/* ********************************************************************** * Copyright (c) 2002-2005, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** ********************************************************************** */ /** * This Program tests the performance of ICU's Normalization engine against Windows * to run it use the command like * * c:\normperf.exe -s C:\work\ICUCupertinoRep\icu4c\collation-perf-data -i 10 -p 15 -f TestNames_Asian.txt -u -e UTF-8 -l */ #include "normperf.h" #include "uoptions.h" #include <stdio.h> #define LENGTHOF(array) (sizeof(array)/sizeof((array)[0])) UPerfFunction* NormalizerPerformanceTest::runIndexedTest(int32_t index, UBool exec,const char* &name, char* par) { switch (index) { TESTCASE(0,TestICU_NFC_NFD_Text); TESTCASE(1,TestICU_NFC_NFC_Text); TESTCASE(2,TestICU_NFC_Orig_Text); TESTCASE(3,TestICU_NFD_NFD_Text); TESTCASE(4,TestICU_NFD_NFC_Text); TESTCASE(5,TestICU_NFD_Orig_Text); TESTCASE(6,TestICU_FCD_NFD_Text); TESTCASE(7,TestICU_FCD_NFC_Text); TESTCASE(8,TestICU_FCD_Orig_Text); TESTCASE(9,TestWin_NFC_NFD_Text); TESTCASE(10,TestWin_NFC_NFC_Text); TESTCASE(11,TestWin_NFC_Orig_Text); TESTCASE(12,TestWin_NFD_NFD_Text); TESTCASE(13,TestWin_NFD_NFC_Text); TESTCASE(14,TestWin_NFD_Orig_Text); TESTCASE(15,TestQC_NFC_NFD_Text); TESTCASE(16,TestQC_NFC_NFC_Text); TESTCASE(17,TestQC_NFC_Orig_Text); TESTCASE(18,TestQC_NFD_NFD_Text); TESTCASE(19,TestQC_NFD_NFC_Text); TESTCASE(20,TestQC_NFD_Orig_Text); TESTCASE(21,TestQC_FCD_NFD_Text); TESTCASE(22,TestQC_FCD_NFC_Text); TESTCASE(23,TestQC_FCD_Orig_Text); TESTCASE(24,TestIsNormalized_NFC_NFD_Text); TESTCASE(25,TestIsNormalized_NFC_NFC_Text); TESTCASE(26,TestIsNormalized_NFC_Orig_Text); TESTCASE(27,TestIsNormalized_NFD_NFD_Text); TESTCASE(28,TestIsNormalized_NFD_NFC_Text); TESTCASE(29,TestIsNormalized_NFD_Orig_Text); TESTCASE(30,TestIsNormalized_FCD_NFD_Text); TESTCASE(31,TestIsNormalized_FCD_NFC_Text); TESTCASE(32,TestIsNormalized_FCD_Orig_Text); default: name = ""; return NULL; } return NULL; } void NormalizerPerformanceTest::normalizeInput(ULine* dest,const UChar* src ,int32_t srcLen,UNormalizationMode mode, int32_t options){ int32_t reqLen = 0; UErrorCode status = U_ZERO_ERROR; for(;;){ /* pure pre-flight */ reqLen=unorm_normalize(src,srcLen,mode, options,NULL,0,&status); if(status==U_BUFFER_OVERFLOW_ERROR){ status=U_ZERO_ERROR; dest->name = new UChar[reqLen+1]; reqLen= unorm_normalize(src,srcLen,mode, options,dest->name,reqLen+1,&status); dest->len=reqLen; break; }else if(U_FAILURE(status)){ printf("Could not normalize input. Error: %s", u_errorName(status)); } } } UChar* NormalizerPerformanceTest::normalizeInput(int32_t& len, const UChar* src ,int32_t srcLen,UNormalizationMode mode, int32_t options){ int32_t reqLen = 0; UErrorCode status = U_ZERO_ERROR; UChar* dest = NULL; for(;;){ /* pure pre-flight */ reqLen=unorm_normalize(src,srcLen,mode, options,NULL,0,&status); if(status==U_BUFFER_OVERFLOW_ERROR){ status=U_ZERO_ERROR; dest = new UChar[reqLen+1]; reqLen= unorm_normalize(src,srcLen,mode, options,dest,reqLen+1,&status); len=reqLen; break; }else if(U_FAILURE(status)){ printf("Could not normalize input. Error: %s", u_errorName(status)); return NULL; } } return dest; } static UOption cmdLineOptions[]={ UOPTION_DEF("options", 'o', UOPT_OPTIONAL_ARG) }; NormalizerPerformanceTest::NormalizerPerformanceTest(int32_t argc, const char* argv[], UErrorCode& status) : UPerfTest(argc,argv,status), options(0) { NFDBuffer = NULL; NFCBuffer = NULL; NFDBufferLen = 0; NFCBufferLen = 0; NFDFileLines = NULL; NFCFileLines = NULL; if(status== U_ILLEGAL_ARGUMENT_ERROR){ fprintf(stderr,gUsageString, "normperf"); return; } if(U_FAILURE(status)){ fprintf(stderr, "FAILED to create UPerfTest object. Error: %s\n", u_errorName(status)); return; } _remainingArgc = u_parseArgs(_remainingArgc, (char **)argv, (int32_t)(LENGTHOF(cmdLineOptions)), cmdLineOptions); if(cmdLineOptions[0].doesOccur && cmdLineOptions[0].value!=NULL) { options=(int32_t)strtol(cmdLineOptions[0].value, NULL, 16); } if(line_mode){ ULine* filelines = getLines(status); if(U_FAILURE(status)){ fprintf(stderr, "FAILED to read lines from file and create UPerfTest object. Error: %s\n", u_errorName(status)); return; } NFDFileLines = new ULine[numLines]; NFCFileLines = new ULine[numLines]; for(int32_t i=0;i<numLines;i++){ normalizeInput(&NFDFileLines[i],filelines[i].name,filelines[i].len,UNORM_NFD, options); normalizeInput(&NFCFileLines[i],filelines[i].name,filelines[i].len,UNORM_NFC, options); } }else if(bulk_mode){ int32_t srcLen = 0; const UChar* src = getBuffer(srcLen,status); NFDBufferLen = 0; NFCBufferLen = 0; if(U_FAILURE(status)){ fprintf(stderr, "FAILED to read buffer from file and create UPerfTest object. Error: %s\n", u_errorName(status)); return; } NFDBuffer = normalizeInput(NFDBufferLen,src,srcLen,UNORM_NFD, options); NFCBuffer = normalizeInput(NFCBufferLen,src,srcLen,UNORM_NFC, options); } } NormalizerPerformanceTest::~NormalizerPerformanceTest(){ delete[] NFDFileLines; delete[] NFCFileLines; delete[] NFDBuffer; delete[] NFCBuffer; } // Test NFC Performance UPerfFunction* NormalizerPerformanceTest::TestICU_NFC_NFD_Text(){ if(line_mode){ NormPerfFunction* func= new NormPerfFunction(ICUNormNFC, options,NFDFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func= new NormPerfFunction(ICUNormNFC, options,NFDBuffer, NFDBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestICU_NFC_NFC_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormNFC, options,NFCFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func= new NormPerfFunction(ICUNormNFC, options,NFCBuffer, NFCBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestICU_NFC_Orig_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormNFC, options,lines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormNFC, options,buffer, bufferLen, uselen); return func; } } // Test NFD Performance UPerfFunction* NormalizerPerformanceTest::TestICU_NFD_NFD_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormNFD, options,NFDFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormNFD, options,NFDBuffer,NFDBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestICU_NFD_NFC_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormNFD, options,NFCFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormNFD, options,NFCBuffer,NFCBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestICU_NFD_Orig_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormNFD, options,lines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormNFD, options,buffer,bufferLen, uselen); return func; } } // Test FCD Performance UPerfFunction* NormalizerPerformanceTest::TestICU_FCD_NFD_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormFCD, options,NFDFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormFCD, options,NFDBuffer,NFDBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestICU_FCD_NFC_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormFCD, options,NFCFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormFCD, options,NFCBuffer,NFCBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestICU_FCD_Orig_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(ICUNormFCD, options,lines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(ICUNormFCD, options,buffer,bufferLen, uselen); return func; } } // Test Win NFC Performance UPerfFunction* NormalizerPerformanceTest::TestWin_NFC_NFD_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(WinNormNFC, options,NFDFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(WinNormNFC, options,NFDBuffer,NFDBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestWin_NFC_NFC_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(WinNormNFC, options,NFCFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(WinNormNFC, options,NFCBuffer,NFCBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestWin_NFC_Orig_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(WinNormNFC, options,lines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(WinNormNFC, options,buffer,bufferLen, uselen); return func; } } // Test Win NFD Performance UPerfFunction* NormalizerPerformanceTest::TestWin_NFD_NFD_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(WinNormNFD, options,NFDFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(WinNormNFD, options,NFDBuffer,NFDBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestWin_NFD_NFC_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(WinNormNFD, options,NFCFileLines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(WinNormNFD, options,NFCBuffer,NFCBufferLen, uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestWin_NFD_Orig_Text(){ if(line_mode){ NormPerfFunction* func = new NormPerfFunction(WinNormNFD, options,lines,numLines, uselen); return func; }else{ NormPerfFunction* func = new NormPerfFunction(WinNormNFD, options,buffer,bufferLen, uselen); return func; } } // Test Quick Check Performance UPerfFunction* NormalizerPerformanceTest::TestQC_NFC_NFD_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFDFileLines, numLines, UNORM_NFC, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFDBuffer, NFDBufferLen, UNORM_NFC, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_NFC_NFC_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFCFileLines, numLines, UNORM_NFC, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFCBuffer, NFCBufferLen, UNORM_NFC, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_NFC_Orig_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,lines, numLines, UNORM_NFC, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,buffer, bufferLen, UNORM_NFC, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_NFD_NFD_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFDFileLines, numLines, UNORM_NFD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFDBuffer, NFDBufferLen, UNORM_NFD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_NFD_NFC_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFCFileLines, numLines, UNORM_NFD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFCBuffer, NFCBufferLen, UNORM_NFD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_NFD_Orig_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,lines, numLines, UNORM_NFD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,buffer, bufferLen, UNORM_NFD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_FCD_NFD_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFDFileLines, numLines, UNORM_FCD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFDBuffer, NFDBufferLen, UNORM_FCD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_FCD_NFC_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFCFileLines, numLines, UNORM_FCD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,NFCBuffer, NFCBufferLen, UNORM_FCD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestQC_FCD_Orig_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,lines, numLines, UNORM_FCD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUQuickCheck,buffer, bufferLen, UNORM_FCD, options,uselen); return func; } } // Test isNormalized Performance UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_NFC_NFD_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFDFileLines, numLines, UNORM_NFC, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFDBuffer, NFDBufferLen, UNORM_NFC, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_NFC_NFC_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFCFileLines, numLines, UNORM_NFC, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFCBuffer, NFCBufferLen, UNORM_NFC, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_NFC_Orig_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,lines, numLines, UNORM_NFC, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,buffer, bufferLen, UNORM_NFC, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_NFD_NFD_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFDFileLines, numLines, UNORM_NFD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFDBuffer, NFDBufferLen, UNORM_NFD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_NFD_NFC_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFCFileLines, numLines, UNORM_NFD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFCBuffer, NFCBufferLen, UNORM_NFD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_NFD_Orig_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,lines, numLines, UNORM_NFD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,buffer, bufferLen, UNORM_NFD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_FCD_NFD_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFDFileLines, numLines, UNORM_FCD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFDBuffer, NFDBufferLen, UNORM_FCD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_FCD_NFC_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFCFileLines, numLines, UNORM_FCD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,NFCBuffer, NFCBufferLen, UNORM_FCD, options,uselen); return func; } } UPerfFunction* NormalizerPerformanceTest::TestIsNormalized_FCD_Orig_Text(){ if(line_mode){ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,lines, numLines, UNORM_FCD, options,uselen); return func; }else{ QuickCheckPerfFunction* func = new QuickCheckPerfFunction(ICUIsNormalized,buffer, bufferLen, UNORM_FCD, options,uselen); return func; } } int main(int argc, const char* argv[]){ UErrorCode status = U_ZERO_ERROR; NormalizerPerformanceTest test(argc, argv, status); if(U_FAILURE(status)){ return status; } if(test.run()==FALSE){ fprintf(stderr,"FAILED: Tests could not be run please check the arguments.\n"); return -1; } return 0; }