process() to import all data into the file.
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XLT.Process(); |
Do not save the file. In the next step the XLT object will be processed by ExcelApplication.
Without the post processing, the populated file will persist the column width and heights. It should look something like this:
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Move to part 3 with the rest of ExcelApplication. Mixing and matching too much doesn't make sense. |
Post-Processing
1. In the post-processing method, instantiate the ExcelApplication object:
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ExcelApplication XLA = new ExcelApplication();
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2. Open the populated file with ExcelApplication. The file will open as a Workbook object
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Workbook wb = XLA.Open(XLT);
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3. Access the first Worksheet.
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Worksheet ws = wb.Worksheets[0];
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4. Call Area.AutoFitHeight() and Area.AutoFitWidth() to set the column and row height. AutoFitWidth sets the column width to fit the widest populated cell in the column. AutoFitHeight sets the row height to highest populated cell in the row. In this snippet, the area is Worksheet.PopulatedCells, which returns an area containing all populated cells.
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ws.PopulatedCells.AutoFitWidth();
ws.PopulatedCells.AutoFitWidth();
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5. Finally, call ExcelApplication.Save to save the final file. This example streams the file using the page response.
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6. Call ExcelTemplate.Save() to save the final output
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XLT.Save(Page.Response, "temp.xlsx", false); |
The final output should look something like this:
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using SoftArtisans.OfficeWriter.ExcelWriter; ... //Instantiate the template object ExcelTemplate XLT = new ExcelTemplate(); //Open the file XLT.Open(Page.MapPath("//templates//Part1_Financial_Template.xlsx")); //Create data binding properties DataBindingProperties bindingProps = XLT.CreateDataBindingProperties(); //Get the data from the CSVs. More info about the generic parser is available //in the project and in the tutorial above. DataTable dtAssets = GetCSVData("//data//Assets.csv"); DataTable dtLosses = GetCSVData("//data//Losses.csv"); DataTable dtOther = GetCSVData("//data//Other.csv"); //Declare the row data. This tutorial uses a single item array to demonstrate the //optional modifier string\[\] headerValues = { "2011" }; string\[\] headerNames = { "FiscalYear" }; //Bind each datatable XLT.BindData(dtAssets, "Assets", bindingProps); XLT.BindData(dtLosses, "Losses", bindingProps); XLT.BindData(dtOther, "Other", bindingProps); //Bind the single row data XLT.BindRowData(headerValues, headerNames, "Header", bindingProps); //Call process to import data to file XLT.Process(); /*This next section handles the post-processing*/ //Instantiate ExcelApplication ExcelApplication XLA = new ExcelApplication(); //Open the XLT object as a new workbook Workbook wb = XLA.Open(XLT); //Get the first worksheet Worksheet ws = wb.Worksheets[0]; //Set the autofit width and height ws.PopulatedCells.AutoFitWidth(); ws.PopulatedCells.AutoFitHeight(); //Save the file XLAXLT.Save(wb, Page.Response, "temp.xlsx", false); |
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