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skia / external / github.com / unicode-org / icu / refs/tags/icu-milestone-3-9-3 / . / source / test / perf / ustrperf / stringperf.h
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/*
**********************************************************************
* Copyright (c) 2002-2006, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
*/
#ifndef _STRINGPERF_H
#define _STRINGPERF_H
#include <string>
#include "unicode/utypes.h"
#include "unicode/unistr.h"
#include "unicode/uperf.h"
typedef std::wstring stlstring;
/* Define all constants for test case operations */
#define MAXNUMLINES 40000 //Max number of lines in a test data file
#define MAXSRCLEN 20 //Max length of one line. maybe a larger number, but it need more mem
#define LOOPS 100 //Iterations
//#define LOOPS 10
#define catenate_STRLEN 2
const UChar uTESTCHAR1 = 'a';
const wchar_t wTESTCHAR1 = 'a';
const UnicodeString uEMPTY;
const stlstring sEMPTY;
UnicodeString unistr;
stlstring stlstr;
// Simulate construction with a single-char string for basic_string
wchar_t simulate[2]={wTESTCHAR1, 0};
/* Constants for scan operation */
U_STRING_DECL(scan_STRING, "Dot. 123. Some more data.", 25);
const UnicodeString uScan_STRING=UnicodeString(scan_STRING);
const stlstring sScan_STRING=stlstring(L"Dot. 123. Some more data.");
/* global variables or constants for concatenation operation */
U_STRING_DECL(uCatenate_STR, "!!", 2);
const stlstring sCatenate_STR=stlstring(L"!!");
static UnicodeString* catICU;
static stlstring* catStd;
UBool bCatenatePrealloc;
/* type defines */
typedef struct WLine WLine;
struct WLine {
wchar_t name[100];
int32_t len;
}; //struct to store one line of wchar_t string
enum FnType { Fn_ICU, Fn_STD };
typedef FnType FnType;
typedef void (*ICUStringPerfFn)(const UChar* src,int32_t srcLen, UnicodeString s0);
typedef void (*StdStringPerfFn)(const wchar_t* src,int32_t srcLen, stlstring s0);
class StringPerfFunction : public UPerfFunction
{
public:
virtual long getEventsPerIteration(){
int loops = LOOPS;
if (catICU) { delete catICU;}
if (catStd) { delete catStd;}
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();
}
return -1;
}
virtual void call(UErrorCode* status)
{
if(line_mode_==TRUE){
if(uselen_){
for(int32_t i = 0; i< numLines_; i++){
if (fnType_==Fn_ICU) {
(*fn1_)(lines_[i].name,lines_[i].len,uS0_[i]);
} else {
(*fn2_)(wlines_[i].name,wlines_[i].len,sS0_[i]);
}
}
}else{
for(int32_t i = 0; i< numLines_; i++){
if (fnType_==Fn_ICU) {
(*fn1_)(lines_[i].name,-1,uS0_[i]);
} else {
(*fn2_)(wlines_[i].name,-1,sS0_[i]);
}
}
}
}else{
if(uselen_){
if (fnType_==Fn_ICU) {
(*fn1_)(src_,srcLen_,*ubulk_);
} else {
(*fn2_)(wsrc_,wsrcLen_,*sbulk_);
}
}else{
if (fnType_==Fn_ICU) {
(*fn1_)(src_,-1,*ubulk_);
} else {
(*fn2_)(wsrc_,-1,*sbulk_);
}
}
}
}
virtual long getOperationsPerIteration()
{
if(line_mode_==TRUE){
return numLines_;
}else{
return 1;
}
}
StringPerfFunction(ICUStringPerfFn func, ULine* srcLines, int32_t srcNumLines, UBool uselen)
{
fn1_ = func;
lines_=srcLines;
wlines_=NULL;
numLines_=srcNumLines;
uselen_=uselen;
line_mode_=TRUE;
src_ = NULL;
srcLen_ = 0;
wsrc_ = NULL;
wsrcLen_ = 0;
fnType_ = Fn_ICU;
uS0_=new UnicodeString[numLines_];
for(int32_t i=0; i<numLines_; i++) {
uS0_[i]=UnicodeString(lines_[i].name, lines_[i].len);
}
sS0_=NULL;
ubulk_=NULL;
sbulk_=NULL;
}
StringPerfFunction(StdStringPerfFn func, ULine* srcLines, int32_t srcNumLines, UBool uselen)
{
fn2_ = func;
lines_=srcLines;
wlines_=NULL;
numLines_=srcNumLines;
uselen_=uselen;
line_mode_=TRUE;
src_ = NULL;
srcLen_ = 0;
wsrc_ = NULL;
wsrcLen_ = 0;
fnType_ = Fn_STD;
uS0_=NULL;
ubulk_=NULL;
sbulk_=NULL;
//fillin wlines_[], sS0_[]
prepareLinesForStd();
}
StringPerfFunction(ICUStringPerfFn func, UChar* source, int32_t sourceLen, UBool uselen)
{
fn1_ = func;
lines_=NULL;
wlines_=NULL;
numLines_=0;
uselen_=uselen;
line_mode_=FALSE;
src_ = new UChar[sourceLen];
memcpy(src_, source, sourceLen * U_SIZEOF_UCHAR);
srcLen_ = sourceLen;
wsrc_ = NULL;
wsrcLen_ = 0;
fnType_ = Fn_ICU;
uS0_=NULL;
sS0_=NULL;
ubulk_=new UnicodeString(src_,srcLen_);
sbulk_=NULL;
}
StringPerfFunction(StdStringPerfFn func, UChar* source, int32_t sourceLen, UBool uselen)
{
fn2_ = func;
lines_=NULL;
wlines_=NULL;
numLines_=0;
uselen_=uselen;
line_mode_=FALSE;
src_ = new UChar[sourceLen];
memcpy(src_, source, sourceLen * U_SIZEOF_UCHAR);
srcLen_ = sourceLen;
fnType_ = Fn_STD;
uS0_=NULL;
sS0_=NULL;
ubulk_=NULL;
//fillin wsrc_, sbulk_
prepareBulkForStd();
}
~StringPerfFunction()
{
//free(src_);
free(wsrc_);
delete[] src_;
delete ubulk_;
delete sbulk_;
delete[] uS0_;
delete[] sS0_;
delete[] wlines_;
}
private:
void prepareLinesForStd(void)
{
UErrorCode err=U_ZERO_ERROR;
wlines_=new WLine[numLines_];
wchar_t ws[100];
int32_t wcap = sizeof(ws) / sizeof(*ws);
int32_t wl;
wchar_t* wcs;
sS0_=new stlstring[numLines_];
for(int32_t i=0; i<numLines_; i++) {
if(uselen_) {
wcs = u_strToWCS(ws, wcap, &wl, lines_[i].name, lines_[i].len, &err);
memcpy(wlines_[i].name, wcs, wl * sizeof(wchar_t));
wlines_[i].len = wl;
sS0_[i]=stlstring(wlines_[i].name, wlines_[i].len);
} else {
wcs = u_strToWCS(ws, wcap, &wl, lines_[i].name, lines_[i].len-1, &err);
memcpy(wlines_[i].name, wcs, wl*sizeof(wchar_t));
wlines_[i].len = wl;
sS0_[i]=stlstring(wlines_[i].name, wlines_[i].len+1);
}
if (U_FAILURE(err)) {
return;
}
}
}
void prepareBulkForStd(void)
{
UErrorCode err=U_ZERO_ERROR;
const UChar* uSrc = src_;
int32_t uSrcLen = srcLen_;
wchar_t* wDest = NULL;
int32_t wDestLen = 0;
int32_t reqLen= 0 ;
if(uselen_) {
/* pre-flight*/
u_strToWCS(wDest,wDestLen,&reqLen,uSrc,uSrcLen,&err);
if(err == U_BUFFER_OVERFLOW_ERROR){
err=U_ZERO_ERROR;
wDest =(wchar_t*) malloc(sizeof(wchar_t) * (reqLen));
wDestLen = reqLen;
u_strToWCS(wDest,wDestLen,&reqLen,uSrc,uSrcLen,&err);
}
if (U_SUCCESS(err)) {
wsrc_ = wDest;
wsrcLen_ = wDestLen;
sbulk_=new stlstring(wsrc_,wsrcLen_);
}
} else {
/* pre-flight*/
u_strToWCS(wDest,wDestLen,&reqLen,uSrc,uSrcLen-1,&err);
if(err == U_BUFFER_OVERFLOW_ERROR){
err=U_ZERO_ERROR;
wDest =(wchar_t*) malloc(sizeof(wchar_t) * (reqLen+1));
wDestLen = reqLen+1;
u_strToWCS(wDest,wDestLen,&reqLen,uSrc,uSrcLen-1,&err);
}
if (U_SUCCESS(err)) {
wsrc_ = wDest;
wsrcLen_ = wDestLen;
sbulk_=new stlstring(wsrc_);
}
}
//free(wDest);
}
private:
ICUStringPerfFn fn1_;
StdStringPerfFn fn2_;
ULine* lines_;
WLine* wlines_;
int32_t numLines_;
UBool uselen_;
UChar* src_;
int32_t srcLen_;
wchar_t* wsrc_;
int32_t wsrcLen_;
UBool line_mode_;
//added for preparing testing data
UnicodeString* uS0_;
stlstring* sS0_;
UnicodeString* ubulk_;
stlstring* sbulk_;
FnType fnType_;
};
class StringPerformanceTest : public UPerfTest
{
public:
StringPerformanceTest(int32_t argc, const char *argv[], UErrorCode &status);
~StringPerformanceTest();
virtual UPerfFunction* runIndexedTest(int32_t index, UBool exec,
const char *&name,
char *par = NULL);
UPerfFunction* TestCtor();
UPerfFunction* TestCtor1();
UPerfFunction* TestCtor2();
UPerfFunction* TestCtor3();
UPerfFunction* TestAssign();
UPerfFunction* TestAssign1();
UPerfFunction* TestAssign2();
UPerfFunction* TestGetch();
UPerfFunction* TestCatenate();
UPerfFunction* TestScan();
UPerfFunction* TestScan1();
UPerfFunction* TestScan2();
UPerfFunction* TestStdLibCtor();
UPerfFunction* TestStdLibCtor1();
UPerfFunction* TestStdLibCtor2();
UPerfFunction* TestStdLibCtor3();
UPerfFunction* TestStdLibAssign();
UPerfFunction* TestStdLibAssign1();
UPerfFunction* TestStdLibAssign2();
UPerfFunction* TestStdLibGetch();
UPerfFunction* TestStdLibCatenate();
UPerfFunction* TestStdLibScan();
UPerfFunction* TestStdLibScan1();
UPerfFunction* TestStdLibScan2();
private:
long COUNT_;
ULine* filelines_;
UChar* StrBuffer;
int32_t StrBufferLen;
};
inline void ctor(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UnicodeString a;
}
inline void ctor1(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UnicodeString b(uTESTCHAR1);
}
inline void ctor2(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UnicodeString c(uEMPTY);
}
inline void ctor3(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UnicodeString d(src,srcLen);
}
inline UnicodeString icu_assign_helper(const UChar* src,int32_t srcLen)
{
if (srcLen==-1) { return src;}
else { return UnicodeString(src, srcLen);}
}
inline void assign(const UChar* src,int32_t srcLen, UnicodeString s0)
{
unistr = icu_assign_helper(src,srcLen);
}
inline void assign1(const UChar* src,int32_t srcLen, UnicodeString s0)
{
unistr.setTo(src, srcLen);
}
inline void assign2(const UChar* src,int32_t srcLen, UnicodeString s0)
{
unistr = s0;
}
inline void getch(const UChar* src,int32_t srcLen, UnicodeString s0)
{
s0.charAt(0);
}
inline void catenate(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UTimer mystart, mystop;
utimer_getTime(&mystart);
*catICU += s0;
utimer_getTime(&mystop);
double mytime = utimer_getDeltaSeconds(&mystart,&mystop);
printf("\nmytime=%f \n", mytime);
*catICU += uCatenate_STR;
}
volatile int scan_idx;
U_STRING_DECL(SCAN1, "123", 3);
inline void scan(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UChar c='.';
scan_idx = uScan_STRING.indexOf(c);
}
inline void scan1(const UChar* src,int32_t srcLen, UnicodeString s0)
{
scan_idx = uScan_STRING.indexOf(SCAN1,3);
}
inline void scan2(const UChar* src,int32_t srcLen, UnicodeString s0)
{
UChar c1='s';
UChar c2='m';
scan_idx = uScan_STRING.indexOf(c1);
scan_idx = uScan_STRING.indexOf(c2);
}
inline void StdLibCtor(const wchar_t* src,int32_t srcLen, stlstring s0)
{
stlstring a;
}
inline void StdLibCtor1(const wchar_t* src,int32_t srcLen, stlstring s0)
{
stlstring b(simulate);
}
inline void StdLibCtor2(const wchar_t* src,int32_t srcLen, stlstring s0)
{
stlstring c(sEMPTY);
}
inline void StdLibCtor3(const wchar_t* src,int32_t srcLen, stlstring s0)
{
if (srcLen==-1) {
stlstring d(src);
}else {
stlstring d(src, srcLen);
}
}
inline stlstring stl_assign_helper(const wchar_t* src,int32_t srcLen)
{
if (srcLen==-1) { return src;}
else { return stlstring(src, srcLen);}
}
inline void StdLibAssign(const wchar_t* src,int32_t srcLen, stlstring s0)
{
stlstr = stl_assign_helper(src,srcLen);
}
inline void StdLibAssign1(const wchar_t* src,int32_t srcLen, stlstring s0)
{
if (srcLen==-1) { stlstr=src;}
else { stlstr.assign(src, srcLen);}
}
inline void StdLibAssign2(const wchar_t* src,int32_t srcLen, stlstring s0)
{
stlstr=s0;
}
inline void StdLibGetch(const wchar_t* src,int32_t srcLen, stlstring s0)
{
s0.at(0);
}
inline void StdLibCatenate(const wchar_t* src,int32_t srcLen, stlstring s0)
{
UTimer mystart, mystop;
utimer_getTime(&mystart);
*catStd += s0;
*catStd += sCatenate_STR;
utimer_getTime(&mystop);
double mytime = utimer_getDeltaSeconds(&mystart,&mystop);
printf("\nmytime=%f \n", mytime);
}
inline void StdLibScan(const wchar_t* src,int32_t srcLen, stlstring s0)
{
scan_idx = (int) sScan_STRING.find('.');
}
inline void StdLibScan1(const wchar_t* src,int32_t srcLen, stlstring s0)
{
scan_idx = (int) sScan_STRING.find(L"123");
}
inline void StdLibScan2(const wchar_t* src,int32_t srcLen, stlstring s0)
{
scan_idx = (int) sScan_STRING.find_first_of(L"sm");
}
#endif // STRINGPERF_H