source/test/perf/ubrkperf/ubrkperf.cpp - external/github.com/unicode-org/icu - Git at Google

 /********************************************************************
  * COPYRIGHT:
  * Copyright (C) 2001 IBM, Inc.   All Rights Reserved.
  *
  ********************************************************************/
 /********************************************************************************
 *
 * File ubrkperf.cpp
 *
 * Modification History:
 *        Name                     Description
 *     Vladimir Weinstein          First Version, based on collperf
 *
 *********************************************************************************
 */

 #include "ubrkperf.h"


 #if 0
 #ifdef U_DARWIN
 #include <ApplicationServices/ApplicationServices.h>
 enum{
   kUCTextBreakAllMask = (kUCTextBreakClusterMask | kUCTextBreakWordMask | kUCTextBreakLineMask)
     };
 UCTextBreakType breakTypes[4] = {kUCTextBreakCharMask, kUCTextBreakClusterMask, kUCTextBreakWordMask, kUCTextBreakLineMask};
 TextBreakLocatorRef breakRef;
 UCTextBreakType macBreakType;

 void createMACBrkIt() {
   OSStatus status = noErr;
   LocaleRef lref;
   status = LocaleRefFromLocaleString(opt_locale, &lref);
   status = UCCreateTextBreakLocator(lref, 0, kUCTextBreakAllMask, (TextBreakLocatorRef*)&breakRef);
   if(opt_char == TRUE) {
     macBreakType = kUCTextBreakClusterMask;
   } else if(opt_word == TRUE) {
     macBreakType = kUCTextBreakWordMask;
   } else if(opt_line == TRUE) {
     macBreakType = kUCTextBreakLineMask;
   } else if(opt_sentence == TRUE) {
     // error
     // brkit = BreakIterator::createSentenceInstance(opt_locale, status);
   } else {
     // default is character iterator
     macBreakType = kUCTextBreakClusterMask;
       }
 }
 #endif


 void doForwardTest() {
   if (opt_terse == FALSE) {
     printf("Doing the forward test\n");
   }
   int32_t noBreaks = 0;
   int32_t i = 0;
   unsigned long startTime = timeGetTime();
   unsigned long elapsedTime = 0;
   if(opt_icu) {
     createICUBrkIt();
     brkit->setText(text);
     brkit->first();
     if (opt_terse == FALSE) {
       printf("Warmup\n");
     }
     while(brkit->next() != BreakIterator::DONE) {
       noBreaks++;
     }

     if (opt_terse == FALSE) {
       printf("Measure\n");
     }
     startTime = timeGetTime();
     for(i = 0; i < opt_loopCount; i++) {
       brkit->first();
       while(brkit->next() != BreakIterator::DONE) {
       }
     }

     elapsedTime = timeGetTime()-startTime;
   } else if(opt_mac) {
 #ifdef U_DARWIN
     createMACBrkIt();
     UniChar* filePtr = text;
     OSStatus status = noErr;
     UniCharCount startOffset = 0, breakOffset = 0, numUniChars = textSize;
     startOffset = 0;
     //printf("\t---Search forward--\n");

     while (startOffset < numUniChars)
     {
 	status = UCFindTextBreak(breakRef, macBreakType, kUCTextBreakLeadingEdgeMask, filePtr, numUniChars,
                                startOffset, &breakOffset);
       //require_action(status == noErr, EXIT, printf( "**UCFindTextBreak failed: startOffset %d, status %d\n", (int)startOffset, (int)status));
       //require_action((breakOffset <= numUniChars),EXIT, printf("**UCFindTextBreak breakOffset too big: startOffset %d, breakOffset %d\n", (int)startOffset, (int)breakOffset));

       // Output break
       //printf("\t%d\n", (int)breakOffset);

       // Increment counters
 	noBreaks++;
       startOffset = breakOffset;
     }
     startTime = timeGetTime();
     for(i = 0; i < opt_loopCount; i++) {
       startOffset = 0;

       while (startOffset < numUniChars)
 	{
 	  status = UCFindTextBreak(breakRef, macBreakType, kUCTextBreakLeadingEdgeMask, filePtr, numUniChars,
 				   startOffset, &breakOffset);
 	  // Increment counters
 	  startOffset = breakOffset;
 	}
     }
     elapsedTime = timeGetTime()-startTime;
     UCDisposeTextBreakLocator(&breakRef);
 #endif


   }


   if (opt_terse == FALSE) {
   int32_t loopTime = (int)(float(1000) * ((float)elapsedTime/(float)opt_loopCount));
       int32_t timePerCU = (int)(float(1000) * ((float)loopTime/(float)textSize));
       int32_t timePerBreak = (int)(float(1000) * ((float)loopTime/(float)noBreaks));
       printf("forward break iteration average loop time %d\n", loopTime);
       printf("number of code units %d average time per code unit %d\n", textSize, timePerCU);
       printf("number of breaks %d average time per break %d\n", noBreaks, timePerBreak);
   } else {
       printf("time=%d\nevents=%d\nsize=%d\n", elapsedTime, noBreaks, textSize);
   }


 }


 #endif

 UPerfFunction* BreakIteratorPerformanceTest::TestICUForward()
 {
   return new ICUForward(locale, m_mode_, m_file_, m_fileLen_);
 }

 UPerfFunction* BreakIteratorPerformanceTest::TestICUIsBound()
 {
   return new ICUIsBound(locale, m_mode_, m_file_, m_fileLen_);
 }

 UPerfFunction* BreakIteratorPerformanceTest::TestDarwinForward()
 {
   return NULL;
 }

 UPerfFunction* BreakIteratorPerformanceTest::TestDarwinIsBound()
 {
   return NULL;
 }

 UPerfFunction* BreakIteratorPerformanceTest::runIndexedTest(int32_t index, UBool exec,
 												   const char *&name,
 												   char* par)
 {
     switch (index) {
         TESTCASE(0, TestICUForward);
 		TESTCASE(1, TestICUIsBound);
 		TESTCASE(2, TestDarwinForward);
 		TESTCASE(3, TestDarwinIsBound);
         default:
             name = "";
             return NULL;
     }
     return NULL;
 }

 UOption options[]={
                       UOPTION_DEF( "mode",        'm', UOPT_REQUIRES_ARG)
                   };


 BreakIteratorPerformanceTest::BreakIteratorPerformanceTest(int32_t argc, const char* argv[], UErrorCode& status)
 : UPerfTest(argc,argv,status),
 m_mode_(NULL),
 m_file_(NULL),
 m_fileLen_(0)
 {

     _remainingArgc = u_parseArgs(_remainingArgc, (char**)argv, (int32_t)(sizeof(options)/sizeof(options[0])), options);


     if(options[0].doesOccur) {
       m_mode_ = options[0].value;
       switch(options[0].value[0]) {
       case 'w' :
       case 'c' :
       case 's' :
       case 'l' :
         break;
       default:
         status = U_ILLEGAL_ARGUMENT_ERROR;
         break;
       }
     } else {
       status = U_ILLEGAL_ARGUMENT_ERROR;
     }

     m_file_ = getBuffer(m_fileLen_, status);

     if(status== U_ILLEGAL_ARGUMENT_ERROR){
        fprintf(stderr, gUsageString, "normperf");
        fprintf(stderr, "\t-m or --mode        Required mode for breakiterator: char, word, line or sentence\n");

        return;
     }

     if(U_FAILURE(status)){
         fprintf(stderr, "FAILED to create UPerfTest object. Error: %s\n", u_errorName(status));
         return;
     }
 }

 BreakIteratorPerformanceTest::~BreakIteratorPerformanceTest()
 {
 }


 //----------------------------------------------------------------------------------------
 //
 //    Main   --  process command line, read in and pre-process the test file,
 //                 call other functions to do the actual tests.
 //
 //----------------------------------------------------------------------------------------
 int main(int argc, const char** argv) {
     UErrorCode status = U_ZERO_ERROR;
     BreakIteratorPerformanceTest 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;
 }
	/********************************************************************
	* COPYRIGHT:
	* Copyright (C) 2001 IBM, Inc. All Rights Reserved.
	*
	********************************************************************/
	/********************************************************************************
	*
	* File ubrkperf.cpp
	*
	* Modification History:
	* Name Description
	* Vladimir Weinstein First Version, based on collperf
	*
	*********************************************************************************
	*/

	#include "ubrkperf.h"


	#if 0
	#ifdef U_DARWIN
	#include <ApplicationServices/ApplicationServices.h>
	enum{
	kUCTextBreakAllMask = (kUCTextBreakClusterMask \| kUCTextBreakWordMask \| kUCTextBreakLineMask)
	};
	UCTextBreakType breakTypes[4] = {kUCTextBreakCharMask, kUCTextBreakClusterMask, kUCTextBreakWordMask, kUCTextBreakLineMask};
	TextBreakLocatorRef breakRef;
	UCTextBreakType macBreakType;

	void createMACBrkIt() {
	OSStatus status = noErr;
	LocaleRef lref;
	status = LocaleRefFromLocaleString(opt_locale, &lref);
	status = UCCreateTextBreakLocator(lref, 0, kUCTextBreakAllMask, (TextBreakLocatorRef*)&breakRef);
	if(opt_char == TRUE) {
	macBreakType = kUCTextBreakClusterMask;
	} else if(opt_word == TRUE) {
	macBreakType = kUCTextBreakWordMask;
	} else if(opt_line == TRUE) {
	macBreakType = kUCTextBreakLineMask;
	} else if(opt_sentence == TRUE) {
	// error
	// brkit = BreakIterator::createSentenceInstance(opt_locale, status);
	} else {
	// default is character iterator
	macBreakType = kUCTextBreakClusterMask;
	}
	}
	#endif


	void doForwardTest() {
	if (opt_terse == FALSE) {
	printf("Doing the forward test\n");
	}
	int32_t noBreaks = 0;
	int32_t i = 0;
	unsigned long startTime = timeGetTime();
	unsigned long elapsedTime = 0;
	if(opt_icu) {
	createICUBrkIt();
	brkit->setText(text);
	brkit->first();
	if (opt_terse == FALSE) {
	printf("Warmup\n");
	}
	while(brkit->next() != BreakIterator::DONE) {
	noBreaks++;
	}

	if (opt_terse == FALSE) {
	printf("Measure\n");
	}
	startTime = timeGetTime();
	for(i = 0; i < opt_loopCount; i++) {
	brkit->first();
	while(brkit->next() != BreakIterator::DONE) {
	}
	}

	elapsedTime = timeGetTime()-startTime;
	} else if(opt_mac) {
	#ifdef U_DARWIN
	createMACBrkIt();
	UniChar* filePtr = text;
	OSStatus status = noErr;
	UniCharCount startOffset = 0, breakOffset = 0, numUniChars = textSize;
	startOffset = 0;
	//printf("\t---Search forward--\n");

	while (startOffset < numUniChars)
	{
	status = UCFindTextBreak(breakRef, macBreakType, kUCTextBreakLeadingEdgeMask, filePtr, numUniChars,
	startOffset, &breakOffset);
	//require_action(status == noErr, EXIT, printf( "**UCFindTextBreak failed: startOffset %d, status %d\n", (int)startOffset, (int)status));
	//require_action((breakOffset <= numUniChars),EXIT, printf("**UCFindTextBreak breakOffset too big: startOffset %d, breakOffset %d\n", (int)startOffset, (int)breakOffset));

	// Output break
	//printf("\t%d\n", (int)breakOffset);

	// Increment counters
	noBreaks++;
	startOffset = breakOffset;
	}
	startTime = timeGetTime();
	for(i = 0; i < opt_loopCount; i++) {
	startOffset = 0;

	while (startOffset < numUniChars)
	{
	status = UCFindTextBreak(breakRef, macBreakType, kUCTextBreakLeadingEdgeMask, filePtr, numUniChars,
	startOffset, &breakOffset);
	// Increment counters
	startOffset = breakOffset;
	}
	}
	elapsedTime = timeGetTime()-startTime;
	UCDisposeTextBreakLocator(&breakRef);
	#endif


	}


	if (opt_terse == FALSE) {
	int32_t loopTime = (int)(float(1000) * ((float)elapsedTime/(float)opt_loopCount));
	int32_t timePerCU = (int)(float(1000) * ((float)loopTime/(float)textSize));
	int32_t timePerBreak = (int)(float(1000) * ((float)loopTime/(float)noBreaks));
	printf("forward break iteration average loop time %d\n", loopTime);
	printf("number of code units %d average time per code unit %d\n", textSize, timePerCU);
	printf("number of breaks %d average time per break %d\n", noBreaks, timePerBreak);
	} else {
	printf("time=%d\nevents=%d\nsize=%d\n", elapsedTime, noBreaks, textSize);
	}


	}




	#endif

	UPerfFunction* BreakIteratorPerformanceTest::TestICUForward()
	{
	return new ICUForward(locale, m_mode_, m_file_, m_fileLen_);
	}

	UPerfFunction* BreakIteratorPerformanceTest::TestICUIsBound()
	{
	return new ICUIsBound(locale, m_mode_, m_file_, m_fileLen_);
	}

	UPerfFunction* BreakIteratorPerformanceTest::TestDarwinForward()
	{
	return NULL;
	}

	UPerfFunction* BreakIteratorPerformanceTest::TestDarwinIsBound()
	{
	return NULL;
	}

	UPerfFunction* BreakIteratorPerformanceTest::runIndexedTest(int32_t index, UBool exec,
	const char *&name,
	char* par)
	{
	switch (index) {
	TESTCASE(0, TestICUForward);
	TESTCASE(1, TestICUIsBound);
	TESTCASE(2, TestDarwinForward);
	TESTCASE(3, TestDarwinIsBound);
	default:
	name = "";
	return NULL;
	}
	return NULL;
	}

	UOption options[]={
	UOPTION_DEF( "mode", 'm', UOPT_REQUIRES_ARG)
	};


	BreakIteratorPerformanceTest::BreakIteratorPerformanceTest(int32_t argc, const char* argv[], UErrorCode& status)
	: UPerfTest(argc,argv,status),
	m_mode_(NULL),
	m_file_(NULL),
	m_fileLen_(0)
	{

	_remainingArgc = u_parseArgs(_remainingArgc, (char**)argv, (int32_t)(sizeof(options)/sizeof(options[0])), options);


	if(options[0].doesOccur) {
	m_mode_ = options[0].value;
	switch(options[0].value[0]) {
	case 'w' :
	case 'c' :
	case 's' :
	case 'l' :
	break;
	default:
	status = U_ILLEGAL_ARGUMENT_ERROR;
	break;
	}
	} else {
	status = U_ILLEGAL_ARGUMENT_ERROR;
	}

	m_file_ = getBuffer(m_fileLen_, status);

	if(status== U_ILLEGAL_ARGUMENT_ERROR){
	fprintf(stderr, gUsageString, "normperf");
	fprintf(stderr, "\t-m or --mode Required mode for breakiterator: char, word, line or sentence\n");

	return;
	}

	if(U_FAILURE(status)){
	fprintf(stderr, "FAILED to create UPerfTest object. Error: %s\n", u_errorName(status));
	return;
	}
	}

	BreakIteratorPerformanceTest::~BreakIteratorPerformanceTest()
	{
	}


	//----------------------------------------------------------------------------------------
	//
	// Main -- process command line, read in and pre-process the test file,
	// call other functions to do the actual tests.
	//
	//----------------------------------------------------------------------------------------
	int main(int argc, const char** argv) {
	UErrorCode status = U_ZERO_ERROR;
	BreakIteratorPerformanceTest 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;
	}