Saturday, June 2, 2012

How to compress files in Metro style applications?


In this blog post, I am going to demonstrate on how to use ZipArchive class in Metro style app to compress a set of files and save the compressed file to a particular location.

Steps to compress a set of files:

Step 1: Select the folder containing the files which you want to compress.

//Select Folder to Compress
FolderPicker saveFolder = new FolderPicker();
//Suggest start location
saveFolder.SuggestedStartLocation = PickerLocationId.Desktop;
//Add file type filter
saveFolder.FileTypeFilter.Add("*");
//Opens folder picker to allow the user to select the folder to compress StorageFolder storageFolderForCompression = await saveFolder.PickSingleFolderAsync();

Step 2: Retrieve the files present under the selected folder

// Retrieve the files to compress
IReadOnlyList<StorageFile> filesToCompress = await GetStorageFiles(storageFolderForCompression as IStorageItem);

Helper methods:

async Task<List<StorageFile>> GetStorageFiles(IStorageItem storageItem)
{

List<StorageFile> storageFileList = new List<StorageFile>();
// Gets the items under the selected folder (Storage Item)
IReadOnlyList<IStorageItem> items = await (storageItem as StorageFolder).GetItemsAsync();
foreach(IStorageItem item in items)
{
switch(item.Attributes)
{
case FileAttributes.Directory:
// If the item is a directory under the selected folder, then retrieve the files under the directory by calling the same function recursively
List<StorageFile> temp = await GetStorageFiles(item);
// Copy the files under the directory to the storage file list
Copy(temp, storageFileList);
break;
default:
// If the item is a file, Add the item to the storage file list
storageFileList.Add(item as StorageFile);
break;
}
}
// Return storage file list for compression
return storageFileList;
}

private void Copy(List<StorageFile> source, List<StorageFile> destination)
{
// For each file item present under the directory copy it to the destination storage file list
foreach (StorageFile file in source)
{
destination.Add(file);
}
}

Note: Alternatively you can use FileOpenPicker control’s PickMultipleFilesAsync() method to allow the users to select multiple files instead selecting the folder. In this way you can skip both Step 1 and Step 2.

// File open picker
FileOpenPicker fileOpenPicker = new FileOpenPicker();
fileOpenPicker.SuggestedStartLocation = PickerLocationId.ComputerFolder;
fileOpenPicker.FileTypeFilter.Add("*");
// Allows user to select multiple files which returns storage file list
IReadOnlyList<StorageFile> filesToCompress = await fileOpenPicker.PickMultipleFilesAsync();


Step 3: Create ZipArchive object using a memory stream and then for each file to be compressed Add a ZipArchiveEntry with the file name and copy the file contents to the ZipArchiveEntry stream.

Once the files are added to the zip archive, close the zip archive object and copy the contents of memory stream to the storage file which is saved to a particular location.

// Retrieve files to compress
IReadOnlyList<StorageFile> filesToCompress = await GetStorageFiles(storageFolderForCompression as IStorageItem);

// Created new file to store compressed files
//This will create a file under the selected folder in the name “Compressed.zip”
StorageFile zipFile = await storageFolderForCompression.CreateFileAsync("Compressed.zip");

// Create stream to compress files in memory (ZipArchive can't stream to an IRandomAccessStream, see
// http://social.msdn.microsoft.com/Forums/en-US/winappswithcsharp/thread/62541424-ba7d-43d3-9585-1fe53dc7d9e2
// for details on this issue)
using (MemoryStream zipMemoryStream = new MemoryStream())
{
// Create zip archive
using (ZipArchive zipArchive = new ZipArchive(zipMemoryStream, ZipArchiveMode.Create))
{
// For each file to compress...
foreach (StorageFile fileToCompress in filesToCompress)
{
//Read the contents of the file
byte[] buffer = WindowsRuntimeBufferExtensions.ToArray(await FileIO.ReadBufferAsync(fileToCompress));

// Create a zip archive entry
ZipArchiveEntry entry = zipArchive.CreateEntry(fileToCompress.Name);

// And write the contents to it
using (Stream entryStream = entry.Open())
{
await entryStream.WriteAsync(buffer, 0, buffer.Length);
}
}
}

using (IRandomAccessStream zipStream = await zipFile.OpenAsync(FileAccessMode.ReadWrite))
{
// Write compressed data from memory to file
using (Stream outstream = zipStream.AsStreamForWrite())
{
byte[] buffer = zipMemoryStream.ToArray();
outstream.Write(buffer, 0, buffer.Length);
outstream.Flush();
}
}
}

Thus the files under the selected folder are compressed to a particular location.

References:
http://msdn.microsoft.com/en-us/library/windows/apps/br207928.aspx
http://msdn.microsoft.com/library/windows/apps/BR207847
http://msdn.microsoft.com/en-us/library/windows/apps/windows.storage.pickers.folderpicker.aspx
http://msdn.microsoft.com/en-us/library/windows/apps/system.runtime.interopservices.windowsruntime.windowsruntimebufferextensions%28v=vs.110%29.aspx
http://msdn.microsoft.com/en-us/library/windows/apps/hh454050%28v=vs.110%29.aspx
http://msdn.microsoft.com/en-us/library/windows/apps/system.io.compression.ziparchive%28v=vs.110%29.aspx

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