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vgm_dbcompr_bench.c
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vgm_dbcompr_bench.c
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#ifdef WIN32
#include <Windows.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include "common_def.h"
#include "vgm/dblk_compr.h"
INLINE UINT32 GetSysTimeMS(void);
static UINT8 DecompressDataBlk_Old(UINT32 OutDataLen, UINT8* OutData, UINT32 InDataLen, const UINT8* InData, const PCM_COMPR_TBL* comprTbl);
static void CompressDataBlk_Old(UINT32 outLen, UINT8* outData, UINT32 inLen, const UINT8* inData, PCM_CMP_INF* ComprTbl);
UINT16 DataBlkCompr_GetIntSize(void);
// ---- Benchmarks ----
// 256 MB of input data
// 8-bit version: decompressed from 3 -> 8 bits (fits into UINT8)
// 16-bit version: decompressed from 5 -> 12 bits (fits into UINT16)
// All algorithms were executed once for warm up, then 4x for benchmarking.
//
// FUINT8/FUINT16 bits
// Algorithm old 32/32 16/16 32/16 16/32 8/16
// -------- ---- ---- ---- ---- ---- ----
// MS VC 2010, 32-bit executable, compiled with /O2
// Decompression
// BitPack/copy 8 10148 5121 5105 5129 5105 4704!
// DPCM 8 8034 5792 5967 5788 5967 5511!
// BitPack/LUT 8 10795 5078 6470 5074 6463 4863!
// BitPack/copy 16 4750 3385! 5850 5631 3432 5515
// DPCM 16 4361 3674! 4146 3779 4103 4856
// BitPack/LUT 16 4832 3386 3732 3296! 3502 3401
// Compression
// BitPack/copy 8 20428 5924 5429! 5940 5433! 5441!
// BitPack/LUT 8 35834 15577 18022 13767! 17601 18826
// BitPack/copy 16 12652 3440! 3604 3787 3639 3748
// BitPack/LUT 16 23658 3744! 4006 4048 4017 4107
// GCC 4.8.3, 32-bit executable, compiled with -O2
// Decompression
// BitPack/copy 8 8779 6314 6154! 6388 6150! 6310
// DPCM 8 10035 8533 8249! 8502 8221! 8428
// BitPack/LUT 8 9239 6888 6735! 6888 6747! 6833
// BitPack/copy 16 6288 3510! 4056 4317 4041 4049
// DPCM 16 6560 5328 4446! 5371 4426! 5238
// BitPack/LUT 16 6560 4602 4193! 4637 4243 4349
// Compression
// BitPack/copy 8 18089 7188! 7769 7180! 8284 7968
// BitPack/LUT 8 28151 18026 17905! 18654 16848 17987
// BitPack/copy 16 11049 4326 4501 4025! 4965 4477
// BitPack/LUT 16 18428 4434! 4934 4918 4984 4778
typedef struct
{
UINT8 comprType;
UINT8 subType;
UINT8 bits;
UINT8 canCompr;
} BENCH_LIST;
#define BENCH_SIZE 256 // compressed data size in MB
#define BENCH_WARM_REP 1 // number of times for warm up
#define BENCH_REPEAT 4 // number of times the benchmark is repeated
static UINT32 dblk_benchTime;
#define BENCHLIST_COUNT 6
static BENCH_LIST benchList[BENCHLIST_COUNT] =
{
{0x00, 0x00, 8, 1}, // type 00 - bit packing, sub-type: 00 - copy
{0x01, 0x00, 8, 0}, // type 01 - DPCM, sub-type: ignored
{0x00, 0x02, 8, 1}, // type 00 - bit packing, sub-type: 02 - LUT
{0x00, 0x00, 16, 1}, // type 00 - bit packing, sub-type: 00 - copy
{0x01, 0x00, 16, 0}, // type 01 - DPCM, sub-type: ignored
{0x00, 0x02, 16, 1}, // type 00 - bit packing, sub-type: 02 - LUT
};
static const char* TEXT_COMPR[] = {"Bit-Packing", "DPCM"};
static const char* TEXT_CMP_BPK[] = {"copy", "shift", "LUT"};
static UINT8 verbosity = 0;
// write 00s (best-case scenario for BitPack/LUT)
//static UINT8 bytePattern = 0x00;
// write alternating bits (average-case scenario for BitPack/LUT)
static UINT8 bytePattern = 0xA5;
static void GenerateComprStr(char* buffer, UINT8 comprType, UINT8 subType, UINT8 bits)
{
const char** SUB_STRS = NULL;
if (comprType == 0x00)
SUB_STRS = TEXT_CMP_BPK;
if (SUB_STRS != NULL)
sprintf(buffer, "%s (%s/%u)", TEXT_COMPR[comprType], SUB_STRS[subType], bits);
else
sprintf(buffer, "%s (%u)", TEXT_COMPR[comprType], bits);
return;
}
int main(int argc, char* argv[])
{
UINT8 DPCMTbl[0x20] =
{
0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40,
0x80,-0x01,-0x02,-0x04,-0x08,-0x10,-0x20,-0x40,
0x00, 0x10, 0x20, 0x40, 0x80, 0x01, 0x02, 0x04,
0x80,-0x10,-0x20,-0x40,-0x80,-0x01,-0x02,-0x04
};
PCM_COMPR_TBL PCMTbl8 = {0x01, 0, 8, 3, 0x20, {DPCMTbl}};
PCM_COMPR_TBL PCMTbl16 = {0x01, 0, 12, 5, 0x20, {DPCMTbl}};
PCM_CDB_INF cdbInf8 = {0, 0, {0x00, 0x00, 8, 3, 0x00, &PCMTbl8}}; // 3 -> 8 bits
PCM_CDB_INF cdbInf16 = {0, 0, {0x00, 0x00, 12, 5, 0x00, &PCMTbl16}}; // 5 -> 12 bits
PCM_CMP_INF* cmpInf8 = &cdbInf8.cmprInfo;
PCM_CMP_INF* cmpInf16 = &cdbInf16.cmprInfo;
UINT16 bitsFU8;
UINT16 bitsFU16;
// DecompressDataBlk Benchmark
UINT32 dataLen;
UINT8* data;
UINT32 dataLenRaw;
UINT8* dataRaw;
UINT32 decLen;
UINT8* decData;
UINT32 repCntr;
UINT32 curBench;
UINT32 curBT;
// Bit 0 (01): 0 - old, 1 - new
// Bit 1 (02): 0 - decompress, 1 - compress
UINT32 benchTime[4 * BENCHLIST_COUNT]; // Bit Packing (copy)
BENCH_LIST* tempBL;
PCM_CDB_INF* tempCDB;
PCM_CMP_INF* tempCInf;
UINT32 startTime;
char comprStr[0x20];
/*{
UINT8 cmpTbl8[0x10] = {0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC, 0xFE, 0xFF};
UINT8 decTbl8[0x100];
UINT16 cmpTbl16[0x10] = {0x000, 0x040, 0x080, 0x0C0, 0x100, 0x140, 0x180, 0x1C0, 0x200, 0x300, 0x380, 0x3C0, 0x3E0, 0x3F0, 0x3F8, 0x400};
UINT16 decTbl16[0x400];
GenerateReverseLUT_8(0x100, decTbl8, 0x10, cmpTbl8);
GenerateReverseLUT_16(0x400, decTbl16, 0x10, cmpTbl16);
getchar();
return 0;
}*/
repCntr = DataBlkCompr_GetIntSize();
bitsFU8 = ((repCntr >> 0) & 0xFF) * 8;
bitsFU16 = ((repCntr >> 8) & 0xFF) * 8;
dataLenRaw = BENCH_SIZE * 1048576;
cdbInf8.decmpLen = BPACK_SIZE_DEC(dataLenRaw, cmpInf8->bitsCmp, cmpInf8->bitsDec);
cdbInf16.decmpLen = BPACK_SIZE_DEC(dataLenRaw, cmpInf16->bitsCmp, cmpInf16->bitsDec);
decLen = (cdbInf8.decmpLen < cdbInf16.decmpLen) ? cdbInf16.decmpLen : cdbInf8.decmpLen;
dataLen = 0x0A + dataLenRaw; // including VGM data block header
data = (UINT8*)malloc(dataLen);
dataRaw = &data[0x0A];
memset(data, 0x00, 0x0A);
memset(dataRaw, bytePattern, dataLenRaw);
decData = (UINT8*)malloc(decLen);
if (verbosity >= 1)
{
printf("FUINT8 = %u bits, FUINT16 = %u bits\n", bitsFU8, bitsFU16);
printf("Input Buffer size: %.2f MB, Output Buffer size: %.2f MB\n",
dataLenRaw / 1048576.0f, decLen / 1048576.0f);
}
for (repCntr = 0; repCntr < 4 * BENCHLIST_COUNT; repCntr ++)
benchTime[repCntr] = 0;
for (repCntr = 0; repCntr < BENCH_WARM_REP + BENCH_REPEAT; repCntr ++)
{
if (verbosity >= 1)
printf("---- Pass %u ----\n", 1 + repCntr);
for (curBench = 0; curBench < BENCHLIST_COUNT; curBench ++)
{
tempBL = &benchList[curBench];
curBT = curBench * 4;
if (verbosity >= 2)
{
GenerateComprStr(comprStr, tempBL->comprType, tempBL->subType, tempBL->bits);
printf("%s\n", comprStr);
}
tempCDB = (tempBL->bits <= 8) ? &cdbInf8 : &cdbInf16;
tempCInf = &tempCDB->cmprInfo;
tempCInf->comprType = tempBL->comprType;
tempCInf->subType = tempBL->subType;
// ---- decompression benchmark ----
WriteComprDataBlkHdr(dataLen, data, tempCDB);
DecompressDataBlk_Old(decLen, decData, dataLen, data, tempCInf->comprTbl);
if (repCntr >= BENCH_WARM_REP)
benchTime[curBT + 0x00] += dblk_benchTime;
if (verbosity >= 2)
printf("Decompression Time [old]: %u\n", dblk_benchTime);
startTime = GetSysTimeMS();
DecompressDataBlk(decLen, decData, dataLenRaw, dataRaw, tempCInf);
dblk_benchTime = GetSysTimeMS() - startTime;
if (verbosity >= 2)
printf("Decompression Time [new]: %u\n", dblk_benchTime);
if (repCntr >= BENCH_WARM_REP)
benchTime[curBT + 0x01] += dblk_benchTime;
if (tempBL->canCompr)
{
// ---- compression benchmark ----
CompressDataBlk_Old(dataLen, data, tempCDB->decmpLen, decData, tempCInf);
if (verbosity >= 2)
printf("Compression Time [old]: %u\n", dblk_benchTime);
if (repCntr >= BENCH_WARM_REP)
benchTime[curBT + 0x02] += dblk_benchTime;
startTime = GetSysTimeMS();
CompressDataBlk(dataLen, data, tempCDB->decmpLen, decData, tempCInf);
dblk_benchTime = GetSysTimeMS() - startTime;
if (verbosity >= 2)
printf("Compression Time [new]: %u\n", dblk_benchTime);
if (repCntr >= BENCH_WARM_REP)
benchTime[curBT + 0x03] += dblk_benchTime;
}
}
fflush(stdout);
}
free(data);
free(decData);
if (verbosity >= 1)
printf("\n");
for (repCntr = 0; repCntr < 4 * BENCHLIST_COUNT; repCntr ++)
benchTime[repCntr] = (benchTime[repCntr] + BENCH_REPEAT / 2) / BENCH_REPEAT;
printf("Average Times (decompression):\n");
for (curBench = 0; curBench < BENCHLIST_COUNT; curBench ++)
{
tempBL = &benchList[curBench];
curBT = curBench * 4;
GenerateComprStr(comprStr, tempBL->comprType, tempBL->subType, tempBL->bits);
printf("%u/%u\t%s: old %u, new %u\n", bitsFU8, bitsFU16, comprStr, benchTime[curBT + 0x00], benchTime[curBT + 0x01]);
}
printf("\nAverage Times (compression):\n");
for (curBench = 0; curBench < BENCHLIST_COUNT; curBench ++)
{
tempBL = &benchList[curBench];
if (! tempBL->canCompr)
continue;
curBT = curBench * 4;
GenerateComprStr(comprStr, tempBL->comprType, tempBL->subType, tempBL->bits);
printf("%u/%u\t%s: old %u, new %u\n", bitsFU8, bitsFU16, comprStr, benchTime[curBT + 0x02], benchTime[curBT + 0x03]);
}
printf("\n");
if (verbosity >= 1)
printf("Done.\n");
#if defined(_MSC_VER) && defined(_DEBUG)
getchar();
#endif
return 0;
}
INLINE UINT32 GetSysTimeMS(void)
{
#ifdef WIN32
return GetTickCount();
#else
return 0;
#endif
}
void compression_test(void)
{
PCM_CDB_INF cdbInf8 = {0, 0, {0x00, 0x01, 8, 4, 0x00, NULL}}; // 8 -> 4 bits
PCM_CDB_INF cdbInf16 = {0, 0, {0x00, 0x00, 12, 8, 0x180, NULL}}; // 12 -> 8 bits
PCM_CMP_INF* cmpInf8 = &cdbInf8.cmprInfo;
PCM_CMP_INF* cmpInf16 = &cdbInf16.cmprInfo;
UINT32 uncLen;
UINT8* uncData;
UINT32 cmpLen;
UINT8* cmpData;
FILE* hFile;
hFile = fopen("demofiles/32XSample_Celtic.raw", "rb");
fseek(hFile, 0, SEEK_END);
uncLen = ftell(hFile);
fseek(hFile, 0, SEEK_SET);
uncData = (UINT8*)malloc(uncLen);
fread(uncData, 1, uncLen, hFile);
fclose(hFile); hFile = NULL;
cmpLen = BPACK_SIZE_CMP(uncLen, cmpInf16->bitsCmp, cmpInf16->bitsDec) * 2;
cmpData = (UINT8*)malloc(cmpLen);
CompressDataBlk_Old(cmpLen, cmpData, uncLen, uncData, cmpInf16);
hFile = fopen("demofiles/32XSample_Celtic_old.cmp", "wb");
fwrite(cmpData, 1, cmpLen, hFile);
fclose(hFile); hFile = NULL;
free(cmpData);
cmpData = (UINT8*)malloc(cmpLen);
CompressDataBlk(cmpLen, cmpData, uncLen, uncData, cmpInf16);
hFile = fopen("demofiles/32XSample_Celtic_new.cmp", "wb");
fwrite(cmpData, 1, cmpLen, hFile);
fclose(hFile); hFile = NULL;
free(cmpData);
return;
}
#define FUINT8 unsigned int
#define FUINT16 unsigned int
INLINE UINT16 ReadLE16(const UINT8* Data)
{
// read 16-Bit Word (Little Endian/Intel Byte Order)
return (Data[0x01] << 8) | (Data[0x00] << 0);
}
INLINE UINT32 ReadLE32(const UINT8* Data)
{
// read 32-Bit Word (Little Endian/Intel Byte Order)
return (Data[0x03] << 24) | (Data[0x02] << 16) |
(Data[0x01] << 8) | (Data[0x00] << 0);
}
static UINT8 DecompressDataBlk_Old(UINT32 outLen, UINT8* outData, UINT32 inLen, const UINT8* inData, const PCM_COMPR_TBL* comprTbl)
{
UINT8 comprType;
UINT8 bitsDec;
FUINT8 bitsCmp;
UINT8 cmpSubType;
UINT16 addVal;
const UINT8* inPos;
const UINT8* inDataEnd;
UINT8* outPos;
const UINT8* outDataEnd;
FUINT16 inVal;
FUINT16 outVal;
FUINT8 valSize;
FUINT8 inShift;
FUINT8 outShift;
UINT8* ent1B;
UINT16* ent2B;
UINT32 Time;
// ReadBits Variables
FUINT8 bitsToRead;
FUINT8 bitReadVal;
FUINT8 inValB;
FUINT8 bitMask;
FUINT8 outBit;
// Variables for DPCM
UINT16 OutMask;
comprType = inData[0x00];
//*outLen = ReadLE32(&inData[0x01]);
//*retOutData = (UINT8*)realloc(*retOutData, *outLen);
//outData = *retOutData;
Time = GetSysTimeMS();
switch(comprType)
{
case 0x00: // Bit Packing compression
bitsDec = inData[0x05];
bitsCmp = inData[0x06];
cmpSubType = inData[0x07];
addVal = ReadLE16(&inData[0x08]);
ent1B = NULL;
ent2B = NULL;
if (cmpSubType == 0x02)
{
PCM_COMPR_TBL PCMTbl = *comprTbl;
ent1B = PCMTbl.values.d8; // Big Endian note: Those are stored in LE and converted when reading.
ent2B = PCMTbl.values.d16;
if (! PCMTbl.valueCount)
{
printf("Error loading table-compressed data block! No table loaded!\n");
return 0x10;
}
else if (bitsDec != PCMTbl.bitsDec || bitsCmp != PCMTbl.bitsCmp)
{
printf("Warning! Data block and loaded value table incompatible!\n");
return 0x11;
}
}
valSize = (bitsDec + 7) / 8;
inPos = inData + 0x0A;
inDataEnd = inData + inLen;
inShift = 0;
outShift = bitsDec - bitsCmp;
outDataEnd = outData + outLen;
outVal = 0x0000;
for (outPos = outData; outPos < outDataEnd && inPos < inDataEnd; outPos += valSize)
{
//inVal = ReadBits(inData, inPos, &inShift, bitsCmp);
// inlined - is 30% faster
outBit = 0x00;
inVal = 0x0000;
bitsToRead = bitsCmp;
while(bitsToRead)
{
bitReadVal = (bitsToRead >= 8) ? 8 : bitsToRead;
bitsToRead -= bitReadVal;
bitMask = (1 << bitReadVal) - 1;
inShift += bitReadVal;
inValB = (*inPos << inShift >> 8) & bitMask;
if (inShift >= 8)
{
inShift -= 8;
inPos ++;
if (inShift)
inValB |= (*inPos << inShift >> 8) & bitMask;
}
inVal |= inValB << outBit;
outBit += bitReadVal;
}
switch(cmpSubType)
{
case 0x00: // Copy
outVal = inVal + addVal;
break;
case 0x01: // Shift Left
outVal = (inVal << outShift) + addVal;
break;
case 0x02: // Table
switch(valSize)
{
case 0x01:
outVal = ent1B[inVal];
break;
case 0x02:
#ifdef VGM_LITTLE_ENDIAN
outVal = ent2B[inVal];
#else
outVal = ReadLE16((UINT8*)&ent2B[inVal]);
#endif
break;
}
break;
}
#ifdef VGM_LITTLE_ENDIAN
//memcpy(outPos, &outVal, valSize);
if (valSize == 0x01)
*((UINT8*)outPos) = (UINT8)outVal;
else //if (valSize == 0x02)
*((UINT16*)outPos) = (UINT16)outVal;
#else
if (valSize == 0x01)
{
*outPos = (UINT8)outVal;
}
else //if (valSize == 0x02)
{
// save explicitly in Little Endian
outPos[0x00] = (UINT8)((outVal & 0x00FF) >> 0);
outPos[0x01] = (UINT8)((outVal & 0xFF00) >> 8);
}
#endif
}
break;
case 0x01: // Delta-PCM
bitsDec = inData[0x05];
bitsCmp = inData[0x06];
outVal = ReadLE16(&inData[0x08]);
{
PCM_COMPR_TBL PCMTbl = *comprTbl;
ent1B = PCMTbl.values.d8;
ent2B = PCMTbl.values.d16;
if (! PCMTbl.valueCount)
{
printf("Error loading table-compressed data block! No table loaded!\n");
return 0x10;
}
else if (bitsDec != PCMTbl.bitsDec || bitsCmp != PCMTbl.bitsCmp)
{
printf("Warning! Data block and loaded value table incompatible!\n");
return 0x11;
}
}
valSize = (bitsDec + 7) / 8;
OutMask = (1 << bitsDec) - 1;
inPos = inData + 0x0A;
inDataEnd = inData + inLen;
inShift = 0;
outShift = bitsDec - bitsCmp;
outDataEnd = outData + outLen;
addVal = 0x0000;
for (outPos = outData; outPos < outDataEnd && inPos < inDataEnd; outPos += valSize)
{
//inVal = ReadBits(inData, inPos, &inShift, bitsCmp);
// inlined - is 30% faster
outBit = 0x00;
inVal = 0x0000;
bitsToRead = bitsCmp;
while(bitsToRead)
{
bitReadVal = (bitsToRead >= 8) ? 8 : bitsToRead;
bitsToRead -= bitReadVal;
bitMask = (1 << bitReadVal) - 1;
inShift += bitReadVal;
inValB = (*inPos << inShift >> 8) & bitMask;
if (inShift >= 8)
{
inShift -= 8;
inPos ++;
if (inShift)
inValB |= (*inPos << inShift >> 8) & bitMask;
}
inVal |= inValB << outBit;
outBit += bitReadVal;
}
switch(valSize)
{
case 0x01:
addVal = ent1B[inVal];
outVal += addVal;
outVal &= OutMask;
*((UINT8*)outPos) = (UINT8)outVal;
break;
case 0x02:
#ifdef VGM_LITTLE_ENDIAN
addVal = ent2B[inVal];
outVal += addVal;
outVal &= OutMask;
*((UINT16*)outPos) = (UINT16)outVal;
#else
addVal = ReadLE16((UINT8*)&ent2B[inVal]);
outVal += addVal;
outVal &= OutMask;
outPos[0x00] = (UINT8)((outVal & 0x00FF) >> 0);
outPos[0x01] = (UINT8)((outVal & 0xFF00) >> 8);
#endif
break;
}
}
break;
default:
printf("Error: Unknown data block compression!\n");
return 0x80;
}
dblk_benchTime = GetSysTimeMS() - Time;
return 0x00;
}
// Notes: writes outData[outLen] = 0x00 when finishing with 0 bits left
INLINE void WriteBits(UINT8* Data, UINT32* Pos, UINT8* BitPos, UINT16 Value, UINT8 BitsToWrite)
{
UINT8 BitWriteVal;
UINT32 OutPos;
UINT8 InVal;
UINT8 BitMask;
UINT8 OutShift;
UINT8 InBit;
OutPos = *Pos;
OutShift = *BitPos;
InBit = 0x00;
Data[OutPos] &= ~(0xFF >> OutShift);
while(BitsToWrite)
{
BitWriteVal = (BitsToWrite >= 8) ? 8 : BitsToWrite;
BitsToWrite -= BitWriteVal;
BitMask = (1 << BitWriteVal) - 1;
InVal = (Value >> InBit) & BitMask;
OutShift += BitWriteVal;
Data[OutPos] |= InVal << 8 >> OutShift;
if (OutShift >= 8)
{
OutShift -= 8;
OutPos ++;
Data[OutPos] = InVal << 8 >> OutShift;
}
InBit += BitWriteVal;
}
*Pos = OutPos;
*BitPos = OutShift;
return;
}
static void CompressDataBlk_Old(UINT32 outLen, UINT8* outData, UINT32 inLen, const UINT8* inData, PCM_CMP_INF* ComprTbl)
{
UINT8 valSize;
UINT32 CurPos;
UINT8* DstBuf;
UINT32 DstPos;
UINT16 SrcVal;
UINT16 DstVal = 0x0000;
UINT32 CurEnt = 0;
UINT16 BitMask;
UINT16 AddVal;
UINT8 BitShift;
const UINT8* Ent1B;
const UINT16* Ent2B;
UINT8 DstShift;
UINT32 Time;
valSize = (ComprTbl->bitsDec + 7) / 8;
DstBuf = outData;
BitMask = (1 << ComprTbl->bitsCmp) - 1;
AddVal = ComprTbl->baseVal;
BitShift = ComprTbl->bitsDec - ComprTbl->bitsCmp;
if (ComprTbl->comprTbl == NULL)
{
Ent1B = NULL;
Ent2B = NULL;
}
else
{
Ent1B = ComprTbl->comprTbl->values.d8;
Ent2B = ComprTbl->comprTbl->values.d16;
}
Time = GetSysTimeMS();
SrcVal = 0x0000; // must be initialized (else 8-bit values don't fill it completely)
DstPos = 0x00;
DstShift = 0;
for (CurPos = 0x00; CurPos < inLen; CurPos += valSize)
{
memcpy(&SrcVal, &inData[CurPos], valSize);
switch(ComprTbl->subType)
{
case 0x00: // Copy
DstVal = SrcVal - AddVal;
break;
case 0x01: // Shift Left
DstVal = (SrcVal - AddVal) >> BitShift;
break;
case 0x02: // Table
switch(valSize)
{
case 0x01:
for (CurEnt = 0x00; CurEnt < ComprTbl->comprTbl->valueCount; CurEnt ++)
{
if (SrcVal == Ent1B[CurEnt])
break;
}
break;
case 0x02:
for (CurEnt = 0x00; CurEnt < ComprTbl->comprTbl->valueCount; CurEnt ++)
{
if (SrcVal == Ent2B[CurEnt])
break;
}
break;
}
DstVal = (UINT16)CurEnt;
break;
}
WriteBits(DstBuf, &DstPos, &DstShift, DstVal, ComprTbl->bitsCmp);
}
if (DstShift)
DstPos ++;
dblk_benchTime = GetSysTimeMS() - Time;
return;
}