This documentation is archived and is not being maintained.

DeflateStream.EndRead Method

Waits for the pending asynchronous read to complete.

Namespace: System.IO.Compression
Assembly: System (in system.dll)

public override int EndRead (
	IAsyncResult asyncResult
)
public int EndRead (
	IAsyncResult asyncResult
)
public override function EndRead (
	asyncResult : IAsyncResult
) : int
Not applicable.

Parameters

asyncResult

The reference to the pending asynchronous request to finish.

Return Value

The number of bytes read from the stream, between zero (0) and the number of bytes you requested. DeflateStream returns zero (0) only at the end of the stream; otherwise, it blocks until at least one byte is available.

Exception typeCondition

ArgumentNullException

asyncResult is a null reference (Nothing in Visual Basic).

ArgumentException

asyncResult did not originate from a BeginRead method on the current stream.

SystemException

An exception was thrown during a call to WaitOne.

InvalidOperationException

The end call is invalid because asynchronous read operations for this stream are not yet complete.

InvalidOperationException

The stream is a null reference (Nothing in Visual Basic).

Call this method to determine how many bytes were read from the stream. This method can be called once to return the amount of bytes read between calls to BeginRead and EndRead.

This method blocks until the I/O operation has completed.

The following code example shows how to use the DeflateStream class to compress and decompress a file.

using System;
using System.IO;
using System.IO.Compression;

public class DeflateTest
{
	public static int ReadAllBytesFromStream(Stream stream, byte[] buffer) 
	{
	// Use this method is used to read all bytes from a stream.
	int offset = 0;
	int totalCount = 0;
		while (true) 
		{
		int bytesRead = stream.Read(buffer, offset, 100); 
			if ( bytesRead == 0) 
			{
			break; 
			}
	offset += bytesRead;
	totalCount += bytesRead; 
		}
	return totalCount;
	} 

	public static bool CompareData(byte[] buf1, int len1, byte[] buf2, int len2) 
	{
		// Use this method to compare data from two different buffers.
		if (len1 != len2) 
		{ 
		Console.WriteLine("Number of bytes in two buffer are different {0}:{1}", len1, len2);
		return false;
		}

		for ( int i= 0; i< len1; i++) 
		{
			if ( buf1[i] != buf2[i]) 
			{
			Console.WriteLine("byte {0} is different {1}|{2}", i, buf1[i], buf2[i]);
			return false;
			}
		}
	Console.WriteLine("All bytes compare.");
	return true; 
	}

	public static void DeflateCompressDecompress(string filename)
	{
	Console.WriteLine("Test compression and decompression on file {0}", filename);
	FileStream infile;
		try
		{
		// Open the file as a FileStream object.
		infile = new FileStream(filename, FileMode.Open, FileAccess.Read, FileShare.Read);
		byte[] buffer = new byte[infile.Length];
		// Read the file to ensure it is readable.
		int count = infile.Read(buffer, 0, buffer.Length);
			if ( count != buffer.Length) 
			{
			infile.Close();
			Console.WriteLine("Test Failed: Unable to read data from file"); 
			return;
			}
		infile.Close();
		MemoryStream ms = new MemoryStream();
		// Use the newly created memory stream for the compressed data.
		DeflateStream compressedzipStream = new DeflateStream(ms , CompressionMode.Compress, true);
		Console.WriteLine("Compression");
		compressedzipStream.Write(buffer, 0, buffer.Length);
		// Close the stream.
		compressedzipStream.Close();
		Console.WriteLine("Original size: {0}, Compressed size: {1}", buffer.Length, ms.Length);

		// Reset the memory stream position to begin decompression.
		ms.Position = 0;
		DeflateStream zipStream = new DeflateStream(ms, CompressionMode.Decompress);
		Console.WriteLine("Decompression");
		byte[] decompressedBuffer = new byte[buffer.Length + 100];
		// Use the ReadAllBytesFromStream to read the stream.
		int totalCount = DeflateTest.ReadAllBytesFromStream(zipStream, decompressedBuffer);
		Console.WriteLine("Decompressed {0} bytes", totalCount);

		if( !DeflateTest.CompareData(buffer, buffer.Length, decompressedBuffer, totalCount) ) 
		{
		Console.WriteLine("Error. The two buffers did not compare.");
		}
	zipStream.Close(); 
		} // end try
		catch (InvalidDataException)
		{
			Console.WriteLine("Error: The file being read contains invalid data.");
		}
		catch (FileNotFoundException)
		{
			Console.WriteLine("Error:The file specified was not found.");
		}
		catch (ArgumentException)
		{
			Console.WriteLine("Error: path is a zero-length string, contains only white space, or contains one or more invalid characters");
		}
		catch (PathTooLongException)
		{
			Console.WriteLine("Error: The specified path, file name, or both exceed the system-defined maximum length. For example, on Windows-based platforms, paths must be less than 248 characters, and file names must be less than 260 characters.");
		}
		catch (DirectoryNotFoundException)
		{
			Console.WriteLine("Error: The specified path is invalid, such as being on an unmapped drive.");
		}
		catch (IOException)
		{
			Console.WriteLine("Error: An I/O error occurred while opening the file.");
		}
		catch (UnauthorizedAccessException)
		{
			Console.WriteLine("Error: path specified a file that is read-only, the path is a directory, or caller does not have the required permissions.");
		}
		catch (IndexOutOfRangeException)
		{
			Console.WriteLine("Error: You must provide parameters for MyGZIP.");
		}
	}
	public static void Main(string[] args)
	{
		string usageText = "Usage: DeflateTest <inputfilename>";
		//If no file name is specified, write usage text.
		if (args.Length == 0)
		{
			Console.WriteLine(usageText);
		}
		else
		{
			if (File.Exists(args[0]))
				DeflateCompressDecompress(args[0]);
		}
	}
}
	

import System.*;
import System.IO.*;
import System.IO.Compression.*;

public class DeflateTest
{
    public static int ReadAllBytesFromStream(Stream stream, ubyte buffer[])
    {
        // Use this method is used to read all bytes from a stream.
        int offSet = 0;
        int totalCount = 0;
        while (true) {
            int bytesRead = stream.Read(buffer, offSet, 100);
            if (bytesRead == 0) {
                break;
            }
            offSet += bytesRead;
            totalCount += bytesRead;
        }
        return totalCount;
    } //ReadAllBytesFromStream

    public static boolean CompareData(ubyte buf1[], int len1, 
        ubyte buf2[], int len2)
    {
        // Use this method to compare data from two different buffers.
        if (len1 != len2) {
            Console.WriteLine("Number of bytes in two buffer are "
                + "different {0}:{1}", System.Convert.ToString(len1), 
                System.Convert.ToString(len2));
            return false;
        }
        for (int i = 0; i < len1; i++) {
            if (!(buf1.get_Item(i).Equals(buf2.get_Item(i)))) {
                Console.WriteLine("byte {0} is different {1}|{2}", 
                    System.Convert.ToString(i), 
                    System.Convert.ToString(buf1.get_Item(i)), 
                    System.Convert.ToString(buf2.get_Item(i)));
                return false;
            }
        }
        Console.WriteLine("All bytes compare.");
        return true;
    } //CompareData

    public static void DeflateCompressDecompress(String fileName)
    {
        Console.WriteLine("Test compression and decompression on file {0}",
            fileName);
        FileStream inFile;
        try {
            // Open the file as a FileStream object.
            inFile = new FileStream(fileName, FileMode.Open, FileAccess.Read, 
                FileShare.Read);
            ubyte buffer[] = new ubyte[(ubyte)inFile.get_Length()];

            // Read the file to ensure it is readable.
            int count = inFile.Read(buffer, 0, buffer.length);
            if (count != buffer.length) {
                inFile.Close();
                Console.WriteLine("Test Failed: Unable to read data from file");
                return;
            }
            inFile.Close();
            MemoryStream ms = new MemoryStream();

            // Use the newly created memory stream for the compressed data.
            DeflateStream compressedZipStream = 
                new DeflateStream(ms, CompressionMode.Compress, true);
            Console.WriteLine("Compression");
            compressedZipStream.Write(buffer, 0, buffer.length);

            // Close the stream.
            compressedZipStream.Close();
            Console.WriteLine("Original size: {0}, Compressed size: {1}", 
                System.Convert.ToString(buffer.length), 
                System.Convert.ToString(ms.get_Length()));

            // Reset the memory stream position to begin decompression.
            ms.set_Position(0);
            DeflateStream zipStream = 
                new DeflateStream(ms, CompressionMode.Decompress);
            Console.WriteLine("Decompression");
            ubyte decompressedBuffer[] = new ubyte[buffer.length + 100];

            // Use the ReadAllBytesFromStream to read the stream.
            int totalCount = DeflateTest.ReadAllBytesFromStream(zipStream, 
                decompressedBuffer);
            Console.WriteLine("Decompressed {0} bytes", 
                System.Convert.ToString(totalCount));

            if (!(DeflateTest.CompareData(buffer, buffer.length, 
                decompressedBuffer, totalCount))) {
                Console.WriteLine("Error. The two buffers did not compare.");
            }
            zipStream.Close();
        } 
        catch (InvalidDataException exp) {
            Console.WriteLine("Error: The file being read contains"
                + " invalid data.");
        }
        catch (FileNotFoundException exp) {
            Console.WriteLine("Error:The file specified was not found.");
        }
        catch (ArgumentException exp) {
            Console.WriteLine("Error: path is a zero-length string, contains"
                + " only white space, or contains one or more "
                + "invalid characters");
        }
        catch (PathTooLongException exp) {
            Console.WriteLine("Error: The specified path, file name, or both"
                + " exceed the system-defined maximum length. For example, "
                + "on Windows-based platforms, paths must be less than 248 "
                + "characters, and file names must be less than 260 "
                + "characters.");
        }
        catch (DirectoryNotFoundException exp) {
            Console.WriteLine("Error: The specified path is invalid, such"
                + " as being on an unmapped drive.");
        }
        catch (IOException exp) {
            Console.WriteLine("Error: An I/O error occurred while "
                + "opening the file.");
        }
        catch (UnauthorizedAccessException exp) {
            Console.WriteLine("Error: path specified a file that is read-only,"
                + " the path is a directory, or caller does not have the"
                + " required permissions.");
        }
        catch (IndexOutOfRangeException exp) {
            Console.WriteLine("Error: You must provide parameters for MyGZIP.");
        }
    } //DeflateCompressDecompress

    public static void main(String[] args)
    {
        String usageText = "Usage: DeflateTest <inputfilename>";

        //If no file name is specified, write usage text.
        if (args.length == 0) {
            Console.WriteLine(usageText);
        }
        else {
            if (File.Exists(args[0])) {
                DeflateCompressDecompress(args[0]);
            }
        }
    } //main
} //DeflateTest

Windows 98, Windows Server 2000 SP4, Windows Millennium Edition, Windows Server 2003, Windows XP Media Center Edition, Windows XP Professional x64 Edition, Windows XP SP2, Windows XP Starter Edition

The Microsoft .NET Framework 3.0 is supported on Windows Vista, Microsoft Windows XP SP2, and Windows Server 2003 SP1.

.NET Framework

Supported in: 3.0, 2.0
Show: