/******************************************************************** * COPYRIGHT: * Copyright (c) 2002-2009, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ /* z/OS needs this definition for timeval */ #include "platform_xopen_source_extended.h" #include "unicode/uperf.h" #include "uoptions.h" #include "cmemory.h" #include #include #if !UCONFIG_NO_CONVERSION static const char delim = '/'; static int32_t execCount = 0; UPerfTest* UPerfTest::gTest = NULL; static const int MAXLINES = 40000; const char UPerfTest::gUsageString[] = "Usage: %s [OPTIONS] [FILES]\n" "\tReads the input file and prints out time taken in seconds\n" "Options:\n" "\t-h or -? or --help this usage text\n" "\t-v or --verbose print extra information when processing files\n" "\t-s or --sourcedir source directory for files followed by path\n" "\t followed by path\n" "\t-e or --encoding encoding of source files\n" "\t-u or --uselen perform timing analysis on non-null terminated buffer using length\n" "\t-f or --file-name file to be used as input data\n" "\t-p or --passes Number of passes to be performed. Requires Numeric argument.\n" "\t Cannot be used with --time\n" "\t-i or --iterations Number of iterations to be performed. Requires Numeric argument\n" "\t-t or --time Threshold time for looping until in seconds. Requires Numeric argument.\n" "\t Cannot be used with --iterations\n" "\t-l or --line-mode The data file should be processed in line mode\n" "\t-b or --bulk-mode The data file should be processed in file based.\n" "\t Cannot be used with --line-mode\n" "\t-L or --locale Locale for the test\n"; enum { HELP1, HELP2, VERBOSE, SOURCEDIR, ENCODING, USELEN, FILE_NAME, PASSES, ITERATIONS, TIME, LINE_MODE, BULK_MODE, LOCALE, OPTIONS_COUNT }; static UOption options[OPTIONS_COUNT+20]={ UOPTION_HELP_H, UOPTION_HELP_QUESTION_MARK, UOPTION_VERBOSE, UOPTION_SOURCEDIR, UOPTION_ENCODING, UOPTION_DEF( "uselen", 'u', UOPT_NO_ARG), UOPTION_DEF( "file-name", 'f', UOPT_REQUIRES_ARG), UOPTION_DEF( "passes", 'p', UOPT_REQUIRES_ARG), UOPTION_DEF( "iterations", 'i', UOPT_REQUIRES_ARG), UOPTION_DEF( "time", 't', UOPT_REQUIRES_ARG), UOPTION_DEF( "line-mode", 'l', UOPT_NO_ARG), UOPTION_DEF( "bulk-mode", 'b', UOPT_NO_ARG), UOPTION_DEF( "locale", 'L', UOPT_REQUIRES_ARG) }; UPerfTest::UPerfTest(int32_t argc, const char* argv[], UErrorCode& status) : _argc(argc), _argv(argv), _addUsage(NULL), ucharBuf(NULL), encoding(""), uselen(FALSE), fileName(NULL), sourceDir("."), lines(NULL), numLines(0), line_mode(TRUE), buffer(NULL), bufferLen(0), verbose(FALSE), bulk_mode(FALSE), passes(1), iterations(0), time(0), locale(NULL) { init(NULL, 0, status); } UPerfTest::UPerfTest(int32_t argc, const char* argv[], UOption addOptions[], int32_t addOptionsCount, const char *addUsage, UErrorCode& status) : _argc(argc), _argv(argv), _addUsage(addUsage), ucharBuf(NULL), encoding(""), uselen(FALSE), fileName(NULL), sourceDir("."), lines(NULL), numLines(0), line_mode(TRUE), buffer(NULL), bufferLen(0), verbose(FALSE), bulk_mode(FALSE), passes(1), iterations(0), time(0), locale(NULL) { init(addOptions, addOptionsCount, status); } void UPerfTest::init(UOption addOptions[], int32_t addOptionsCount, UErrorCode& status) { //initialize the argument list U_MAIN_INIT_ARGS(_argc, _argv); resolvedFileName = NULL; // add specific options int32_t optionsCount = OPTIONS_COUNT; if (addOptionsCount > 0) { memcpy(options+optionsCount, addOptions, addOptionsCount*sizeof(UOption)); optionsCount += addOptionsCount; } //parse the arguments _remainingArgc = u_parseArgs(_argc, (char**)_argv, optionsCount, options); // copy back values for additional options if (addOptionsCount > 0) { memcpy(addOptions, options+OPTIONS_COUNT, addOptionsCount*sizeof(UOption)); } // Now setup the arguments if(_argc==1 || options[HELP1].doesOccur || options[HELP2].doesOccur) { status = U_ILLEGAL_ARGUMENT_ERROR; return; } if(options[VERBOSE].doesOccur) { verbose = TRUE; } if(options[SOURCEDIR].doesOccur) { sourceDir = options[SOURCEDIR].value; } if(options[ENCODING].doesOccur) { encoding = options[ENCODING].value; } if(options[USELEN].doesOccur) { uselen = TRUE; } if(options[FILE_NAME].doesOccur){ fileName = options[FILE_NAME].value; } if(options[PASSES].doesOccur) { passes = atoi(options[PASSES].value); } if(options[ITERATIONS].doesOccur) { iterations = atoi(options[ITERATIONS].value); if(options[TIME].doesOccur) { status = U_ILLEGAL_ARGUMENT_ERROR; return; } } else if(options[TIME].doesOccur) { time = atoi(options[TIME].value); } else { iterations = 1000; // some default } if(options[LINE_MODE].doesOccur) { line_mode = TRUE; bulk_mode = FALSE; } if(options[BULK_MODE].doesOccur) { bulk_mode = TRUE; line_mode = FALSE; } if(options[LOCALE].doesOccur) { locale = options[LOCALE].value; } int32_t len = 0; if(fileName!=NULL){ //pre-flight ucbuf_resolveFileName(sourceDir, fileName, NULL, &len, &status); resolvedFileName = (char*) uprv_malloc(len); if(resolvedFileName==NULL){ status= U_MEMORY_ALLOCATION_ERROR; return; } if(status == U_BUFFER_OVERFLOW_ERROR){ status = U_ZERO_ERROR; } ucbuf_resolveFileName(sourceDir, fileName, resolvedFileName, &len, &status); ucharBuf = ucbuf_open(resolvedFileName,&encoding,TRUE,FALSE,&status); if(U_FAILURE(status)){ printf("Could not open the input file %s. Error: %s\n", fileName, u_errorName(status)); return; } } } ULine* UPerfTest::getLines(UErrorCode& status){ lines = new ULine[MAXLINES]; int maxLines = MAXLINES; numLines=0; const UChar* line=NULL; int32_t len =0; for (;;) { line = ucbuf_readline(ucharBuf,&len,&status); if(line == NULL || U_FAILURE(status)){ break; } lines[numLines].name = new UChar[len]; lines[numLines].len = len; memcpy(lines[numLines].name, line, len * U_SIZEOF_UCHAR); numLines++; len = 0; if (numLines >= maxLines) { maxLines += MAXLINES; ULine *newLines = new ULine[maxLines]; if(newLines == NULL) { fprintf(stderr, "Out of memory reading line %d.\n", (int)numLines); status= U_MEMORY_ALLOCATION_ERROR; delete []lines; return NULL; } memcpy(newLines, lines, numLines*sizeof(ULine)); delete []lines; lines = newLines; } } return lines; } const UChar* UPerfTest::getBuffer(int32_t& len, UErrorCode& status){ if (U_FAILURE(status)) { return NULL; } len = ucbuf_size(ucharBuf); buffer = (UChar*) uprv_malloc(U_SIZEOF_UCHAR * (len+1)); u_strncpy(buffer,ucbuf_getBuffer(ucharBuf,&bufferLen,&status),len); buffer[len]=0; len = bufferLen; return buffer; } UBool UPerfTest::run(){ if(_remainingArgc==1){ // Testing all methods return runTest(); } UBool res=FALSE; // Test only the specified fucntion for (int i = 1; i < _remainingArgc; ++i) { if (_argv[i][0] != '-') { char* name = (char*) _argv[i]; if(verbose==TRUE){ //fprintf(stdout, "\n=== Handling test: %s: ===\n", name); //fprintf(stdout, "\n%s:\n", name); } char* parameter = strchr( name, '@' ); if (parameter) { *parameter = 0; parameter += 1; } execCount = 0; res = runTest( name, parameter ); if (!res || (execCount <= 0)) { fprintf(stdout, "\n---ERROR: Test doesn't exist: %s!\n", name); return FALSE; } } } return res; } UBool UPerfTest::runTest(char* name, char* par ){ UBool rval; char* pos = NULL; if (name) pos = strchr( name, delim ); // check if name contains path (by looking for '/') if (pos) { path = pos+1; // store subpath for calling subtest *pos = 0; // split into two strings }else{ path = NULL; } if (!name || (name[0] == 0) || (strcmp(name, "*") == 0)) { rval = runTestLoop( NULL, NULL ); }else if (strcmp( name, "LIST" ) == 0) { this->usage(); rval = TRUE; }else{ rval = runTestLoop( name, par ); } if (pos) *pos = delim; // restore original value at pos return rval; } void UPerfTest::setPath( char* pathVal ) { this->path = pathVal; } // call individual tests, to be overriden to call implementations UPerfFunction* UPerfTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* par ) { // to be overriden by a method like: /* switch (index) { case 0: name = "First Test"; if (exec) FirstTest( par ); break; case 1: name = "Second Test"; if (exec) SecondTest( par ); break; default: name = ""; break; } */ fprintf(stderr,"*** runIndexedTest needs to be overriden! ***"); name = ""; exec = exec; index = index; par = par; return NULL; } UBool UPerfTest::runTestLoop( char* testname, char* par ) { int32_t index = 0; const char* name; UBool run_this_test; UBool rval = FALSE; UErrorCode status = U_ZERO_ERROR; UPerfTest* saveTest = gTest; gTest = this; int32_t loops = 0; double t=0; int32_t n = 1; long ops; do { this->runIndexedTest( index, FALSE, name ); if (!name || (name[0] == 0)) break; if (!testname) { run_this_test = TRUE; }else{ run_this_test = (UBool) (strcmp( name, testname ) == 0); } if (run_this_test) { UPerfFunction* testFunction = this->runIndexedTest( index, TRUE, name, par ); execCount++; rval=TRUE; if(testFunction==NULL){ fprintf(stderr,"%s function returned NULL", name); return FALSE; } ops = testFunction->getOperationsPerIteration(); if (ops < 1) { fprintf(stderr, "%s returned an illegal operations/iteration()\n", name); return FALSE; } if(iterations == 0) { n = time; // Run for specified duration in seconds if(verbose==TRUE){ fprintf(stdout,"= %s calibrating %i seconds \n", name, (int)n); } //n *= 1000; // s => ms //System.out.println("# " + meth.getName() + " " + n + " sec"); int32_t failsafe = 1; // last resort for very fast methods t = 0; while (t < (int)(n * 0.9)) { // 90% is close enough if (loops == 0 || t == 0) { loops = failsafe; failsafe *= 10; } else { //System.out.println("# " + meth.getName() + " x " + loops + " = " + t); loops = (int)((double)n / t * loops + 0.5); if (loops == 0) { fprintf(stderr,"Unable to converge on desired duration"); return FALSE; } } //System.out.println("# " + meth.getName() + " x " + loops); t = testFunction->time(loops,&status); if(U_FAILURE(status)){ printf("Performance test failed with error: %s \n", u_errorName(status)); break; } } } else { loops = iterations; } double min_t=1000000.0, sum_t=0.0; long events = -1; for(int32_t ps =0; ps < passes; ps++){ fprintf(stdout,"= %s begin " ,name); if(verbose==TRUE){ if(iterations > 0) { fprintf(stdout, "%i\n", (int)loops); } else { fprintf(stdout, "%i\n", (int)n); } } else { fprintf(stdout, "\n"); } t = testFunction->time(loops, &status); if(U_FAILURE(status)){ printf("Performance test failed with error: %s \n", u_errorName(status)); break; } sum_t+=t; if(tgetEventsPerIteration(); //print info only in verbose mode if(verbose==TRUE){ if(events == -1){ fprintf(stdout, "= %s end: %f loops: %i operations: %li \n", name, t, (int)loops, ops); }else{ fprintf(stdout, "= %s end: %f loops: %i operations: %li events: %li\n", name, t, (int)loops, ops, events); } }else{ if(events == -1){ fprintf(stdout,"= %s end %f %i %li\n", name, t, (int)loops, ops); }else{ fprintf(stdout,"= %s end %f %i %li %li\n", name, t, (int)loops, ops, events); } } } if(verbose && U_SUCCESS(status)) { double avg_t = sum_t/passes; if (loops == 0 || ops == 0) { fprintf(stderr, "%s did not run\n", name); } else if(events == -1) { fprintf(stdout, "%%= %s avg: %.4g loops: %i avg/op: %.4g ns\n", name, avg_t, (int)loops, (avg_t*1E9)/(loops*ops)); fprintf(stdout, "_= %s min: %.4g loops: %i min/op: %.4g ns\n", name, min_t, (int)loops, (min_t*1E9)/(loops*ops)); } else { fprintf(stdout, "%%= %s avg: %.4g loops: %i avg/op: %.4g ns avg/event: %.4g ns\n", name, avg_t, (int)loops, (avg_t*1E9)/(loops*ops), (avg_t*1E9)/(loops*events)); fprintf(stdout, "_= %s min: %.4g loops: %i min/op: %.4g ns min/event: %.4g ns\n", name, min_t, (int)loops, (min_t*1E9)/(loops*ops), (min_t*1E9)/(loops*events)); } } delete testFunction; } index++; }while(name); gTest = saveTest; return rval; } /** * Print a usage message for this test class. */ void UPerfTest::usage( void ) { puts(gUsageString); if (_addUsage != NULL) { puts(_addUsage); } UBool save_verbose = verbose; verbose = TRUE; fprintf(stdout,"Test names:\n"); fprintf(stdout,"-----------\n"); int32_t index = 0; const char* name = NULL; do{ this->runIndexedTest( index, FALSE, name ); if (!name) break; fprintf(stdout,name); fprintf(stdout,"\n"); index++; }while (name && (name[0] != 0)); verbose = save_verbose; } void UPerfTest::setCaller( UPerfTest* callingTest ) { caller = callingTest; if (caller) { verbose = caller->verbose; } } UBool UPerfTest::callTest( UPerfTest& testToBeCalled, char* par ) { execCount--; // correct a previously assumed test-exec, as this only calls a subtest testToBeCalled.setCaller( this ); return testToBeCalled.runTest( path, par ); } UPerfTest::~UPerfTest(){ if(lines!=NULL){ delete[] lines; } if(buffer!=NULL){ uprv_free(buffer); } if(resolvedFileName!=NULL){ uprv_free(resolvedFileName); } ucbuf_close(ucharBuf); } #endif