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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;
import java.io.*;
//
// Class to provide a java.io.OutputStream on top of our stream.
// We use this to serialize arbitrary Java serializable classes into
//
// Slice sequences are encoded on the wire as a count of elements, followed
// by the sequence contents. For arbitrary Java classes, we do not know how
// big the sequence that is eventually written will be. To avoid excessive
// data copying, this class mantains a private _bytes array of 254 bytes and,
// initially, writes data into that array. If more than 254 bytes end up being
// written, we write a dummy sequence size of 255 (which occupies five bytes
// on the wire) into the stream and, once this stream is closed, patch
// that size to match the actual size. Otherwise, if the _bytes buffer contains
// fewer than 255 bytes when this stream is closed, we write the sequence size
// as a single byte, followed by the contents of the _bytes buffer.
//
public class OutputStreamWrapper extends java.io.OutputStream
{
public
OutputStreamWrapper(com.zeroc.Ice.OutputStream s)
{
_s = s;
_spos = s.pos();
_bytes = new byte[254];
_pos = 0;
}
@Override
public void
write(int b) throws IOException
{
try
{
if(_bytes != null)
{
//
// If we can fit the data into the first 254 bytes, write it to _bytes.
//
if(_pos < _bytes.length)
{
_bytes[_pos++] = (byte)b;
return;
}
_s.writeSize(255); // Dummy size, until we know how big the stream
// really is and can patch the size.
if(_pos > 0)
{
//
// Write the current contents of _bytes.
//
_s.expand(_pos);
_s.getBuffer().b.put(_bytes, 0, _pos);
}
_bytes = null;
}
//
// Write data passed by caller.
//
_s.expand(1);
_s.getBuffer().b.put((byte)b);
_pos += 1;
}
catch(java.lang.Exception ex)
{
throw new IOException(ex.toString());
}
}
@Override
public void
write(byte[] b) throws IOException
{
write(b, 0, b.length);
}
@Override
public void
write(byte[] bytes, int offset, int count) throws IOException
{
try
{
if(_bytes != null)
{
//
// If we can fit the data into the first 254 bytes, write it to _bytes.
//
if(count <= _bytes.length - _pos)
{
System.arraycopy(bytes, offset, _bytes, _pos, count);
_pos += count;
return;
}
_s.writeSize(255); // Dummy size, until we know how big the stream
// really is and can patch the size.
if(_pos > 0)
{
//
// Write the current contents of _bytes.
//
_s.expand(_pos);
_s.getBuffer().b.put(_bytes, 0, _pos);
}
_bytes = null;
}
//
// Write data passed by caller.
//
_s.expand(count);
_s.getBuffer().b.put(bytes, offset, count);
_pos += count;
}
catch(java.lang.Exception ex)
{
throw new IOException(ex.toString());
}
}
@Override
public void
flush() throws IOException
{
// This does nothing because we do not know the final size of a writable stream until it is closed,
// and we cannot write to the stream until we know whether the final size is < 255 or not.
}
@Override
public void
close() throws IOException
{
try
{
if(_bytes != null)
{
assert(_pos <= _bytes.length);
_s.pos(_spos);
_s.writeSize(_pos);
_s.expand(_pos);
_s.getBuffer().b.put(_bytes, 0, _pos);
_bytes = null;
}
else
{
int currentPos = _s.pos();
_s.pos(_spos);
_s.writeSize(_pos); // Patch previously-written dummy value.
_s.pos(currentPos);
}
}
catch(java.lang.Exception ex)
{
throw new IOException(ex.toString());
}
}
private com.zeroc.Ice.OutputStream _s;
private int _spos;
private byte[] _bytes;
private int _pos;
}
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