CsvHelper.Excel.EPPlus4
30.1.0
See the version list below for details.
dotnet add package CsvHelper.Excel.EPPlus4 --version 30.1.0
NuGet\Install-Package CsvHelper.Excel.EPPlus4 -Version 30.1.0
<PackageReference Include="CsvHelper.Excel.EPPlus4" Version="30.1.0" />
paket add CsvHelper.Excel.EPPlus4 --version 30.1.0
#r "nuget: CsvHelper.Excel.EPPlus4, 30.1.0"
// Install CsvHelper.Excel.EPPlus4 as a Cake Addin #addin nuget:?package=CsvHelper.Excel.EPPlus4&version=30.1.0 // Install CsvHelper.Excel.EPPlus4 as a Cake Tool #tool nuget:?package=CsvHelper.Excel.EPPlus4&version=30.1.0
CsvHelper for Excel (using EPPlus)
Overview
CsvHelper for Excel (using EPPlus) is an extension that links two excellent libraries: CsvHelper and EPPlus.
It provides implementations of IParser
and IWriter
from CsvHelper that read and write Excel documents using EPPlus. Encrypted/password-protected Excel documents are supported.
Setup
You have a choice of two packages. It'll probably come down to your licensing requirements:
- CsvHelper.Excel.EPPlus depends on EPPlus 6. This version of EPPlus has a Polyform Noncommercial license OR requires you to obtain a commercial license from EPPlus Software: https://www.epplussoftware.com/LicenseOverview
- CsvHelper.Excel.EPPlus4 depends on EPPlus 4. This version of EPPlus is LGPL licensed. Consider this version if the other one is not available for your use.
Install the appropriate package from NuGet.org into your project. E.g.:
dotnet add package CsvHelper.Excel.EPPlus
Or using the Package Manager Console with the following command:
PM> Install-Package CsvHelper.Excel.EPPlus
Add the CsvHelper.Excel.EPPlus
namespace to your code and check the examples below.
If you need to parse or write to a password-protected Excel document you will need to first create an instance of ExcelPackage
yourself (e.g. new ExcelPackage("file.xlsx", password)
) and then use one of the constructor overloads described below which take that as a parameter.
Using ExcelParser
ExcelParser
implements IParser
and allows you to specify the path of an Excel package, pass an instance of ExcelPackage
, ExcelWorkbook
, ExcelWorksheet
, ExcelRange
or a Stream
that you have already loaded to use as the data source.
All constructor overloads have an optional parameter for passing your own CsvConfiguration
(IParserConfiguration
), otherwise a default constructed using the InvariantCulture is used.
Loading records from an Excel document path
Constructor: ExcelParser(string path, string sheetName = null, IParserConfiguration configuration = null)
By default the first worksheet is used as the data source, though you can specify a particular worksheet using the sheetName parameter.
When the path is passed to the constructor then workbook loading and disposal is completely handled internally by the parser.
using var reader = new CsvReader(new ExcelParser("path/to/file.xlsx"));
var people = reader.GetRecords<Person>();
Loading records from a Stream
Constructor: ExcelParser(Stream stream, string sheetName = null, IParserConfiguration configuration = null, bool leaveOpen = false)
By default the first worksheet is used as the data source, though you can specify a particular worksheet using the sheetName parameter.
Unless you set leaveOpen
to true, disposing ExcelParser
will also automatically dispose the provided Stream
.
using var reader = new CsvReader(new ExcelParser(File.Open("path/to/file.xlsx", FileMode.Open)));
var people = reader.GetRecords<Person>();
Or explicitly managing all the dependency lifetimes rather than relying on the library to do it:
using var stream = File.Open("path/to/file.xlsx", FileMode.Open);
using var parser = new ExcelParser(stream, leaveOpen:true);
using var reader = new CsvReader(parser, leaveOpen:true);
var people = reader.GetRecords<Person>();
Loading records from an ExcelPackage
Constructor: ExcelParser(ExcelPackage package, string sheetName = null, IParserConfiguration configuration = null, bool leaveOpen = false)
By default the first worksheet is used as the data source, though you can specify a particular worksheet using the sheetName parameter.
Unless you set leaveOpen
to true, disposing ExcelParser
will also automatically dispose the provided ExcelPackage
.
using var reader = new CsvReader(new ExcelParser(new ExcelPackage("path/to/file.xlsx")));
var people = reader.GetRecords<Person>();
Or explicitly managing all the dependency lifetimes rather than relying on the library to do it:
using var package = new ExcelPackage("path/to/file.xlsx");
using var parser = new ExcelParser(package, leaveOpen:true);
using var reader = new CsvReader(parser, leaveOpen:true);
var people = reader.GetRecords<Person>();
Loading records from an ExcelWorkbook
Constructor: ExcelParser(ExcelWorkbook workbook, string sheetName = null, IParserConfiguration configuration = null, bool leaveOpen = false)
By default the first worksheet is used as the data source, though you can specify a particular worksheet using the sheetName parameter.
Unless you set leaveOpen
to true, disposing ExcelParser
will also automatically dispose the provided ExcelWorkbook
.
With this overload, ExcelParser
has no access to, or even knowledge of, the ExcelPackage
which the workbook
belongs to so you still need to ensure the ExcelPackage
is appropriately disposed.
using var package = new ExcelPackage("path/to/file.xlsx");
using var reader = new CsvReader(new ExcelParser(package.Workbook));
var people = reader.GetRecords<Person>();
Or explicitly managing all the dependency lifetimes rather than relying on the library to do it:
using var package = new ExcelPackage("path/to/file.xlsx");
using var parser = new ExcelParser(package.Workbook, leaveOpen:true);
using var reader = new CsvReader(parser, leaveOpen:true);
var people = reader.GetRecords<Person>();
Loading records from an ExcelWorksheet
Constructor: ExcelParser(ExcelWorksheet worksheet, IParserConfiguration configuration = null, bool leaveOpen = false)
Unless you set leaveOpen
to true, disposing ExcelParser
will also automatically dispose the ExcelWorkbook
that owns the provided ExcelWorksheet
.
With this overload, ExcelParser
has no access to, or even knowledge of, the ExcelPackage
which the worksheet
belongs to so you still need to ensure the ExcelPackage
is appropriately disposed.
using var package = new ExcelPackage("path/to/file.xlsx");
using var reader = new CsvReader(new ExcelParser(package.Workbook.Worksheets.First(sheet => sheet.Name == "Folk")));
var people = reader.GetRecords<Person>();
Or explicitly managing all the dependency lifetimes rather than relying on the library to do it:
using var package = new ExcelPackage("path/to/file.xlsx");
var worksheet = package.Workbook.Worksheets.First(sheet => sheet.Name == "Folk");
using var parser = new ExcelParser(worksheet, leaveOpen:true);
using var reader = new CsvReader(parser, leaveOpen:true);
var people = reader.GetRecords<Person>();
Loading records from an ExcelRange
Constructor: ExcelParser(ExcelRange range, IParserConfiguration configuration = null, bool leaveOpen = false)
This overload allows you to restrict the parsing to a specific range of cells within an Excel worksheet.
With this overload, ExcelParser
has no access to, or even knowledge of, the ExcelPackage
which the range
belongs to so you still need to ensure the ExcelPackage
is appropriately disposed.
Unless you set leaveOpen
to true, disposing ExcelParser
will also automatically dispose the ExcelWorkbook
that owns the provided ExcelRange
.
using var package = new ExcelPackage("path/to/file.xlsx");
var range = package.Workbook.Worksheets.First(sheet => sheet.Name == "Folk").Cells[2, 5, 400, 33];
using var reader = new CsvReader(new ExcelParser(range));
var people = reader.GetRecords<Person>();
Or explicitly managing all the dependency lifetimes rather than relying on the library to do it:
using var package = new ExcelPackage("path/to/file.xlsx");
var range = package.Workbook.Worksheets.First(sheet => sheet.Name == "Folk");
using var parser = new ExcelParser(range, leaveOpen:true);
using var reader = new CsvReader(parser, leaveOpen:true);
var people = reader.GetRecords<Person>();
Using ExcelWriter
ExcelWriter
implements IWriter
and, like ExcelParser
, allows you to specify the path to (eventually) save the workbook, pass an instance of ExcelPackage
that you have already created, or pass a specific instance of ExcelWorksheet
, ExcelRange
or Stream
to use as the destination.
Unlike ExcelParser
and CsvReader
however where CsvReader wraps ExcelParser, here ExcelWriter
inherits from CsvWriter
and should be used directly instead.
All constructor overloads have an optional parameter for passing your own CsvConfiguration
(IWriterConfiguration
), otherwise a default constructed using the InvariantCulture is used.
Writing records to an Excel document path
Constructor: ExcelWriter(string path, string sheetName = "Export", IWriterConfiguration configuration = null)
When the path is passed to the constructor the writer manages the creation & disposal of the workbook and worksheet (named "Export" by default). The workbook is saved only when the writer is disposed.
using var writer = new ExcelWriter("path/to/file.xlsx");
writer.WriteRecords(people);
Writing records to a Stream
Constructor: ExcelWriter(Stream stream, string sheetName = "Export", IWriterConfiguration configuration = null, bool leaveOpen = false)
Important: The data is saved only when the ExcelWriter
is disposing.
Unless you set leaveOpen
to true, disposing ExcelWriter
will also automatically dispose the provided Stream
.
using var writer = new ExcelWriter(new MemoryStream());
writer.WriteRecords(people);
Writing records to an ExcelPackage
Constructor: ExcelWriter(ExcelPackage package, string sheetName = "Export", IWriterConfiguration configuration = null, bool leaveOpen = false)
Important: The data is saved only when the ExcelWriter
is disposing or the consumer manually calls package.Save()
or package.SaveAs(...)
.
By default, records are written into a worksheet named "Export".
Unless you set leaveOpen
to true, disposing ExcelWriter
will also automatically dispose the provided ExcelPackage
.
using var writer = new ExcelWriter(new ExcelPackage());
writer.WriteRecords(people);
package.SaveAs("path/to/file.xlsx");
Or
using var writer = new ExcelWriter(new ExcelPackage("path/to/file.xlsx"));
writer.WriteRecords(people);
Writing records to an ExcelWorksheet
Constructor: ExcelWriter(ExcelPackage package, ExcelWorksheet worksheet, IWriterConfiguration configuration = null, bool leaveOpen = false)
Important: The data is saved only when the ExcelWriter
is disposing or the consumer manually calls package.Save()
or package.SaveAs(...)
.
This overload is the same as the one which takes ExcelPackage
and sheetName
parameters, but accepts a worksheet reference rather than name.
Unless you set leaveOpen
to true, disposing ExcelWriter
will also automatically dispose the provided ExcelPackage
.
using var package = new ExcelPackage();
var worksheet = package.Workbook.Worksheets.Add("Folk");
using var writer = new ExcelWriter(package, worksheet);
writer.WriteRecords(people);
package.SaveAs("path/to/file.xlsx");
Or
using var package = new ExcelPackage("path/to/file.xlsx");
var worksheet = package.Workbook.Worksheets.Add("Folk");
using var writer = new ExcelWriter(package, worksheet);
writer.WriteRecords(people);
Writing records to an ExcelRange
Constructor: ExcelWriter(ExcelPackage package, ExcelRange range, IWriterConfiguration configuration = null, bool leaveOpen = false)
Important: The data is saved only when the ExcelWriter
is disposing or the consumer manually calls package.Save()
or package.SaveAs(...)
.
This overload is similar to the previous ones but accepts an ExcelRange
instead, allowing targeting a specific range of cells within an Excel worksheet.
Unless you set leaveOpen
to true, disposing ExcelWriter
will also automatically dispose the provided ExcelPackage
.
using var package = new ExcelPackage();
var worksheet = package.Workbook.Worksheets.Add("Folk");
using var writer = new ExcelWriter(package, worksheet.Cells[2, 5, 400, 33]);
writer.WriteRecords(people);
package.SaveAs("path/to/file.xlsx");
Or
using var package = new ExcelPackage("path/to/file.xlsx");
var worksheet = package.Workbook.Worksheets.Add("Folk");
using var writer = new ExcelWriter(package, worksheet.Cells[2, 5, 400, 33]);
writer.WriteRecords(people);
Attribution
This project was originally forked from https://github.com/christophano/CsvHelper.Excel and https://github.com/youngcm2/CsvHelper.Excel and heavily modified so that it could be used with EPPlus instead of ClosedXml.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 was computed. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
.NET Core | netcoreapp2.0 was computed. netcoreapp2.1 was computed. netcoreapp2.2 was computed. netcoreapp3.0 was computed. netcoreapp3.1 was computed. |
.NET Standard | netstandard2.0 is compatible. netstandard2.1 is compatible. |
.NET Framework | net461 was computed. net462 was computed. net463 was computed. net47 was computed. net471 was computed. net472 was computed. net48 was computed. net481 was computed. |
MonoAndroid | monoandroid was computed. |
MonoMac | monomac was computed. |
MonoTouch | monotouch was computed. |
Tizen | tizen40 was computed. tizen60 was computed. |
Xamarin.iOS | xamarinios was computed. |
Xamarin.Mac | xamarinmac was computed. |
Xamarin.TVOS | xamarintvos was computed. |
Xamarin.WatchOS | xamarinwatchos was computed. |
NuGet packages
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