mirror of
https://github.com/ptitSeb/Serious-Engine
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461 lines
17 KiB
C++
461 lines
17 KiB
C++
/* Copyright (c) 2002-2012 Croteam Ltd.
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This program is free software; you can redistribute it and/or modify
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it under the terms of version 2 of the GNU General Public License as published by
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the Free Software Foundation
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
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#include "stdh.h"
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#include <Engine/Base/Stream.h>
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#include <Engine/Network/Compression.h>
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#include <Engine/Base/Synchronization.h>
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#include <Engine/zlib/zlib.h>
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extern CTCriticalSection zip_csLock; // critical section for access to zlib functions
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/* Unpack from stream to stream. */
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void CCompressor::UnpackStream_t(CTMemoryStream &strmSrc, CTStream &strmDst) // throw char *
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{
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// read the header
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SLONG slSizeDst, slSizeSrc;
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strmSrc>>slSizeDst;
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strmSrc>>slSizeSrc;
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// get the buffer of source stream
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UBYTE *pubSrc = strmSrc.mstrm_pubBuffer + strmSrc.mstrm_slLocation;
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// allocate buffer for decompression
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UBYTE *pubDst = (UBYTE*)AllocMemory(slSizeDst);
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// compress there
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BOOL bOk = Unpack(pubSrc, slSizeSrc, pubDst, slSizeDst);
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// if failed
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if (!bOk) {
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// report error
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FreeMemory(pubDst);
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ThrowF_t(TRANS("Error while unpacking a stream."));
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}
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// write the uncompressed data to destination
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strmDst.Write_t(pubDst, slSizeDst);
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strmDst.SetPos_t(0);
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FreeMemory(pubDst);
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}
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void CCompressor::PackStream_t(CTMemoryStream &strmSrc, CTStream &strmDst) // throw char *
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{
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// get the buffer of source stream
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UBYTE *pubSrc = strmSrc.mstrm_pubBuffer + strmSrc.mstrm_slLocation;
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SLONG slSizeSrc = strmSrc.GetStreamSize();
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// allocate buffer for compression
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SLONG slSizeDst = NeededDestinationSize(slSizeSrc);
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UBYTE *pubDst = (UBYTE*)AllocMemory(slSizeDst);
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// compress there
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BOOL bOk = Pack(pubSrc, slSizeSrc, pubDst, slSizeDst);
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// if failed
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if (!bOk) {
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// report error
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FreeMemory(pubDst);
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ThrowF_t(TRANS("Error while packing a stream."));
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}
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// write the header to destination
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strmDst<<slSizeSrc;
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strmDst<<slSizeDst;
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// write the compressed data to destination
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strmDst.Write_t(pubDst, slSizeDst);
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FreeMemory(pubDst);
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}
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/////////////////////////////////////////////////////////////////////
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// RLE compressor
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/*
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RLE packed format(s):
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NOTE:
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In order to decompress packed data, size of original data must be known, it is not
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written in the packed data by the algorithms. Depending on the usage, data size may be
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included in the header by the called function. This generally saves even more space
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if smaller chunks of known size are compressed (e.g. small networks packets).
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Basic implemented packing format here is BYTE-BYTE. It packes data by bytes and uses bytes
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for packing codes. Other sized RLE formats can be implemented as needed (WORD-WORD,
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LONG-LONG, BYTE-WORD, WORD-BYTE etc.).
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Packed data is divided in sections, each section has a leading byte as code and compressed
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data following it. The data is interpreted differently, depending on the code.
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1) CODE<0 => REPLICATION
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If the code is negative, following data is one byte that is replicated given number of
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times:
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CODE DATA -> DATA DATA DATA ... DATA ((-CODE)+1 times)
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(note that it is not possible to encode just one byte this way, since one byte can be coded
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well with copying)
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(count = -code+1 => code = -count+1)
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2) CODE>=0 => COPYING
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If the code is positive, following data is given number of bytes that are just copied:
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CODE DAT0 DAT1 ... DATn -> DAT0 DAT1 ... DATn (n=CODE)
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(note that CODE=0 means copy next one byte)
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(count = code+1 => code = count-1)
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Packing algorithm used here relies on the destination buffer being big enough to
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hold packed data. Generally, for BYTE-BYTE packing, maximum buffer is 129/128 of
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original size (degenerate case with no data replication).
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*/
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/*
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* Calculate needed size for destination buffer when packing memory.
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*/
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SLONG CRLEBBCompressor::NeededDestinationSize(SLONG slSourceSize)
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{
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// calculate worst case possible for size of RLEBB packed data
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// *129/128+1 would be enough, but we add some more to ensure that we don't
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// overwrite the temporary buffer
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return slSourceSize*129/128 + 5;
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}
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// on entry, slDstSize holds maximum size of output buffer,
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// on exit, it is filled with resulting size
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/* Pack a chunk of data using given compression. */
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BOOL CRLEBBCompressor::Pack(const void *pvSrc, SLONG slSrcSize, void *pvDst, SLONG &slDstSize)
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{
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// cannot pack zero bytes
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ASSERT(slSrcSize>=1);
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// calculate limits for source and destination buffers
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const SBYTE *pbSourceFirst = (const SBYTE *)pvSrc; // start marker
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const SBYTE *pbSourceLimit = (const SBYTE *)pvSrc+slSrcSize; // end marker
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// SLONG slDestinationSize=NeededDestinationSize(slSrcSize);
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SBYTE *pbDestinationFirst = (SBYTE *)pvDst; // start marker
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SBYTE *pbDestinationLimit = (SBYTE *)pvDst+slDstSize; // end marker
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UBYTE *pbCountFirst = (UBYTE *)pbDestinationLimit-slSrcSize; // start marker
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UBYTE *pbCountLimit = (UBYTE *)pbDestinationLimit; // end marker
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{
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/* PASS 1: Use destination buffer to cache number of forward-same bytes. */
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// set the count of the last byte to one
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UBYTE *pbCount = pbCountLimit-1;
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*pbCount-- = 1;
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// for all bytes from one before last to the first one
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for(const SBYTE *pbSource = pbSourceLimit-2;
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pbSource>=pbSourceFirst;
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pbSource--, pbCount--) {
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// if the byte is same as its successor, and the count will fit in code
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if (pbSource[0]==pbSource[1] && (SLONG)pbCount[1]+1<=-(SLONG)MIN_SBYTE) {
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// set its count to the count of its successor plus one
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pbCount[0] = pbCount[1]+1;
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// if the byte is different than its successor
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} else {
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// set its count to one
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pbCount[0] = 1;
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}
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}
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}
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/* PASS 2: Pack bytes from source to the destination buffer. */
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// start at the beginning of the buffers
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const SBYTE *pbSource = pbSourceFirst;
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const UBYTE *pbCount = pbCountFirst;
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SBYTE *pbDestination = pbDestinationFirst;
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// while there is some data to pack
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while(pbSource<pbSourceLimit) {
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ASSERT(pbCount<pbCountLimit);
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// if current byte is replicated
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if (*pbCount>1) {
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// write the replicate-packed data
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INDEX ctSameBytes = (INDEX)*pbCount;
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SLONG slCode = -ctSameBytes+1;
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ASSERT((SLONG)MIN_SBYTE<=slCode && slCode<0);
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*pbDestination++ = (SBYTE)slCode;
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*pbDestination++ = pbSource[0];
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pbSource+=ctSameBytes;
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pbCount +=ctSameBytes;
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// if current byte is not replicated
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} else {
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// count bytes to copy before encountering byte replicated more than 3 times
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INDEX ctDiffBytes=1;
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while( (ctDiffBytes < (SLONG)MAX_SBYTE + 1)
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&& (&pbSource[ctDiffBytes]<pbSourceLimit) ) {
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if ((SLONG)pbCount[ctDiffBytes-1]<=3) {
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ctDiffBytes++;
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} else {
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break;
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}
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}
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// write the copy-packed data
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SLONG slCode = ctDiffBytes-1;
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ASSERT(0<=slCode && slCode<=(SLONG)MAX_SBYTE);
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*pbDestination++ = (SBYTE)slCode;
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memcpy(pbDestination, pbSource, ctDiffBytes);
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pbSource += ctDiffBytes;
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pbCount += ctDiffBytes;
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pbDestination += ctDiffBytes;
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}
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}
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// packing must exactly be finished now
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ASSERT(pbSource==pbSourceLimit);
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ASSERT(pbCount ==pbCountLimit);
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// calculate size of packed data
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slDstSize = pbDestination-pbDestinationFirst;
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return TRUE;
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}
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// on entry, slDstSize holds maximum size of output buffer,
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// on exit, it is filled with resulting size
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/* Unpack a chunk of data using given compression. */
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BOOL CRLEBBCompressor::Unpack(const void *pvSrc, SLONG slSrcSize, void *pvDst, SLONG &slDstSize)
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{
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const SBYTE *pbSource = (const SBYTE *)pvSrc; // current pointer
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const SBYTE *pbSourceLimit = (const SBYTE *)pvSrc+slSrcSize; // end marker
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SBYTE *pbDestination = (SBYTE *)pvDst; // current pointer
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SBYTE *pbDestinationFirst = (SBYTE *)pvDst; // start marker
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// repeat
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do {
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// get code
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SLONG slCode = *pbSource++;
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// if it is replication
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if (slCode<0) {
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// get next byte and replicate it given number of times
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INDEX ctSameBytes = -slCode+1;
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memset(pbDestination, *pbSource++, ctSameBytes);
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pbDestination += ctSameBytes;
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// if it is copying
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} else {
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// copy given number of next bytes
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INDEX ctCopyBytes = slCode+1;
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memcpy(pbDestination, pbSource, ctCopyBytes);
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pbSource += ctCopyBytes;
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pbDestination += ctCopyBytes;
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}
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// until all data is unpacked
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} while (pbSource<pbSourceLimit);
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// data must be unpacked correctly
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ASSERT(pbSource==pbSourceLimit);
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// calculate size of data that was unpacked
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slDstSize = pbDestination-pbDestinationFirst;
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return TRUE;
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}
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/////////////////////////////////////////////////////////////////////
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// LZRW1 compressor
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// uses algorithm by Ross Williams
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//#define TRUE 1
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//#define UBYTE unsigned char /* Unsigned byte (1 byte ) */
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//#define UWORD unsigned int /* Unsigned word (2 bytes) */
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//#define ULONG unsigned long /* Unsigned longword (4 bytes) */
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#define FLAG_BYTES 1 /* Number of bytes used by copy flag. */
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#define FLAG_COMPRESS 0 /* Signals that compression occurred. */
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#define FLAG_COPY 1 /* Signals that a copyover occurred. */
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//void fast_copy(p_src,p_dst,len) /* Fast copy routine. */
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//UBYTE *p_src,*p_dst; {while (len--) *p_dst++=*p_src++;}
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inline void fast_copy(const UBYTE *p_src, UBYTE *p_dst, SLONG len)
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{
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memcpy(p_dst, p_src, len);
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}
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/******************************************************************************/
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void lzrw1_compress(const UBYTE *p_src_first, ULONG src_len,UBYTE *p_dst_first, ULONG *p_dst_len)
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/* Input : Specify input block using p_src_first and src_len. */
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/* Input : Point p_dst_first to the start of the output zone (OZ). */
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/* Input : Point p_dst_len to a ULONG to receive the output length. */
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/* Input : Input block and output zone must not overlap. */
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/* Output : Length of output block written to *p_dst_len. */
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/* Output : Output block in Mem[p_dst_first..p_dst_first+*p_dst_len-1]. */
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/* Output : May write in OZ=Mem[p_dst_first..p_dst_first+src_len+256-1].*/
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/* Output : Upon completion guaranteed *p_dst_len<=src_len+FLAG_BYTES. */
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#define PS *p++!=*s++ /* Body of inner unrolled matching loop. */
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#define ITEMMAX 16 /* Maximum number of bytes in an expanded item. */
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{const UBYTE *p_src=p_src_first;
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UBYTE *p_dst=p_dst_first;
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const UBYTE *p_src_post=p_src_first+src_len;
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UBYTE *p_dst_post=p_dst_first+src_len;
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const UBYTE *p_src_max1=p_src_post-ITEMMAX,*p_src_max16=p_src_post-16*ITEMMAX;
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const UBYTE *hash[4096];
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UBYTE *p_control; UWORD control=0,control_bits=0;
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*p_dst=FLAG_COMPRESS; p_dst+=FLAG_BYTES; p_control=p_dst; p_dst+=2;
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while (TRUE)
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{const UBYTE *p,*s; UWORD unroll=16,len,index; ULONG offset;
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if (p_dst>p_dst_post) goto overrun;
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if (p_src>p_src_max16)
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{unroll=1;
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if (p_src>p_src_max1)
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{if (p_src==p_src_post) break; goto literal;}}
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begin_unrolled_loop:
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index=((40543*((((p_src[0]<<4)^p_src[1])<<4)^p_src[2]))>>4) & 0xFFF;
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p=hash[index];
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hash[index]=s=p_src;
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offset=s-p;
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if (offset>4095 || p<p_src_first || offset==0 || PS || PS || PS)
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{literal: *p_dst++=*p_src++; control>>=1; control_bits++;}
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else
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{PS || PS || PS || PS || PS || PS || PS ||
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PS || PS || PS || PS || PS || PS || s++; len=s-p_src-1;
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*p_dst++=(UBYTE)(((offset&0xF00)>>4)+(len-1)); *p_dst++=(UBYTE)(offset&0xFF);
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p_src+=len; control=(control>>1)|0x8000; control_bits++;}
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/*end_unrolled_loop:*/ if (--unroll) goto begin_unrolled_loop;
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if (control_bits==16)
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{*p_control=control&0xFF; *(p_control+1)=control>>8;
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p_control=p_dst; p_dst+=2; control=control_bits=0;}
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}
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control>>=16-control_bits;
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*p_control++=control&0xFF; *p_control++=control>>8;
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if (p_control==p_dst) p_dst-=2;
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*p_dst_len=(p_dst-p_dst_first);
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return;
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overrun: fast_copy(p_src_first,p_dst_first+FLAG_BYTES,src_len);
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*p_dst_first=FLAG_COPY; *p_dst_len=src_len+FLAG_BYTES;
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}
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/******************************************************************************/
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void lzrw1_decompress(const UBYTE *p_src_first, ULONG src_len, UBYTE *p_dst_first, ULONG *p_dst_len)
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/* Input : Specify input block using p_src_first and src_len. */
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/* Input : Point p_dst_first to the start of the output zone. */
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/* Input : Point p_dst_len to a ULONG to receive the output length. */
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/* Input : Input block and output zone must not overlap. User knows */
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/* Input : upperbound on output block length from earlier compression. */
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/* Input : In any case, maximum expansion possible is eight times. */
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/* Output : Length of output block written to *p_dst_len. */
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/* Output : Output block in Mem[p_dst_first..p_dst_first+*p_dst_len-1]. */
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/* Output : Writes only in Mem[p_dst_first..p_dst_first+*p_dst_len-1]. */
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{UWORD controlbits=0, control;
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const UBYTE *p_src=p_src_first+FLAG_BYTES;
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UBYTE *p_dst=p_dst_first;
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const UBYTE *p_src_post=p_src_first+src_len;
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if (*p_src_first==FLAG_COPY)
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{fast_copy(p_src_first+FLAG_BYTES,p_dst_first,src_len-FLAG_BYTES);
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*p_dst_len=src_len-FLAG_BYTES; return;}
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while (p_src!=p_src_post)
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{if (controlbits==0)
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{control=*p_src++; control|=(*p_src++)<<8; controlbits=16;}
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if (control&1)
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{UWORD offset,len; UBYTE *p;
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offset=(*p_src&0xF0)<<4; len=1+(*p_src++&0xF);
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offset+=*p_src++&0xFF; p=p_dst-offset;
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while (len--) *p_dst++=*p++;}
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else
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*p_dst++=*p_src++;
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control>>=1; controlbits--;
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}
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*p_dst_len=p_dst-p_dst_first;
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}
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/*
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* Calculate needed size for destination buffer when packing memory.
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*/
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SLONG CLZCompressor::NeededDestinationSize(SLONG slSourceSize)
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{
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// calculate worst case possible for size of LZ packed data
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return slSourceSize+256;
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}
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// on entry, slDstSize holds maximum size of output buffer,
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// on exit, it is filled with resulting size
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/* Pack a chunk of data using given compression. */
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BOOL CLZCompressor::Pack(const void *pvSrc, SLONG slSrcSize, void *pvDst, SLONG &slDstSize)
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{
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// this is just wrapper for original function by Ross Williams
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SLONG slDestinationSizeResult = slDstSize;
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lzrw1_compress(
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(const UBYTE *)pvSrc, (ULONG)slSrcSize,
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(UBYTE *)pvDst, (ULONG *)&slDestinationSizeResult);
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slDstSize = slDestinationSizeResult;
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return TRUE;
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}
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// on entry, slDstSize holds maximum size of output buffer,
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// on exit, it is filled with resulting size
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/* Unpack a chunk of data using given compression. */
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BOOL CLZCompressor::Unpack(const void *pvSrc, SLONG slSrcSize, void *pvDst, SLONG &slDstSize)
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{
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// this is just wrapper for original function by Ross Williams
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SLONG slDestinationSizeResult = slDstSize;
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lzrw1_decompress(
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(const UBYTE *)pvSrc, (ULONG)slSrcSize,
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(UBYTE *)pvDst, (ULONG *)&slDestinationSizeResult);
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slDstSize = slDestinationSizeResult;
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return TRUE;
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}
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/* Calculate needed size for destination buffer when packing memory. */
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SLONG CzlibCompressor::NeededDestinationSize(SLONG slSourceSize)
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{
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// calculate worst case possible for size of zlib packed data
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// NOTE: zlib docs state 0.1% of uncompressed size + 12 bytes,
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// we just want to be on the safe side
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return SLONG(slSourceSize*1.1f)+32;
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}
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// on entry, slDstSize holds maximum size of output buffer,
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// on exit, it is filled with resulting size
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/* Pack a chunk of data using given compression. */
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BOOL CzlibCompressor::Pack(const void *pvSrc, SLONG slSrcSize, void *pvDst, SLONG &slDstSize)
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{
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/*
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int ZEXPORT compress (dest, destLen, source, sourceLen)
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Bytef *dest;
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uLongf *destLen;
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const Bytef *source;
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uLong sourceLen;
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*/
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CTSingleLock slZip(&zip_csLock, TRUE);
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int iResult = compress(
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(UBYTE *)pvDst, (ULONG *)&slDstSize,
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(const UBYTE *)pvSrc, (ULONG)slSrcSize);
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if (iResult==Z_OK) {
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return TRUE;
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} else {
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return FALSE;
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}
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}
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// on entry, slDstSize holds maximum size of output buffer,
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// on exit, it is filled with resulting size
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/* Unpack a chunk of data using given compression. */
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BOOL CzlibCompressor::Unpack(const void *pvSrc, SLONG slSrcSize, void *pvDst, SLONG &slDstSize)
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{
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/*
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int ZEXPORT uncompress (dest, destLen, source, sourceLen)
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Bytef *dest;
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uLongf *destLen;
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const Bytef *source;
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uLong sourceLen;
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*/
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CTSingleLock slZip(&zip_csLock, TRUE);
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int iResult = uncompress(
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(UBYTE *)pvDst, (ULONG *)&slDstSize,
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(const UBYTE *)pvSrc, (ULONG)slSrcSize);
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if (iResult==Z_OK) {
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return TRUE;
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} else {
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return FALSE;
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}
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}
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