#include #include #include #include "zlib.h" void MyDoMinus64(LARGE_INTEGER *R,LARGE_INTEGER A,LARGE_INTEGER B) { R->HighPart = A.HighPart - B.HighPart; if (A.LowPart >= B.LowPart) R->LowPart = A.LowPart - B.LowPart; else { R->LowPart = A.LowPart - B.LowPart; R->HighPart --; } } #ifdef _M_X64 // see http://msdn2.microsoft.com/library/twchhe95(en-us,vs.80).aspx for __rdtsc unsigned __int64 __rdtsc(void); void BeginCountRdtsc(LARGE_INTEGER * pbeginTime64) { // printf("rdtsc = %I64x\n",__rdtsc()); pbeginTime64->QuadPart=__rdtsc(); } LARGE_INTEGER GetResRdtsc(LARGE_INTEGER beginTime64,BOOL fComputeTimeQueryPerf) { LARGE_INTEGER LIres; unsigned _int64 res=__rdtsc()-((unsigned _int64)(beginTime64.QuadPart)); LIres.QuadPart=res; // printf("rdtsc = %I64x\n",__rdtsc()); return LIres; } #else #ifdef _M_IX86 void myGetRDTSC32(LARGE_INTEGER * pbeginTime64) { DWORD dwEdx,dwEax; _asm { rdtsc mov dwEax,eax mov dwEdx,edx } pbeginTime64->LowPart=dwEax; pbeginTime64->HighPart=dwEdx; } void BeginCountRdtsc(LARGE_INTEGER * pbeginTime64) { myGetRDTSC32(pbeginTime64); } LARGE_INTEGER GetResRdtsc(LARGE_INTEGER beginTime64,BOOL fComputeTimeQueryPerf) { LARGE_INTEGER LIres,endTime64; myGetRDTSC32(&endTime64); LIres.LowPart=LIres.HighPart=0; MyDoMinus64(&LIres,endTime64,beginTime64); return LIres; } #else void myGetRDTSC32(LARGE_INTEGER * pbeginTime64) { } void BeginCountRdtsc(LARGE_INTEGER * pbeginTime64) { } LARGE_INTEGER GetResRdtsc(LARGE_INTEGER beginTime64,BOOL fComputeTimeQueryPerf) { LARGE_INTEGER lr; lr.QuadPart=0; return lr; } #endif #endif void BeginCountPerfCounter(LARGE_INTEGER * pbeginTime64,BOOL fComputeTimeQueryPerf) { if ((!fComputeTimeQueryPerf) || (!QueryPerformanceCounter(pbeginTime64))) { pbeginTime64->LowPart = GetTickCount(); pbeginTime64->HighPart = 0; } } DWORD GetMsecSincePerfCounter(LARGE_INTEGER beginTime64,BOOL fComputeTimeQueryPerf) { LARGE_INTEGER endTime64,ticksPerSecond,ticks; DWORDLONG ticksShifted,tickSecShifted; DWORD dwLog=16+0; DWORD dwRet; if ((!fComputeTimeQueryPerf) || (!QueryPerformanceCounter(&endTime64))) dwRet = (GetTickCount() - beginTime64.LowPart)*1; else { MyDoMinus64(&ticks,endTime64,beginTime64); QueryPerformanceFrequency(&ticksPerSecond); { ticksShifted = Int64ShrlMod32(*(DWORDLONG*)&ticks,dwLog); tickSecShifted = Int64ShrlMod32(*(DWORDLONG*)&ticksPerSecond,dwLog); } dwRet = (DWORD)((((DWORD)ticksShifted)*1000)/(DWORD)(tickSecShifted)); dwRet *=1; } return dwRet; } int ReadFileMemory(const char* filename,long* plFileSize,unsigned char** pFilePtr) { FILE* stream; unsigned char* ptr; int retVal=1; stream=fopen(filename, "rb"); if (stream==NULL) return 0; fseek(stream,0,SEEK_END); *plFileSize=ftell(stream); fseek(stream,0,SEEK_SET); ptr=malloc((*plFileSize)+1); if (ptr==NULL) retVal=0; else { if (fread(ptr, 1, *plFileSize,stream) != (*plFileSize)) retVal=0; } fclose(stream); *pFilePtr=ptr; return retVal; } int main(int argc, char *argv[]) { int BlockSizeCompress=0x8000; int BlockSizeUncompress=0x8000; int cprLevel=Z_DEFAULT_COMPRESSION ; long lFileSize; unsigned char* FilePtr; long lBufferSizeCpr; long lBufferSizeUncpr; long lCompressedSize=0; unsigned char* CprPtr; unsigned char* UncprPtr; long lSizeCpr,lSizeUncpr; DWORD dwGetTick,dwMsecQP; LARGE_INTEGER li_qp,li_rdtsc,dwResRdtsc; if (argc<=1) { printf("run TestZlib [BlockSizeCompress] [BlockSizeUncompress] [compres. level]\n"); return 0; } if (ReadFileMemory(argv[1],&lFileSize,&FilePtr)==0) { printf("error reading %s\n",argv[1]); return 1; } else printf("file %s read, %u bytes\n",argv[1],lFileSize); if (argc>=3) BlockSizeCompress=atol(argv[2]); if (argc>=4) BlockSizeUncompress=atol(argv[3]); if (argc>=5) cprLevel=(int)atol(argv[4]); lBufferSizeCpr = lFileSize + (lFileSize/0x10) + 0x200; lBufferSizeUncpr = lBufferSizeCpr; CprPtr=(unsigned char*)malloc(lBufferSizeCpr + BlockSizeCompress); BeginCountPerfCounter(&li_qp,TRUE); dwGetTick=GetTickCount(); BeginCountRdtsc(&li_rdtsc); { z_stream zcpr; int ret=Z_OK; long lOrigToDo = lFileSize; long lOrigDone = 0; int step=0; memset(&zcpr,0,sizeof(z_stream)); deflateInit(&zcpr,cprLevel); zcpr.next_in = FilePtr; zcpr.next_out = CprPtr; do { long all_read_before = zcpr.total_in; zcpr.avail_in = min(lOrigToDo,BlockSizeCompress); zcpr.avail_out = BlockSizeCompress; ret=deflate(&zcpr,(zcpr.avail_in==lOrigToDo) ? Z_FINISH : Z_SYNC_FLUSH); lOrigDone += (zcpr.total_in-all_read_before); lOrigToDo -= (zcpr.total_in-all_read_before); step++; } while (ret==Z_OK); lSizeCpr=zcpr.total_out; deflateEnd(&zcpr); dwGetTick=GetTickCount()-dwGetTick; dwMsecQP=GetMsecSincePerfCounter(li_qp,TRUE); dwResRdtsc=GetResRdtsc(li_rdtsc,TRUE); printf("total compress size = %u, in %u step\n",lSizeCpr,step); printf("time = %u msec = %f sec\n",dwGetTick,dwGetTick/(double)1000.); printf("defcpr time QP = %u msec = %f sec\n",dwMsecQP,dwMsecQP/(double)1000.); printf("defcpr result rdtsc = %I64x\n\n",dwResRdtsc.QuadPart); } CprPtr=(unsigned char*)realloc(CprPtr,lSizeCpr); UncprPtr=(unsigned char*)malloc(lBufferSizeUncpr + BlockSizeUncompress); BeginCountPerfCounter(&li_qp,TRUE); dwGetTick=GetTickCount(); BeginCountRdtsc(&li_rdtsc); { z_stream zcpr; int ret=Z_OK; long lOrigToDo = lSizeCpr; long lOrigDone = 0; int step=0; memset(&zcpr,0,sizeof(z_stream)); inflateInit(&zcpr); zcpr.next_in = CprPtr; zcpr.next_out = UncprPtr; do { long all_read_before = zcpr.total_in; zcpr.avail_in = min(lOrigToDo,BlockSizeUncompress); zcpr.avail_out = BlockSizeUncompress; ret=inflate(&zcpr,Z_SYNC_FLUSH); lOrigDone += (zcpr.total_in-all_read_before); lOrigToDo -= (zcpr.total_in-all_read_before); step++; } while (ret==Z_OK); lSizeUncpr=zcpr.total_out; inflateEnd(&zcpr); dwGetTick=GetTickCount()-dwGetTick; dwMsecQP=GetMsecSincePerfCounter(li_qp,TRUE); dwResRdtsc=GetResRdtsc(li_rdtsc,TRUE); printf("total uncompress size = %u, in %u step\n",lSizeUncpr,step); printf("time = %u msec = %f sec\n",dwGetTick,dwGetTick/(double)1000.); printf("uncpr time QP = %u msec = %f sec\n",dwMsecQP,dwMsecQP/(double)1000.); printf("uncpr result rdtsc = %I64x\n\n",dwResRdtsc.QuadPart); } if (lSizeUncpr==lFileSize) { if (memcmp(FilePtr,UncprPtr,lFileSize)==0) printf("compare ok\n"); } return 0; }