Come esportare DataTable in Excel

Come posso esportare un file DataTablein Excel in C #? Sto usando Windows Form. Il DataTableè associato a un fileDataGridView controllo. Devo esportare i record DataTablein Excel.

Consiglierei ClosedXML -

Puoi trasformare un DataTable in un foglio di lavoro Excel con un codice molto leggibile:

XLWorkbook wb = new XLWorkbook();
DataTable dt = GetDataTableOrWhatever();
wb.Worksheets.Add(dt,"WorksheetName");

Lo sviluppatore è reattivo e disponibile. Il progetto è attivamente sviluppato e la documentazione è eccellente.

Prova un codice semplice, per convertire DataTable in file excel come csv:

var lines = new List<string>();

string[] columnNames = dataTable.Columns
    .Cast<DataColumn>()
    .Select(column => column.ColumnName)
    .ToArray();

var header = string.Join(",", columnNames.Select(name => $"\"{name}\""));
lines.Add(header);

var valueLines = dataTable.AsEnumerable()
    .Select(row => string.Join(",", row.ItemArray.Select(val => $"\"{val}\"")));

lines.AddRange(valueLines);

File.WriteAllLines("excel.csv", lines);

Questo scriverà un nuovo file excel.csvnella directory di lavoro corrente che generalmente è dove si trova il .exe o da dove lo avvii.

Un'opzione elegante è scrivere un metodo di estensione (vedi sotto) per la classe DataTable di .net framework.

Questo metodo di estensione può essere chiamato come segue:

using System;
using System.Collections.Generic;
using System.Linq;
using Excel = Microsoft.Office.Interop.Excel;
using System.Data;
using System.Data.OleDb;

DataTable dt;
// fill table data in dt here 
...

// export DataTable to excel
// save excel file without ever making it visible if filepath is given
// don't save excel file, just make it visible if no filepath is given
dt.ExportToExcel(ExcelFilePath);

Metodo di estensione per la classe DataTable:

public static class My_DataTable_Extensions
{

    // Export DataTable into an excel file with field names in the header line
    // - Save excel file without ever making it visible if filepath is given
    // - Don't save excel file, just make it visible if no filepath is given
    public static void ExportToExcel(this DataTable tbl, string excelFilePath = null) {
        try {
            if (tbl == null || tbl.Columns.Count == 0)
                throw new Exception("ExportToExcel: Null or empty input table!\n");

            // load excel, and create a new workbook
            var excelApp = new Excel.Application();
            excelApp.Workbooks.Add();

            // single worksheet
            Excel._Worksheet workSheet = excelApp.ActiveSheet;

            // column headings
            for (var i = 0; i < tbl.Columns.Count; i++) {
                workSheet.Cells[1, i + 1] = tbl.Columns[i].ColumnName;
            }

            // rows
            for (var i = 0; i < tbl.Rows.Count; i++) {
                // to do: format datetime values before printing
                for (var j = 0; j < tbl.Columns.Count; j++) {
                    workSheet.Cells[i + 2, j + 1] = tbl.Rows[i][j];
                }
            }

            // check file path
            if (!string.IsNullOrEmpty(excelFilePath)) {
                try {
                    workSheet.SaveAs(excelFilePath);
                    excelApp.Quit();
                    MessageBox.Show("Excel file saved!");
                }
                catch (Exception ex) {
                    throw new Exception("ExportToExcel: Excel file could not be saved! Check filepath.\n"
                                        + ex.Message);
                }
            } else { // no file path is given
                excelApp.Visible = true;
            }
        }
        catch (Exception ex) {
            throw new Exception("ExportToExcel: \n" + ex.Message);
        }
    }
}

Soluzione basata sull'articolo tuncalik (grazie per l'idea), ma in caso di tabelle grandi funziona molto più velocemente (ed è un po 'meno chiaro).

public static class My_DataTable_Extensions
{
    /// <summary>
    /// Export DataTable to Excel file
    /// </summary>
    /// <param name="DataTable">Source DataTable</param>
    /// <param name="ExcelFilePath">Path to result file name</param>
    public static void ExportToExcel(this System.Data.DataTable DataTable, string ExcelFilePath = null)
    {
        try
        {
            int ColumnsCount;

            if (DataTable == null || (ColumnsCount = DataTable.Columns.Count) == 0)
                throw new Exception("ExportToExcel: Null or empty input table!\n");

            // load excel, and create a new workbook
            Microsoft.Office.Interop.Excel.Application Excel = new Microsoft.Office.Interop.Excel.Application();
            Excel.Workbooks.Add();

            // single worksheet
            Microsoft.Office.Interop.Excel._Worksheet Worksheet = Excel.ActiveSheet;

            object[] Header = new object[ColumnsCount];

            // column headings               
            for (int i = 0; i < ColumnsCount; i++)
                Header[i] = DataTable.Columns[i].ColumnName;

            Microsoft.Office.Interop.Excel.Range HeaderRange = Worksheet.get_Range((Microsoft.Office.Interop.Excel.Range)(Worksheet.Cells[1, 1]), (Microsoft.Office.Interop.Excel.Range)(Worksheet.Cells[1, ColumnsCount]));
            HeaderRange.Value = Header;
            HeaderRange.Interior.Color = System.Drawing.ColorTranslator.ToOle(System.Drawing.Color.LightGray);
            HeaderRange.Font.Bold = true;

            // DataCells
            int RowsCount = DataTable.Rows.Count;
            object[,] Cells = new object[RowsCount, ColumnsCount];

            for (int j = 0; j < RowsCount; j++)
                for (int i = 0; i < ColumnsCount; i++)
                    Cells[j, i] = DataTable.Rows[j][i];

            Worksheet.get_Range((Microsoft.Office.Interop.Excel.Range)(Worksheet.Cells[2, 1]), (Microsoft.Office.Interop.Excel.Range)(Worksheet.Cells[RowsCount + 1, ColumnsCount])).Value = Cells;

            // check fielpath
            if (ExcelFilePath != null && ExcelFilePath != "")
            {
                try
                {
                    Worksheet.SaveAs(ExcelFilePath);
                    Excel.Quit();
                    System.Windows.MessageBox.Show("Excel file saved!");
                }
                catch (Exception ex)
                {
                    throw new Exception("ExportToExcel: Excel file could not be saved! Check filepath.\n"
                        + ex.Message);
                }
            }
            else    // no filepath is given
            {
                Excel.Visible = true;
            }
        }
        catch (Exception ex)
        {
            throw new Exception("ExportToExcel: \n" + ex.Message);
        }
    }
}

Prova questa funzione passa il datatable e il percorso del file in cui desideri esportare

public void CreateCSVFile(ref DataTable dt, string strFilePath)
{            
    try
    {
        // Create the CSV file to which grid data will be exported.
        StreamWriter sw = new StreamWriter(strFilePath, false);
        // First we will write the headers.
        //DataTable dt = m_dsProducts.Tables[0];
        int iColCount = dt.Columns.Count;
        for (int i = 0; i < iColCount; i++)
        {
            sw.Write(dt.Columns[i]);
            if (i < iColCount - 1)
            {
                sw.Write(",");
            }
        }
        sw.Write(sw.NewLine);

        // Now write all the rows.

        foreach (DataRow dr in dt.Rows)
        {
            for (int i = 0; i < iColCount; i++)
            {
                if (!Convert.IsDBNull(dr[i]))
                {
                    sw.Write(dr[i].ToString());
                }
                if (i < iColCount - 1)
                {
                    sw.Write(",");
                }
            }

            sw.Write(sw.NewLine);
        }
        sw.Close();
    }
    catch (Exception ex)
    {
        throw ex;
    }
}

Il modo migliore e più semplice

private void exportToExcel(DataTable dt)
    {

        /*Set up work book, work sheets, and excel application*/
        Microsoft.Office.Interop.Excel.Application oexcel = new Microsoft.Office.Interop.Excel.Application();
        try
        {
            string path = AppDomain.CurrentDomain.BaseDirectory;
            object misValue = System.Reflection.Missing.Value;
            Microsoft.Office.Interop.Excel.Workbook obook = oexcel.Workbooks.Add(misValue);
            Microsoft.Office.Interop.Excel.Worksheet osheet = new Microsoft.Office.Interop.Excel.Worksheet();


          //  obook.Worksheets.Add(misValue);

            osheet = (Microsoft.Office.Interop.Excel.Worksheet)obook.Sheets["Sheet1"];
            int colIndex = 0;
            int rowIndex = 1;

            foreach (DataColumn dc in dt.Columns)
            {
                colIndex++;
                osheet.Cells[1, colIndex] = dc.ColumnName;
            }
            foreach (DataRow dr in dt.Rows)
            {
                rowIndex++;
                colIndex = 0;

                foreach (DataColumn dc in dt.Columns)
                {
                    colIndex++;
                    osheet.Cells[rowIndex, colIndex] = dr[dc.ColumnName];
                }
            }

            osheet.Columns.AutoFit();
            string filepath = "C:\\Temp\\Book1";

            //Release and terminate excel

            obook.SaveAs(filepath);
            obook.Close();
            oexcel.Quit();
            releaseObject(osheet);

            releaseObject(obook);

            releaseObject(oexcel);
            GC.Collect();
        }
        catch (Exception ex)
        {
            oexcel.Quit();
            log.AddToErrorLog(ex, this.Name);
        }
    }

Interoperabilità di Excel:

Questo metodo impedisce che le date vengano invertite da gg-mm-aaaa a mm-gg-aaaa

public bool DataTableToExcelFile(DataTable dt, string targetFile)
{
    const bool dontSave = false;
    bool success = true;

    //Exit if there is no rows to export
    if (dt.Rows.Count == 0) return false;

    object misValue = System.Reflection.Missing.Value;
    List<int> dateColIndex = new List<int>();
    Excel.Application excelApp = new Excel.Application();
    Excel.Workbook excelWorkBook = excelApp.Workbooks.Add(misValue);
    Excel.Worksheet excelWorkSheet = excelWorkBook.Sheets("sheet1");

    //Iterate through the DataTable and populate the Excel work sheet
    try {
        for (int i = -1; i <= dt.Rows.Count - 1; i++) {
            for (int j = 0; j <= dt.Columns.Count - 1; j++) {
                if (i < 0) {
                    //Take special care with Date columns
                    if (dt.Columns(j).DataType is typeof(DateTime)) {
                        excelWorkSheet.Cells(1, j + 1).EntireColumn.NumberFormat = "d-MMM-yyyy;@";
                        dateColIndex.Add(j);
                    } 
                    //else if ... Feel free to add more Formats

                    else {
                        //Otherwise Format the column as text
                        excelWorkSheet.Cells(1, j + 1).EntireColumn.NumberFormat = "@";
                    }
                    excelWorkSheet.Cells(1, j + 1) = dt.Columns(j).Caption;
                } 
                else if (dateColIndex.IndexOf(j) > -1) {
                    excelWorkSheet.Cells(i + 2, j + 1) = Convert.ToDateTime(dt.Rows(i).ItemArray(j)).ToString("d-MMM-yyyy");
                } 
                else {
                    excelWorkSheet.Cells(i + 2, j + 1) = dt.Rows(i).ItemArray(j).ToString();
                }
            }
        }

        //Add Autofilters to the Excel work sheet  
        excelWorkSheet.Cells.AutoFilter(1, Type.Missing, Excel.XlAutoFilterOperator.xlAnd, Type.Missing, true);
        //Autofit columns for neatness
        excelWorkSheet.Columns.AutoFit();
        if (File.Exists(exportFile)) File.Delete(exportFile);
        excelWorkSheet.SaveAs(exportFile);
    } catch {
        success = false;
    } finally {
        //Do this irrespective of whether there was an exception or not. 
        excelWorkBook.Close(dontSave);
        excelApp.Quit();
        releaseObject(excelWorkSheet);
        releaseObject(excelWorkBook);
        releaseObject(excelApp);
    }
    return success;
}

Se non ti interessa che le date vengano capovolte, usa il link vedi che mostra come popolare tutte le celle nel foglio di calcolo Excel in una riga di codice:

Interoperabilità con Excel: efficienza e prestazioni

CSV:

public string DataTableToCSV(DataTable dt, bool includeHeader, string rowFilter, string sortFilter, bool useCommaDelimiter = false, bool truncateTimesFromDates = false)
{
    dt.DefaultView.RowFilter = rowFilter;
    dt.DefaultView.Sort = sortFilter;
    DataView dv = dt.DefaultView;
    string csv = DataTableToCSV(dv.ToTable, includeHeader, useCommaDelimiter, truncateTimesFromDates);
    //reset the Filtering
    dt.DefaultView.RowFilter = string.Empty;
    return csv;
}

public string DataTableToCsv(DataTable dt, bool includeHeader, bool useCommaDelimiter = false, bool truncateTimesFromDates = false)
{
    StringBuilder sb = new StringBuilder();
    string delimter = Constants.vbTab;
    if (useCommaDelimiter)
        delimter = ",";

    if (includeHeader) {
        foreach (DataColumn dc in dt.Columns) {
            sb.AppendFormat("{0}" + Constants.vbTab, dc.ColumnName);
        }

        //remove the last Tab
        sb.Remove(sb.ToString.Length - 1, 1);
        sb.Append(Environment.NewLine);
    }

    foreach (DataRow dr in dt.Rows) {
        foreach (DataColumn dc in dt.Columns) {
            if (Information.IsDate(dr(dc.ColumnName).ToString()) & dr(dc.ColumnName).ToString().Contains(".") == false & truncateTimesFromDates) {
                sb.AppendFormat("{0}" + delimter, Convert.ToDateTime(dr(dc.ColumnName).ToString()).Date.ToShortDateString());
            } else {
                sb.AppendFormat("{0}" + delimter, CheckDBNull(dr(dc.ColumnName).ToString().Replace(",", "")));
            }
        }
        //remove the last Tab
        sb.Remove(sb.ToString.Length - 1, 1);
        sb.Append(Environment.NewLine);
    }
    return sb.ToString;
}

public enum enumObjectType
{
    StrType = 0,
    IntType = 1,
    DblType = 2
}

public object CheckDBNull(object obj, enumObjectType ObjectType = enumObjectType.StrType)
{
    object objReturn = null;
    objReturn = obj;
    if (ObjectType == enumObjectType.StrType & Information.IsDBNull(obj)) {
        objReturn = "";
    } else if (ObjectType == enumObjectType.IntType & Information.IsDBNull(obj)) {
        objReturn = 0;
    } else if (ObjectType == enumObjectType.DblType & Information.IsDBNull(obj)) {
        objReturn = 0.0;
    }
    return objReturn;
}

Usa la libreria CloseMXL.Excel . È facile e anche abbastanza veloce.

Classe

private DataTable getAllList()
        {
            string constr = ConfigurationManager.ConnectionStrings["RConnection"].ConnectionString;
            using (SqlConnection con = new SqlConnection(constr))
            {
                using (SqlCommand cmd = new SqlCommand("SELECT EmpId, gender, EmpName, pOnHold FROM Employee  WHERE EmpId= '"+ AnyVariable + "' ORDER BY EmpName"))
                {
                    using (SqlDataAdapter da = new SqlDataAdapter())
                    {
                        DataTable dt = new DataTable();
                        cmd.CommandType = CommandType.Text;
                        cmd.Connection = con;
                        da.SelectCommand = cmd;
                        da.Fill(dt);
                        dt.Columns[0].ColumnName = "Employee Id";
                        dt.Columns[1].ColumnName = "Gender";
                        dt.Columns[2].ColumnName = "Employee Name";
                        dt.Columns[3].ColumnName = "On Hold";

                        return dt;
                    }
                }
            }
        }

Quindi un altro metodo che ottiene il set di dati

public DataSet getDataSetExportToExcel()
        {
            DataSet ds = new DataSet();
            DataTable dtEmp = new DataTable("CLOT List");
            dtEmp = getAllList();
             ds.Tables.Add(dtEmp);
             ds.Tables[0].TableName = "Employee"; //If you which to use Mutliple Tabs
             return ds;
          }

Ora fai clic sul pulsante Evento

protected void btn_Export_Click(object sender, EventArgs e)
        {
            DataSet ds = getDataSetExportToExcel();

            using (XLWorkbook wb = new XLWorkbook())
            {
                wb.Worksheets.Add(ds);
                wb.Style.Alignment.Horizontal = XLAlignmentHorizontalValues.Center;
                wb.Style.Font.Bold = true;

                Response.Clear();
                Response.Buffer = true;
                Response.Charset = "";
                Response.ContentType = "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet";
                Response.AddHeader("content-disposition", "attachment;filename=EmployeeonHoldList.xlsx");

                using (MemoryStream MyMemoryStream = new MemoryStream())
                {
                    wb.SaveAs(MyMemoryStream);
                    MyMemoryStream.WriteTo(Response.OutputStream);

                    Response.Flush();
                    Response.End();
                }
            }
        }

Puoi usare la mia libreria SwiftExcel . È particolarmente utile quando si ottengono prestazioni e un utilizzo ridotto della memoria poiché scrive i dati direttamente nel file:

using (var ew = new ExcelWriter("C:\\temp\\test.xlsx"))
{
    for (var row = 1; row <= 100; row++)
    {
        for (var col = 1; col <= 10; col++)
        {
            ew.Write($"row:{row}-col:{col}", col, row);
        }
    }
}

Comando Nuget da installare:

Install-Package SwiftExcel

Volevo aggiungere questa risposta perché ho passato molto tempo alla ricerca di un metodo veloce e affidabile per farlo e nessun esempio completo di utilizzo di OpenXMLWriter per questo scopo esisteva da nessuna parte che potessi trovare.

Innanzitutto, COM / Interop (utilizzato da molte altre risposte) va bene per questo scopo, ma soffre di alcune sensibilità. L'ho usato per decenni ed è per lo più stabile, ma durante l'implementazione di un front-end di data warehouse per centinaia di utenti, ho riscontrato che era soggetto a troppi problemi a seconda della macchina e di ciò che l'utente faceva, quindi sono passato a OpenXML. OpenXML DOM è abbastanza buono per questo scopo, ma è più lento rispetto all'utilizzo di OpenXMLWriter. Quando si entra in set di dati di grandi dimensioni (100K +) con molte colonne, DOM è molto più lento di OpenXMLWriter, quindi io uso quest'ultimo. Il metodo seguente scrive oltre 420.000 righe con più di 30 campi in meno di 30 secondi.

Spero che i commenti siano sufficienti per guidare chiunque in quello che sta facendo. È semplificato, in quanto scrive tutti i valori nel file come stringhe, ma è possibile implementare la logica per scrivere vari tipi di dati (e utilizzare vari formati di cella) in base al contenuto dei dati. Puoi anche adattarlo per l'uso su un DataGridView (invece di un DataTable) cambiando solo alcune cose (vale a dire i cicli attraverso colonne / righe).

È richiesto un riferimento a DocumentFormat.OpenXML (d / l con OpenXML SDK) e WindowsBase.

Imports DocumentFormat.OpenXml
Imports DocumentFormat.OpenXml.Spreadsheet
Imports DocumentFormat.OpenXml.Packaging

Public Sub ExportToExcelXML(ByRef dt As DataTable, filename As String)
    Dim wbp As WorkbookPart, wsp As WorksheetPart
    'If this DataTable has more rows in it than can fit in Excel, throw an exception
    If dt.Rows.Count > 1048575 Then Throw New Exception("The DataTable is too large to export to Excel.")
    'Delete any previous file of the same name that may exist.
    File.Delete(filename)
    'Create an OpenXML SpreadsheetDocument...
    Using xls = SpreadsheetDocument.Create(filename, SpreadsheetDocumentType.Workbook)
        'Add a WorkbookPart to the Spreadsheet Doc, then add a WorksheetPart to the WorkbookPart.
        wbp = xls.AddWorkbookPart()
        wsp = wbp.AddNewPart(Of WorksheetPart)
        'Now we need to add the "StyleSheet" to the WorkbookPart (that we just added above). This will allow us to apply formatting to our Cells.
        'Add the WbStylesPart and the StyleSheet.
        Dim stp As WorkbookStylesPart = wbp.AddNewPart(Of WorkbookStylesPart)
        Dim ss As New Stylesheet
        'Create the only two Fonts we're going to use (Regular and Bold).
        Dim fBold As New Font
        fBold.Append(New Bold)
        Dim fnts As New Fonts
        fnts.Append(New Font) 'This creates the default (unmodified, regular) Font. It's added first, so its index is 0.
        fnts.Append(fBold) 'This creates the Bold font. It's added second, so its index is 1.
        'Create the default Fill/Border settings (these have to be here, even though I don't set any custom fills/borders).
        Dim flls As New Fills
        Dim brdrs As New Borders
        flls.Append(New Fill)
        brdrs.Append(New Border)
        'Now I have to add formats (NumberFormat and CellFormat). First, you create a NumberFormat. This is basically the pattern of 
        '   the format (i.e. "@" for Text). For now, I only need a Text format, but I can add more patterns if needed.
        '   I give the format an ID of 164, since 163 is where the built-in Excel formats end.
        Dim nbrfmts As New NumberingFormats
        nbrfmts.Append(New NumberingFormat With {.NumberFormatId = 164, .FormatCode = "@"})
        'Create the first two CellFormats: Default, which will have an index of 0 and "Header" (Bold/Centered) with an index of 1.
        Dim cellfmts As New CellFormats()
        cellfmts.Append(New CellFormat() With {.FontId = 0, .NumberFormatId = 164, .FillId = 0, .BorderId = 0})
        cellfmts.Append(New CellFormat() With {.FontId = 1, .NumberFormatId = 164,
            .Alignment = New Alignment() With {.WrapText = True, .Horizontal = HorizontalAlignmentValues.Center}})
        'Add all of the Fonts/Fills/Borders/etc to the StyleSheet and add it all to the WorkbookStylesPart.
        ss.Append(fnts)
        ss.Append(flls)
        ss.Append(brdrs)
        ss.Append(cellfmts)
        ss.NumberingFormats = nbrfmts
        stp.Stylesheet = ss
        stp.Stylesheet.Save()
        'Now create an OpenXMLWriter using the WorksheetPart to write the cells to the worksheet.
        Using oxw As OpenXmlWriter = OpenXmlWriter.Create(wsp)
            'Write the start element for the Worksheet and the Columns...
            oxw.WriteStartElement(New Worksheet)
            oxw.WriteStartElement(New Columns())
            'Now I'm going to loop through the columns in the DataTable...
            For c As Integer = 0 To dt.Columns.Count - 1
                'Now we'll get the width for the column. To do this, we loop through all of the rows and measure the width of the text 
                '   using the default Excel Font (currently Font: Calibri Size: 11) and return the largest width (in pixels) to use below.
                '   Why not do this loop below (when I loop through the rows to write the Cells)? Because you can't. You have to
                '   write the Column XML first before writing the SheetData/Row/Cell XML (I confirmed this by trying it), so there's
                '   no way (that I'm aware of) to avoid looping through all of the rows twice if you want to AutoFit.
                'Setup vars we'll use for getting the column widths (below).
                Dim g = System.Drawing.Graphics.FromHwnd(IntPtr.Zero)
                Dim fnt = New System.Drawing.Font("Calibri", 11)
                Dim wid As Double = 0
                'Get the width of the header (because if this is wider than the widest value, we'll use the header text's width).
                '   I found that adding 2 pixels to the width was necessary to get the column as wide as Excel would make it.
                Dim tmp As Double = g.MeasureString(dt.Columns(c).ColumnName, New System.Drawing.Font(fnt, System.Drawing.FontStyle.Bold)).Width + 2
                'Loop through the rows in the dt and get the width of the value in that row/col. If it's wider than the widest
                '   width we've encountered thus far, use the new wider width as our basis.
                For Each row As DataRow In dt.Rows
                    If tmp > wid Then wid = tmp
                    tmp = g.MeasureString(row(c).ToString, fnt).Width
                Next
                'Set the column attributes and write it to the file. The Width is set using a formula that converts from pixels to Excel's column width values.
                Dim oxa As New List(Of OpenXmlAttribute) From {New OpenXmlAttribute("min", Nothing, c + 1), New OpenXmlAttribute("max", Nothing, c + 1),
                    New OpenXmlAttribute("width", Nothing, System.Math.Round((wid - 12 + 5) / 7D + 1, 2))}
                oxw.WriteStartElement(New Column(), oxa)
                oxw.WriteEndElement()
            Next
            'CLose out the Columns collection.
            oxw.WriteEndElement()
            'Write the start element for the SheetData...
            oxw.WriteStartElement(New SheetData)
            'Write the start element for the Header row.
            oxw.WriteStartElement(New Row)
            'Loop through the Columns in the dt.
            For Each col As DataColumn In dt.Columns
                'Write a cell for this column's Header. All Header cells are written with a DataType of String ("str"). 
                '   I ALSO apply the "Header" CellFormat (StyleIndex 1) to all of the Header Cells. This makes them Bold and Centered.
                WriteCell(oxw, col.ColumnName, "str", 1)
            Next
            'Close out the Header row.
            oxw.WriteEndElement()
            'Loop through all of the rows in the dt...
            For Each row As DataRow In dt.Rows
                'Write a StartElement for this row...
                oxw.WriteStartElement(New Row)
                'Loop through all of the columns in the dt...
                For c As Integer = 0 To dt.Columns.Count - 1
                    'Write a value in this row/column to the Excel file. I use the datatype of "String" and the default CellFormat/StyleIndex.
                    WriteCell(oxw, row(c).ToString, "str", 0)
                Next
                'Close out this row.
                oxw.WriteEndElement()
            Next
            'Close out the Worksheet and SheetData elements...
            oxw.WriteEndElement()
            oxw.WriteEndElement()
        End Using
        'Now we're going to create an OpenXMLWriter using the WorkbookPart (that we created above)...
        Using oxw As OpenXmlWriter = OpenXmlWriter.Create(wbp)
            'Add starting elements for the Workbook and Sheets collection.
            oxw.WriteStartElement(New Workbook())
            oxw.WriteStartElement(New Sheets())
            'Add the Sheet (name the Sheet after the file name minus the extension).
            oxw.WriteElement(New Sheet() With {.Name = Path.GetFileNameWithoutExtension(filename), .SheetId = 1, .Id = xls.WorkbookPart.GetIdOfPart(wsp)})
            'Write End elements for the Workbook/Sheets
            oxw.WriteEndElement()
            oxw.WriteEndElement()
        End Using
    End Using

End Sub

'This Sub is used to write a value to a Cell using OpenXMLWriter.
Private Sub WriteCell(ByRef oxw As OpenXmlWriter, value As String, datatype As String, style As UInt32Value)
    Dim oxa As New List(Of OpenXmlAttribute) From {New OpenXmlAttribute("t", Nothing, datatype), New OpenXmlAttribute("s", Nothing, style)}
    oxw.WriteStartElement(New Cell(), oxa)
    If value <> Nothing Then oxw.WriteElement(New CellValue(value))
    oxw.WriteEndElement()
End Sub

Per quanto riguarda la risposta di tuncalik , che è fantastica, soprattutto se vuoi giocare un po 'con il codice :) ma sta mettendo le mie date in Excel in formato americano, cioè il 2 marzo 2014 nel Regno Unito è il 02/03/2014 ma negli USA è il 03/02/2014 con il primo mese, poi il giorno della settimana successivo. Ho bisogno di averlo in formato UK, qualche idea per favore?

Ho controllato che sia memorizzato nel formato UK nella mia DataTable e anche il mio Excel è impostato su UK, ma per qualche motivo quando fa il documento Excel pensa che sia USA (è questo perché Microsoft è una società USA :)

Proverò a sperimentare con i codici culturali, ma non sono ancora sicuro di dove metterli. Ho provato ma questo non ha avuto effetto.

ps

Ho dovuto cambiare una riga per farlo funzionare aggiungendo un "cast" come di seguito

// single worksheet
Excel._Worksheet workSheet = (Excel._Worksheet)excelApp.ActiveSheet;

Aggiornamento: ho ottenuto la formattazione del Regno Unito delle date convertendola nel formato LongDateTime, ma è solo una soluzione.

DateTime startDate = Convert.ToDateTime(myList[0].ToString());
string strStartDate = startDate.ToLongDateString();
DateTime endDate = Convert.ToDateTime(myList[myListTotalRows].ToString());
string strEndDate = endDate.ToLongDateString();    

Saluti.

Puoi usare EasyXLS che è una libreria per esportare file Excel.

Controlla questo codice:

DataSet ds = new DataSet();
ds.Tables.Add(dataTable);

ExcelDocument xls = new ExcelDocument();
xls.easy_WriteXLSFile_FromDataSet("datatable.xls", ds, 
           new ExcelAutoFormat(Styles.AUTOFORMAT_EASYXLS1), "DataTable");

Vedi anche questo esempio su come esportare datatable in Excel in C # .

Vecchio thread, ma pensavo di inserire il mio codice qui. Ho scritto una piccola funzione per scrivere una tabella dati su un nuovo foglio Excel in un percorso (posizione) specificato. Inoltre sarà necessario aggiungere un riferimento alla libreria di microsoft excel 14.0.

Ho tirato fuori da questo thread scrivendo qualsiasi cosa per eccellere - Come scrivere alcuni dati nel file Excel (.xlsx)

L'ho usato per estrapolare come scrivere un datatable

* nota nelle istruzioni catch ho un riferimento alla classe statica del gestore degli errori (puoi ignorarli)

 using excel = Microsoft.Office.Interop.Excel;
 using System.IO;
 using System.Data;
 using System.Runtime.InteropServices;

 //class and namespace wrapper is not shown in this example 

 private void WriteToExcel(System.Data.DataTable dt, string location)
    {
        //instantiate excel objects (application, workbook, worksheets)
        excel.Application XlObj = new excel.Application();
        XlObj.Visible = false;
        excel._Workbook WbObj = (excel.Workbook)(XlObj.Workbooks.Add(""));
        excel._Worksheet WsObj = (excel.Worksheet)WbObj.ActiveSheet;

        //run through datatable and assign cells to values of datatable
        try
        {
            int row = 1; int col = 1;
            foreach (DataColumn column in dt.Columns)
            {
                //adding columns
                WsObj.Cells[row, col] = column.ColumnName;
                col++;
            }
            //reset column and row variables
            col = 1;
            row++;
            for (int i = 0; i < dt.Rows.Count; i++)
            {
                //adding data
                foreach (var cell in dt.Rows[i].ItemArray)
                {
                    WsObj.Cells[row, col] = cell;
                    col++;
                }
                col = 1;
                row++;
            }
            WbObj.SaveAs(location);
        }
        catch (COMException x)
        {                
            ErrorHandler.Handle(x);
        }
        catch (Exception ex)
        {               
            ErrorHandler.Handle(ex);
        }
        finally
        {
            WbObj.Close();                
        }
    }

Un modo per farlo sarebbe anche con ACE OLEDB Provider (vedi anche stringhe di connessione per Excel ). Ovviamente dovresti avere il provider installato e registrato. Dovresti averlo, se hai installato Excel, ma questo è qualcosa che devi considerare quando distribuisci l'app.

Questo è l'esempio di chiamata del metodo helper da ExportHelper:ExportHelper.CreateXlsFromDataTable(myDataTable, @"C:\tmp\export.xls");

L'helper per esportare in file Excel utilizzando ACE OLEDB:

public class ExportHelper
{
    private const string ExcelOleDbConnectionStringTemplate = "Provider=Microsoft.ACE.OLEDB.12.0;Data Source={0};Extended Properties=\"Excel 8.0;HDR=YES\";";

    /// <summary>
    /// Creates the Excel file from items in DataTable and writes them to specified output file.
    /// </summary>
    public static void CreateXlsFromDataTable(DataTable dataTable, string fullFilePath)
    {
        string createTableWithHeaderScript = GenerateCreateTableCommand(dataTable);

        using (var conn = new OleDbConnection(String.Format(ExcelOleDbConnectionStringTemplate, fullFilePath)))
        {
            if (conn.State != ConnectionState.Open)
            {
                conn.Open();
            }

            OleDbCommand cmd = new OleDbCommand(createTableWithHeaderScript, conn);
            cmd.ExecuteNonQuery();

            foreach (DataRow dataExportRow in dataTable.Rows)
            {
                AddNewRow(conn, dataExportRow);
            }
        }
    }

    private static void AddNewRow(OleDbConnection conn, DataRow dataRow)
    {
        string insertCmd = GenerateInsertRowCommand(dataRow);

        using (OleDbCommand cmd = new OleDbCommand(insertCmd, conn))
        {
            AddParametersWithValue(cmd, dataRow);
            cmd.ExecuteNonQuery();
        }
    }

    /// <summary>
    /// Generates the insert row command.
    /// </summary>
    private static string GenerateInsertRowCommand(DataRow dataRow)
    {
        var stringBuilder = new StringBuilder();
        var columns = dataRow.Table.Columns.Cast<DataColumn>().ToList();
        var columnNamesCommaSeparated = string.Join(",", columns.Select(x => x.Caption));
        var questionmarkCommaSeparated = string.Join(",", columns.Select(x => "?"));

        stringBuilder.AppendFormat("INSERT INTO [{0}] (", dataRow.Table.TableName);
        stringBuilder.Append(columnNamesCommaSeparated);
        stringBuilder.Append(") VALUES(");
        stringBuilder.Append(questionmarkCommaSeparated);
        stringBuilder.Append(")");
        return stringBuilder.ToString();
    }

    /// <summary>
    /// Adds the parameters with value.
    /// </summary>
    private static void AddParametersWithValue(OleDbCommand cmd, DataRow dataRow)
    {
        var paramNumber = 1;

        for (int i = 0; i <= dataRow.Table.Columns.Count - 1; i++)
        {
            if (!ReferenceEquals(dataRow.Table.Columns[i].DataType, typeof(int)) && !ReferenceEquals(dataRow.Table.Columns[i].DataType, typeof(decimal)))
            {
                cmd.Parameters.AddWithValue("@p" + paramNumber, dataRow[i].ToString().Replace("'", "''"));
            }
            else
            {
                object value = GetParameterValue(dataRow[i]);
                OleDbParameter parameter = cmd.Parameters.AddWithValue("@p" + paramNumber, value);
                if (value is decimal)
                {
                    parameter.OleDbType = OleDbType.Currency;
                }
            }

            paramNumber = paramNumber + 1;
        }
    }

    /// <summary>
    /// Gets the formatted value for the OleDbParameter.
    /// </summary>
    private static object GetParameterValue(object value)
    {
        if (value is string)
        {
            return value.ToString().Replace("'", "''");
        }
        return value;
    }

    private static string GenerateCreateTableCommand(DataTable tableDefination)
    {
        StringBuilder stringBuilder = new StringBuilder();
        bool firstcol = true;

        stringBuilder.AppendFormat("CREATE TABLE [{0}] (", tableDefination.TableName);

        foreach (DataColumn tableColumn in tableDefination.Columns)
        {
            if (!firstcol)
            {
                stringBuilder.Append(", ");
            }
            firstcol = false;

            string columnDataType = "CHAR(255)";

            switch (tableColumn.DataType.Name)
            {
                case "String":
                    columnDataType = "CHAR(255)";
                    break;
                case "Int32":
                    columnDataType = "INTEGER";
                    break;
                case "Decimal":
                    // Use currency instead of decimal because of bug described at 
                    // http://social.msdn.microsoft.com/Forums/vstudio/en-US/5d6248a5-ef00-4f46-be9d-853207656bcc/localization-trouble-with-oledbparameter-and-decimal?forum=csharpgeneral
                    columnDataType = "CURRENCY";
                    break;
            }

            stringBuilder.AppendFormat("{0} {1}", tableColumn.ColumnName, columnDataType);
        }
        stringBuilder.Append(")");

        return stringBuilder.ToString();
    }
}

usa la seguente classe

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Data;
using excel = Microsoft.Office.Interop.Excel;
using EL = ExcelLibrary.SpreadSheet;
using System.Drawing;
using System.Collections;
using System.Runtime.InteropServices;
using System.Windows.Forms;


namespace _basic
{
public class ExcelProcesser
{
    public void WriteToExcel(System.Data.DataTable dt)
    {
        excel.Application XlObj = new excel.Application();
        XlObj.Visible = false;
        excel._Workbook WbObj = (excel.Workbook)(XlObj.Workbooks.Add(""));
        excel._Worksheet WsObj = (excel.Worksheet)WbObj.ActiveSheet;
        object misValue = System.Reflection.Missing.Value;


        try
        {
            int row = 1; int col = 1;
            foreach (DataColumn column in dt.Columns)
            {
                //adding columns
                WsObj.Cells[row, col] = column.ColumnName;
                col++;
            }
            //reset column and row variables
            col = 1;
            row++;
            for (int i = 0; i < dt.Rows.Count; i++)
            {
                //adding data
                foreach (var cell in dt.Rows[i].ItemArray)
                {
                    WsObj.Cells[row, col] = cell;
                    col++;
                }
                col = 1;
                row++;
            }
            WbObj.SaveAs(fileFullName, excel.XlFileFormat.xlWorkbookNormal, misValue, misValue, misValue, misValue, excel.XlSaveAsAccessMode.xlExclusive, misValue, misValue, misValue, misValue, misValue);
        }
        catch (Exception ex)
        {
            MessageBox.Show(ex.Message);
        }
        finally
        {
            WbObj.Close(true, misValue, misValue);
        }
    }
}

}

Questa soluzione sta fondamentalmente spingendo i List<Object>dati in Excel, utilizza DataTable per ottenere ciò, ho implementato un metodo di estensione, quindi fondamentalmente ci sono due cose necessarie. 1. Un metodo di estensione.

public static class ReportHelper
{
    public static string ToExcel<T>(this IList<T> data)
    {
        PropertyDescriptorCollection properties =
            TypeDescriptor.GetProperties(typeof(T));
        DataTable table = new DataTable();
        foreach (PropertyDescriptor prop in properties)
        {
            //table.Columns.Add(prop.Name, Nullable.GetUnderlyingType(prop.PropertyType) ?? prop.PropertyType);
            if (prop.Attributes[typeof(FGMS.Entity.Extensions.ReportHeaderAttribute)] != null)
            {
                table.Columns.Add(GetColumnHeader(prop), Nullable.GetUnderlyingType(prop.PropertyType) ?? prop.PropertyType);
            }
        }

        //So it seems like when there is only one row of data the headers do not appear
        //so adding a dummy blank row which fixed the issues
        //Add a blank Row - Issue # 1471
        DataRow blankRow = table.NewRow();
        table.Rows.Add(blankRow);

        foreach (T item in data)
        {
            DataRow row = table.NewRow();
            foreach (PropertyDescriptor prop in properties)
                //row[prop.Name] = prop.GetValue(item) ?? DBNull.Value;
                if (prop.Attributes[typeof(FGMS.Entity.Extensions.ReportHeaderAttribute)] != null)
                {
                    row[GetColumnHeader(prop)] = prop.GetValue(item) ?? DBNull.Value;
                }
            table.Rows.Add(row);
        }
        table.TableName = "Results";
        var filePath = System.IO.Path.GetTempPath() + "\\" + System.Guid.NewGuid().ToString() + ".xls";
        table.WriteXml(filePath);

        return filePath;
    }

    private static string GetColumnHeader(PropertyDescriptor prop)
    {
        return ((FGMS.Entity.Extensions.ReportHeaderAttribute)(prop.Attributes[typeof(FGMS.Entity.Extensions.ReportHeaderAttribute)])).ReportHeaderText;
    }       
}

2. Decora le tue classi DTO con l'Attributo [ReportHeaderAttribute("Column Name")]

public class UserDTO
    {
        public int Id { get; set; }
        public int SourceId { get; set; }
        public string SourceName { get; set; }

        [ReportHeaderAttribute("User Type")]
        public string UsereType { get; set; }

        [ReportHeaderAttribute("Address")]
        public string Address{ get; set; }

        [ReportHeaderAttribute("Age")]
        public int Age{ get; set; }

        public bool IsActive { get; set; }

        [ReportHeaderAttribute("Active")]
        public string IsActiveString
        {
            get
            {
                return IsActive ? "Yes" : "No";
            }
        }}

Tutto ciò che deve essere una colonna in Excel deve essere decorato con [ReportHeaderAttribute("Column Name")]

Quindi semplicemente

Var userList = Service.GetUsers() //Returns List of UserDTO;
var excelFilePath = userList.ToExcel();

HttpResponseMessage result = new HttpResponseMessage(HttpStatusCode.OK);
            var stream = new FileStream(excelFilePath, FileMode.Open);
            result.Content = new StreamContent(stream);
            result.Content.Headers.ContentType =
                new MediaTypeHeaderValue("application/vnd.ms-excel");
            result.Content.Headers.ContentDisposition = new ContentDispositionHeaderValue("attachment") { FileName = "UserList.xls" };

            return result;

Per esportare i dati in Excel, puoi utilizzare la libreria ClosedXML.Report ( https://github.com/ClosedXML/ClosedXML.Report ). Credimi, questa è una libreria meravigliosa e facile da usare per lei. La libreria non necessita di Excel Interop. ClosedXML.Report genera un file Excel basato su un modello che puoi creare in Excel utilizzando qualsiasi formattazione. Per esempio:

    var template = new XLTemplate(@".\Templates\report.xlsx");

    using (var db = new DbDemos())
    {
        var cust = db.customers.LoadWith(c => c.Orders).First();
        template.AddVariable(cust);
        template.Generate();
    }

    template.SaveAs(outputFile);

Private tmr As System.Windows.Forms.Timer

Private Sub TestExcel() Handles Button1.Click

    '// Initial data: SQL Server table with 6 columns and 293000 rows.


    '// Data table holding all data
    Dim dt As New DataTable("F161")

    '// Create connection
    Dim conn As New SqlConnection("Server=MYSERVER;Database=Test;Trusted_Connection=Yes;")
    Dim fAdapter As New SqlDataAdapter With
    {
        .SelectCommand = New SqlCommand($"SELECT * FROM dbo.MyTable", conn)
    }

    '// Fill DataTable
    fAdapter.Fill(dt)

    '// Create Excel application
    Dim xlApp As New Excel.Application With {.Visible = True}

    '// Temporarily disable screen updating
    xlApp.ScreenUpdating = False

    '// Create brand new workbook
    Dim xlBook As Excel.Workbook = xlApp.Workbooks.Add()
    Dim xlSheet As Excel.Worksheet = DirectCast(xlBook.Sheets(1), Excel.Worksheet)

    '// Get number of rows
    Dim rows_count = dt.Rows.Count
    '// Get number of columns
    Dim cols_count = dt.Columns.Count

    '// Here 's the core idea: after receiving data
    '// you need to create an array and transfer it to sheet.
    '// Why array?
    '// Because it's the fastest way to transfer data to Excel's sheet.
    '// So, we have two tasks:
    '// 1) Create array
    '// 2) Transfer array to sheet

    '// =========================================================
    '// TASK 1: Create array
    '// =========================================================
    '// In order to create array, we need to know that
    '// Excel's Range object expects 2-D array whose lower bounds
    '// of both dimensions start from 1.
    '// This means you can't use C# array.
    '// You need to manually create such array.
    '// Since we already calculated number of rows and columns,
    '// we can use these numbers in creating array.
    Dim arr = Array.CreateInstance(GetType(Object), {rows_count, cols_count}, {1, 1})

    '// Fill array
    For r = 0 To rows_count - 1
        For c = 0 To cols_count - 1
            arr(r + 1, c + 1) = dt.Rows(r)(c)
        Next
    Next

    '// =========================================================
    '// TASK 2: Transfer array to sheet
    '// =========================================================
    '// Now we need to transfer array to sheet.
    '// So, how transfer array to sheet fast?
    '// 
    '// THE FASTEST WAY TO TRANSFER DATA TO SHEET IS TO ASSIGN ARRAY TO RANGE.
    '// We could, of course, hard-code values, but Resize property
    '// makes this work a breeze:
    xlSheet.Range("A1").Resize.Resize(rows_count, cols_count).Value = arr

    '// If we decide to dump data by iterating over array,
    '// it will take LOTS of time.
    '// For r = 1 To rows_count
    '//     For c = 1 To cols_count
    '//         xlSheet.Cells(r, c) = arr(r, c)
    '//     Next
    '// Next

    '// Here are time results:
    '// 1) Assigning array to Range: 3 seconds
    '// 2) Iterating over array: 45 minutes

    '// Turn updating on
    xlApp.ScreenUpdating = True
    xlApp = Nothing
    xlBook = Nothing
    xlSheet = Nothing

    '// Here we have another problem:
    '// creating array took lots of memory (about 150 MB).
    '// Using 'GC.Collect()', by unknown reason, doesn't help here.
    '// However, if you run GC.Collect() AFTER this procedure is finished
    '// (say, by pressing another button and calling another procedure),
    '// then the memory is cleaned up.
    '// I was wondering how to avoid creating some extra button to just release memory,
    '// so I came up with the idea to use timer to call GC.
    '// After 2 seconds GC collects all generations.
    '// Do not forget to dispose timer since we need it only once.

    tmr = New Timer()
    AddHandler tmr.Tick,
        Sub()
            GC.Collect()
            GC.WaitForPendingFinalizers()
            GC.WaitForFullGCComplete()
            tmr.Dispose()
        End Sub
    tmr.Interval = TimeSpan.FromSeconds(2).TotalMilliseconds()
    tmr.Start()

End Sub