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/********************************************************************************************
*
* MODULES NOTES:
*
* This file is designed to help test the new nsString classes.
*
* Contributor(s):
* Rick Gessner <rickg@netscape.com>
*
* History:
*
* 02.29.2000: Original files (rickg)
* 03.02.2000: Flesh out the interface to be compatible with old library (rickg)
*
********************************************************************************************/
#ifndef _STRINGTEST2
#define _STRINGTEST2
#include "nsString.h"
#include <time.h>
#define USE_STL
#ifdef USE_STL
#include <string>
using namespace std;
#endif
#define USE_WIDE 1
#ifdef USE_WIDE
#define stringtype nsString
#define astringtype nsAutoString
#define chartype PRUnichar
#else
#define stringtype nsCString
#define astringtype nsCAutoString
#define chartype char
#endif
#include <stdio.h>
const double gTicks = 1.0e-7;
/********************************************************
This class's only purpose in life is to test the
netscape string library. We exercise the string
API's here, and do a bit of performance testing
against the standard c++ library string (from STL).
********************************************************/
class CStringTester {
public:
int TestI18nString();
};
//test 1: unicode char is stripped correctly using StripChars()
void nsStringTest1(){
PRUnichar test[]={0x0041,0x0051,0x0052,0x0000};
nsString T(test);
PRUnichar result[]={0x0051,0x0052,0x0000};
nsString R(result);
T.StripChars("ABC");
NS_ASSERTION(T.Equals(R), "Test 1: Unicode comparison error");
}
//test 2: unicode char is not matched and stripped when high-order byte is not 0x00
void nsStringTest2(){
PRUnichar test[]={0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[]={0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.StripChars("ABC");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
//test 3: unicode char is not matched and stripped when high-order byte is 0xFF
void nsStringTest3(){
PRUnichar test[] = {0xFF41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0xFF41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(test);
T.StripChars("ABC");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest4(){
//test 4: unicode char is matched and stripped correctly using StripChar()
PRUnichar test[] = {0x0041,0x0051,0x0052,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x0051,0x0052,0x0000};
nsAutoString R(result);
T.StripChar('A');
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest5(){
//test 5: unicode char is not matched and stripped when high-order byte is not 0x00
PRUnichar test[]={0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[]={0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.StripChar('A');
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest6(){
//test 6: unicode char is not matched and stripped when high-order byte is 0xFF
PRUnichar test[] = {0xFF41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0xFF41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.StripChar('A');
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest7(){
//test 7: unicode char is matched and replaced correctly using ReplaceChar()
PRUnichar test[] = {0x0041,0x0051,0x0052,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x0050,0x0051,0x0052,0x0000};
nsAutoString R(result);
T.ReplaceChar('A',0x50);
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest8(){
//test 8: unicode char is not matched or replaced when high-order byte != 0x00
PRUnichar test[] = {0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.ReplaceChar('A',0x50);
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest9(){
//test 9: unicode char is not matched or replaced when high-order byte matches search char
PRUnichar test[] = {0x4150,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4150,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.ReplaceChar('A',0x50);
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest10(){
//test 10: unicode char is not matched or replaced when high-order byte == 0xFF
PRUnichar test[] = {0xFFc1,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0xFFc1,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.ReplaceChar('A',0x50);
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest11(){
//test 11: unicode char is correctly replaced when parameter 1 is a string
PRUnichar test[] = {0x0041,0x0051,0x0052,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x0050,0x0051,0x0052,0x0000};
nsAutoString R(result);
T.ReplaceChar("ABC",0x50);
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest12(){
//test 12: unicode char is not replaced when high-order byte != 0x00
PRUnichar test[] = {0x4e41,0x0051,0x0052,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4e41,0x0051,0x0052,0x0000};
nsAutoString R(result);
T.ReplaceChar("ABC",0x50);
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest13(){
//test 13: unicode char is not replaced when high-order byte matches char in search string
PRUnichar test[] = {0x4150,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4150,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.ReplaceChar("ABC",'T');
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest14(){
PRUnichar test[] = {0xFFc2,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0xFFc2,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.ReplaceChar("ABC",'T');
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest15(){
PRUnichar test[] = {0xFFc2,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0xFFc2,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
PRUnichar s = 0xc2; //compiler error on this line
T.ReplaceChar(s,'T');
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest16(){
/* TESTS for ReplaceSubstring()*/
PRUnichar test[] = {0x0041,0x0042,0x0043,0x0044,0x0045,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x0044,0x0045,0x0046,0x0044,0x0045};
nsAutoString R(result);
T.ReplaceSubstring("ABC","DEF");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest17(){
PRUnichar test[] = {0x0041,0x4e42,0x0043,0x0044,0x0045,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x0041,0x4e42,0x0043,0x0044,0x0045,0x0000};
nsAutoString R(result);
T.ReplaceSubstring("ABC","DEF");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest18(){
/*TESTS for Trim()*/
PRUnichar test[] = {0x0041,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R (result);
T.Trim("ABC");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest19(){
PRUnichar test[] = {0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4e41,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString R(result);
T.Trim("ABC");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
void nsStringTest22(){
PRUnichar test[] = {0x4e51,0x4e52,0x4e53,0x4e41,0x0000};
nsAutoString T(test);
PRUnichar result[] = {0x4e51,0x4e52,0x4e53,0x4e41,0x0000};
nsAutoString R(result);
T.Trim("ABC");
NS_ASSERTION(T.Equals(R), "Unicode comparison error");
}
//void nsStringTest23(){
// PRUnichar test[] = {0x4e51,0x4e52,0x4e53,0x4e22,0x0000};
// nsAutoString T(test);
// PRUnichar s(0x4e22);
// PRUnichar result[] = {0x4e51,0x4e52,0x4e53,0x0000};
// nsAutoString R(result);
// T.Trim(s,PR_TRUE,PR_TRUE,PR_FALSE);
// NS_ASSERTION(T.Equals(R), "Unicode comparison error");
//}
void nsStringTest24(){
/*TESTS for Find()*/
PRUnichar test[] = {0x0041,0x0042,0x0043,0x0051,0x0052,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.Find("ABC") == 0, "Unicode comparison error");
}
void nsStringTest25(){
PRUnichar test[] = {0x4e41,0x4e42,0x4e43,0x4e53,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.Find("ABC") == -1, "Unicode comparison error");
}
void nsStringTest26(){
PRUnichar test[] = {0xFFc1,0x0051,0x0052,0x0053,0x0000};
nsAutoString T(test);
PRUnichar str[] = {0xc1,0x51,0x52};
nsAutoString S(str);
NS_ASSERTION(T.Find(S) == -1, "Unicode comparison error");
}
void nsStringTest27(){
/*TESTS for FindChar()*/
PRUnichar test[] = {0x0041,0x0051,0x0052,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindChar('A') == 0, "Unicode comparison error");
}
void nsStringTest28(){
PRUnichar test[] = {0x4e41,0x4e42,0x4e43,0x4e53,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindChar('A') == -1, "Unicode comparison error");
}
void nsStringTest29(){
PRUnichar test[] = {0xFFc1,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindChar(0xc1) == -1, "Unicode comparison error");
}
void nsStringTest30(){
PRUnichar test[] = {0x4132,0x0051,0x0052,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindChar('A1') == -1, "Unicode comparison error");
}
/*TESTS for FindCharInSet()*/
void nsStringTest31(){
PRUnichar test[] = {0x0041,0x0051,0x0052,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindCharInSet("ABC") == 0, "Unicode comparison error");
}
void nsStringTest32(){
PRUnichar test[] = {0x4e41,0x4e42,0x4e43,0x4e53,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindCharInSet("ABC") == -1, "Unicode comparison error");
}
void nsStringTest33(){
PRUnichar test[] = {0xFFc1,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar str[] = {0xc1,0x51,0x52};
nsAutoString s(str);
NS_ASSERTION(T.FindCharInSet(s) == -1, "Unicode comparison error");
}
void nsStringTest34(){
PRUnichar test[] = {0x4132,0x5132,0x5232,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.FindCharInSet("ABC") == -1, "Unicode comparison error");
}
/*TESTS for RFind()*/
void nsStringTest35(){
PRUnichar test[] = {0x0051,0x0052,0x0041,0x0042,0x0043,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.RFind("ABC") == 2, "Unicode comparison error");
}
void nsStringTest36(){
PRUnichar test[] = {0x4e41,0x4e42,0x4e43,0x4e53,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.RFind("ABC") == -1, "Unicode comparison error");
}
void nsStringTest37(){
PRUnichar test[] = {0xFFc1,0xFFc2,0xFFc3,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar str[] = {0xc1,0xc2,0xc3};
nsAutoString s(str);
NS_ASSERTION(T.RFind(s) == -1, "Unicode comparison error");
}
/*TESTS for RFindCharInSet*/
void nsStringTest38(){
PRUnichar test[] = {0x0041,0x0042,0x0043,0x0000};
nsAutoString T(test);
int res = T.RFindCharInSet("ABC");
NS_ASSERTION(res==0, "Unicode comparison error");
}
void nsStringTest39(){
PRUnichar test[] = {0x4e41,0x4e42,0x4e43,0x4e53,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.RFindCharInSet("ABC") == -1, "Unicode comparison error");
}
void nsStringTest40(){
PRUnichar test[] = {0xFFc1,0x4e51,0x4e52,0x4e53,0x0000};
nsAutoString T(test);
PRUnichar str[] = {0xc1,0xc2,0xc3};
nsAutoString s(str);
NS_ASSERTION(T.RFindCharInSet(s) == -1, "Unicode comparison error");
}
void nsStringTest41(){
PRUnichar test[] = {0x4132,0x0051,0x0052,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.RFindCharInSet("ABC") == -1, "Unicode comparison error");
}
/* TESTS for Compare() */
void nsStringTest42(){
PRUnichar test[] = {0x0041,0x0042,0x0043,0x0000};
nsAutoString T(test);
NS_ASSERTION(T.Compare("ABC") == 0, "Unicode comparison error");
}
void nsStringTest43(){
PRUnichar test[] = {0xc341,0xc342,0xc343};
nsAutoString T(test);
NS_ASSERTION(T.Compare("ABC") == 1, "Unicode comparison error");
}
int CStringTester::TestI18nString(){
nsStringTest1();
nsStringTest2();
nsStringTest3();
nsStringTest4();
nsStringTest5();
nsStringTest6();
nsStringTest7();
nsStringTest8();
nsStringTest9();
nsStringTest10();
nsStringTest11();
nsStringTest12();
nsStringTest13();
nsStringTest14();
nsStringTest15();
nsStringTest16();
nsStringTest17();
nsStringTest18();
nsStringTest19();
//nsStringTest20();
//nsStringTest21();
nsStringTest22();
//nsStringTest23();
nsStringTest24();
nsStringTest25();
nsStringTest26();
nsStringTest27();
nsStringTest28();
nsStringTest29();
nsStringTest30();
nsStringTest31();
nsStringTest32();
nsStringTest33();
nsStringTest34();
nsStringTest35();
nsStringTest36();
nsStringTest37();
nsStringTest38();
nsStringTest39();
nsStringTest40();
nsStringTest41();
nsStringTest42();
nsStringTest43();
return 0;
}
#endif
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