com.zeroc.IceInternal.BZip2 Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of ice Show documentation
Show all versions of ice Show documentation
Ice is a comprehensive RPC framework that helps you build distributed applications with minimal effort using familiar object-oriented idioms
//
// Copyright (c) ZeroC, Inc. All rights reserved.
//
package com.zeroc.IceInternal;
public class BZip2
{
public static Buffer compress(Buffer buf, int headerSize, int compressionLevel)
{
assert(supported());
int uncompressedLen = buf.size() - headerSize;
int compressedLen = (int)(uncompressedLen * 1.01 + 600);
byte[] compressed = new byte[compressedLen];
byte[] data = null;
int offset = 0;
try
{
//
// If the ByteBuffer is backed by an array then we can avoid
// an extra copy by using the array directly.
//
data = buf.b.array();
offset = buf.b.arrayOffset();
}
catch(Exception ex)
{
//
// Otherwise, allocate an array to hold a copy of the uncompressed data.
//
data = new byte[buf.size()];
buf.position(0);
buf.b.get(data);
}
try
{
//
// Compress the data using the class org.apache.commons.compress.compressors.bzip2.BZip2CompressorOutputStream
// Its constructor requires an OutputStream argument, therefore we pass the
// compressed buffer in an OutputStream wrapper.
//
BufferedOutputStream bos = new BufferedOutputStream(compressed);
java.lang.Object[] args = new java.lang.Object[]{ bos, Integer.valueOf(compressionLevel) };
java.io.OutputStream os = (java.io.OutputStream)_bzOutputStreamCtor.newInstance(args);
os.write(data, offset + headerSize, uncompressedLen);
os.close();
compressedLen = bos.pos();
}
catch(Exception ex)
{
throw new com.zeroc.Ice.CompressionException("bzip2 compression failure", ex);
}
//
// Don't bother if the compressed data is larger than the
// uncompressed data.
//
if(compressedLen >= uncompressedLen)
{
return null;
}
Buffer r = new Buffer(false);
r.resize(headerSize + 4 + compressedLen, false);
r.position(0);
//
// Copy the header from the uncompressed stream to the compressed one.
//
r.b.put(data, offset, headerSize);
//
// Add the size of the uncompressed stream before the message body.
//
r.b.putInt(buf.size());
//
// Add the compressed message body.
//
r.b.put(compressed, 0, compressedLen);
return r;
}
public static Buffer uncompress(Buffer buf, int headerSize, int messageSizeMax)
{
assert(supported());
buf.position(headerSize);
int uncompressedSize = buf.b.getInt();
if(uncompressedSize <= headerSize)
{
throw new com.zeroc.Ice.IllegalMessageSizeException();
}
if(uncompressedSize > messageSizeMax)
{
Ex.throwMemoryLimitException(uncompressedSize, messageSizeMax);
}
int compressedLen = buf.size() - headerSize - 4;
byte[] compressed = null;
int offset = 0;
try
{
//
// If the ByteBuffer is backed by an array then we can avoid
// an extra copy by using the array directly.
//
compressed = buf.b.array();
offset = buf.b.arrayOffset();
}
catch(Exception ex)
{
//
// Otherwise, allocate an array to hold a copy of the compressed data.
//
compressed = new byte[buf.size()];
buf.position(0);
buf.b.get(compressed);
}
Buffer r = new Buffer(false);
r.resize(uncompressedSize, false);
try
{
//
// Uncompress the data using the class org.apache.commons.compress.compressors.bzip2.BZip2CompressorInputStream.
// Its constructor requires an InputStream argument, therefore we pass the
// compressed data in a ByteArrayInputStream.
//
java.io.ByteArrayInputStream bais =
new java.io.ByteArrayInputStream(compressed, offset + headerSize + 4, compressedLen);
java.lang.Object[] args = new java.lang.Object[]{ bais };
java.io.InputStream is = (java.io.InputStream)_bzInputStreamCtor.newInstance(args);
r.position(headerSize);
byte[] arr = new byte[8 * 1024];
int n;
while((n = is.read(arr)) != -1)
{
r.b.put(arr, 0, n);
}
is.close();
}
catch(Exception ex)
{
throw new com.zeroc.Ice.CompressionException("bzip2 uncompression failure", ex);
}
//
// Copy the header from the compressed stream to the uncompressed one.
//
r.position(0);
r.b.put(compressed, offset, headerSize);
return r;
}
private static boolean _checked = false;
private static java.lang.reflect.Constructor> _bzInputStreamCtor;
private static java.lang.reflect.Constructor> _bzOutputStreamCtor;
public synchronized static boolean supported()
{
//
// Use lazy initialization when determining whether support for bzip2 compression is available.
//
if(!_checked)
{
_checked = true;
try
{
Class> cls;
Class>[] types = new Class>[1];
cls = Util.findClass("org.apache.commons.compress.compressors.bzip2.BZip2CompressorInputStream", null);
if(cls != null)
{
types[0] = java.io.InputStream.class;
_bzInputStreamCtor = cls.getDeclaredConstructor(types);
}
cls = Util.findClass("org.apache.commons.compress.compressors.bzip2.BZip2CompressorOutputStream", null);
if(cls != null)
{
types = new Class>[2];
types[0] = java.io.OutputStream.class;
types[1] = Integer.TYPE;
_bzOutputStreamCtor = cls.getDeclaredConstructor(types);
}
}
catch(Exception ex)
{
// Ignore - bzip2 compression not available.
}
}
return _bzInputStreamCtor != null && _bzOutputStreamCtor != null;
}
private static class BufferedOutputStream extends java.io.OutputStream
{
BufferedOutputStream(byte[] data)
{
_data = data;
}
@Override
public void close()
throws java.io.IOException
{
}
@Override
public void flush()
throws java.io.IOException
{
}
@Override
public void write(byte[] b)
throws java.io.IOException
{
assert(_data.length - _pos >= b.length);
System.arraycopy(b, 0, _data, _pos, b.length);
_pos += b.length;
}
@Override
public void write(byte[] b, int off, int len)
throws java.io.IOException
{
assert(_data.length - _pos >= len);
System.arraycopy(b, off, _data, _pos, len);
_pos += len;
}
@Override
public void write(int b)
throws java.io.IOException
{
assert(_data.length - _pos >= 1);
_data[_pos] = (byte)b;
++_pos;
}
int
pos()
{
return _pos;
}
private byte[] _data;
private int _pos;
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy