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v811_spc009/external/icu/icu4c/source/test/perf/ustrperf/stringperf.cpp

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/***********************************************************************
* © 2016 and later: Unicode, Inc. and others.
* License & terms of use: http://www.unicode.org/copyright.html
*
***********************************************************************
***********************************************************************
* COPYRIGHT:
* Copyright (C) 2002-2006 International Business Machines Corporation
* and others. All Rights Reserved.
*
***********************************************************************/
/*****************************************************************************
* File stringperf.cpp
*
* Modification History:
* Name Description
* Doug Wang Second version
* Doug Wang First Version
******************************************************************************
*/
/**
* This program tests UnicodeString performance.
* APIs tested: UnicodeString
* ICU4C
* Windows 2000/XP, Linux
*/
#include "stringperf.h"
int main(int argc, const char *argv[])
{
UErrorCode status = U_ZERO_ERROR;
bCatenatePrealloc=TRUE;
StringPerformanceTest test(argc, argv, status);
if (U_FAILURE(status)){
return status;
}
int loops = LOOPS;
if (bCatenatePrealloc) {
int to_alloc = loops * MAXNUMLINES * (MAXSRCLEN + catenate_STRLEN);
catICU = new UnicodeString(to_alloc,'a',0);
//catICU = new UnicodeString();
catStd = new stlstring();
catStd -> reserve(loops * MAXNUMLINES * (MAXSRCLEN + catenate_STRLEN));
//catStd -> reserve(110000000);
} else {
catICU = new UnicodeString();
catStd = new stlstring();
}
if (test.run() == FALSE){
fprintf(stderr, "FAILED: Tests could not be run please check the "
"arguments.\n");
return -1;
}
delete catICU;
delete catStd;
return 0;
}
StringPerformanceTest::StringPerformanceTest(int32_t argc, const char *argv[],
UErrorCode &status)
: UPerfTest(argc, argv, status)
{
filelines_=NULL;
StrBuffer=NULL;
StrBufferLen=0;
int32_t len =0;
if (status== U_ILLEGAL_ARGUMENT_ERROR){
//fprintf(stderr,gUsageString, "stringperf");
return;
}
if (U_FAILURE(status)){
fprintf(stderr, "FAILED to create UPerfTest object. Error: %s\n",
u_errorName(status));
return;
}
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;
}
filelines_ = new ULine[numLines];
for (int i =0; i < numLines; i++) {
len = filelines[i].len;
filelines_[i].name = new UChar[len];
filelines_[i].len = len;
memcpy(filelines_[i].name, filelines[i].name, len * U_SIZEOF_UCHAR);
}
}else if(bulk_mode){
int32_t srcLen = 0;
const UChar* src = getBuffer(srcLen,status);
if(U_FAILURE(status)){
fprintf(stderr, "FAILED to read buffer from file and create UPerfTest object. Error: %s\n", u_errorName(status));
return;
}
StrBuffer = new UChar[srcLen];
StrBufferLen = srcLen;
memcpy(StrBuffer, src, srcLen * U_SIZEOF_UCHAR);
}
}
StringPerformanceTest::~StringPerformanceTest()
{
delete[] filelines_;
delete[] StrBuffer;
}
UPerfFunction* StringPerformanceTest::runIndexedTest(int32_t index, UBool exec,
const char *&name,
char* par)
{
switch (index) {
TESTCASE(0, TestCtor);
TESTCASE(1, TestCtor1);
TESTCASE(2, TestCtor2);
TESTCASE(3, TestCtor3);
TESTCASE(4, TestAssign);
TESTCASE(5, TestAssign1);
TESTCASE(6, TestAssign2);
TESTCASE(7, TestGetch);
TESTCASE(8, TestCatenate);
TESTCASE(9, TestScan);
TESTCASE(10, TestScan1);
TESTCASE(11, TestScan2);
TESTCASE(12, TestStdLibCtor);
TESTCASE(13, TestStdLibCtor1);
TESTCASE(14, TestStdLibCtor2);
TESTCASE(15, TestStdLibCtor3);
TESTCASE(16, TestStdLibAssign);
TESTCASE(17, TestStdLibAssign1);
TESTCASE(18, TestStdLibAssign2);
TESTCASE(19, TestStdLibGetch);
TESTCASE(20, TestStdLibCatenate);
TESTCASE(21, TestStdLibScan);
TESTCASE(22, TestStdLibScan1);
TESTCASE(23, TestStdLibScan2);
default:
name = "";
return NULL;
}
return NULL;
}
UPerfFunction* StringPerformanceTest::TestCtor()
{
if (line_mode) {
return new StringPerfFunction(ctor, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(ctor, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestCtor1()
{
if (line_mode) {
return new StringPerfFunction(ctor1, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(ctor1, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestCtor2()
{
if (line_mode) {
return new StringPerfFunction(ctor2, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(ctor2, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestCtor3()
{
if (line_mode) {
return new StringPerfFunction(ctor3, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(ctor3, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestAssign()
{
if (line_mode) {
return new StringPerfFunction(assign, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(assign, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestAssign1()
{
if (line_mode) {
return new StringPerfFunction(assign1, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(assign1, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestAssign2()
{
if (line_mode) {
return new StringPerfFunction(assign2, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(assign2, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestGetch()
{
if (line_mode) {
return new StringPerfFunction(getch, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(getch, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestCatenate()
{
if (line_mode) {
return new StringPerfFunction(catenate, filelines_, numLines, uselen);
} else {
//return new StringPerfFunction(catenate, buffer, bufferLen, uselen);
return new StringPerfFunction(catenate, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestScan()
{
if (line_mode) {
return new StringPerfFunction(scan, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(scan, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestScan1()
{
if (line_mode) {
return new StringPerfFunction(scan1, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(scan1, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestScan2()
{
if (line_mode) {
return new StringPerfFunction(scan2, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(scan2, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibCtor()
{
if (line_mode) {
return new StringPerfFunction(StdLibCtor, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibCtor, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibCtor1()
{
if (line_mode) {
return new StringPerfFunction(StdLibCtor1, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibCtor1, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibCtor2()
{
if (line_mode) {
return new StringPerfFunction(StdLibCtor2, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibCtor2, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibCtor3()
{
if (line_mode) {
return new StringPerfFunction(StdLibCtor3, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibCtor3, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibAssign()
{
if (line_mode) {
return new StringPerfFunction(StdLibAssign, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibAssign, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibAssign1()
{
if (line_mode) {
return new StringPerfFunction(StdLibAssign1, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibAssign1, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibAssign2()
{
if (line_mode) {
return new StringPerfFunction(StdLibAssign2, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibAssign2, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibGetch()
{
if (line_mode) {
return new StringPerfFunction(StdLibGetch, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibGetch, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibCatenate()
{
if (line_mode) {
return new StringPerfFunction(StdLibCatenate, filelines_, numLines, uselen);
} else {
//return new StringPerfFunction(StdLibCatenate, buffer, bufferLen, uselen);
return new StringPerfFunction(StdLibCatenate, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibScan()
{
if (line_mode) {
return new StringPerfFunction(StdLibScan, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibScan, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibScan1()
{
if (line_mode) {
return new StringPerfFunction(StdLibScan1, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibScan1, StrBuffer, StrBufferLen, uselen);
}
}
UPerfFunction* StringPerformanceTest::TestStdLibScan2()
{
if (line_mode) {
return new StringPerfFunction(StdLibScan2, filelines_, numLines, uselen);
} else {
return new StringPerfFunction(StdLibScan2, StrBuffer, StrBufferLen, uselen);
}
}
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