/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is mozilla.org code. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Pierre Phaneuf * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include #include #include "nsISupports.h" #include "nsIComponentManager.h" #include "nsILocale.h" #include "nsILocaleFactory.h" #include "nsLocaleCID.h" #if defined(XP_MAC) || defined(XP_MACOSX) #include "nsIMacLocale.h" #include #elif defined(XP_WIN) || defined(XP_OS2) #include "nsIWin32Locale.h" #else #include "nsIPosixLocale.h" #endif #include "nsCollationCID.h" #include "nsICollation.h" #include "nsDateTimeFormatCID.h" #include "nsIDateTimeFormat.h" #include "nsReadableUtils.h" #ifdef XP_MAC #define LOCALE_DLL_NAME "NSLOCALE_DLL" #define UCONV_DLL "UCONV_DLL" #define UCVLATIN_DLL "UCVLATIN_DLL" #define UNICHARUTIL_DLL_NAME "UNICHARUTIL_DLL" #elif defined(XP_WIN) || defined(XP_OS2) #define LOCALE_DLL_NAME "NSLOCALE.DLL" #define UCONV_DLL "uconv.dll" #define UCVLATIN_DLL "ucvlatin.dll" #define UNICHARUTIL_DLL_NAME "unicharutil.dll" #else #define LOCALE_DLL_NAME "libnslocale"MOZ_DLL_SUFFIX #define UCONV_DLL "libuconv"MOZ_DLL_SUFFIX #define UCVLATIN_DLL "libucvlatin"MOZ_DLL_SUFFIX #define UNICHARUTIL_DLL_NAME "libunicharutil"MOZ_DLL_SUFFIX #endif // Collation // static NS_DEFINE_CID(kCollationFactoryCID, NS_COLLATIONFACTORY_CID); // Date and Time // static NS_DEFINE_CID(kDateTimeFormatCID, NS_DATETIMEFORMAT_CID); // locale // static NS_DEFINE_CID(kLocaleFactoryCID, NS_LOCALEFACTORY_CID); // platform specific // #if defined(XP_MAC) || defined(XP_MACOSX) static NS_DEFINE_IID(kMacLocaleFactoryCID, NS_MACLOCALEFACTORY_CID); static NS_DEFINE_IID(kIMacLocaleIID, NS_MACLOCALE_CID); #elif defined(XP_WIN) || defined(XP_OS2) static NS_DEFINE_CID(kWin32LocaleFactoryCID, NS_WIN32LOCALEFACTORY_CID); static NS_DEFINE_IID(kIWin32LocaleIID, NS_IWIN32LOCALE_IID); #else static NS_DEFINE_IID(kPosixLocaleFactoryCID, NS_POSIXLOCALEFACTORY_CID); static NS_DEFINE_IID(kIPosixLocaleIID, NS_IPOSIXLOCALE_IID); #endif // global variable static PRBool g_verbose = PR_FALSE; static FILE *g_outfp = NULL; static char g_usage[] = " usage:\n-date\tdate time format test\n-col\tcollation test\n-sort\tsort test\n\ -f file\tsort data file\n-o out file\tsort result file\n-case\tcase sensitive sort\n-locale\tlocale\n-v\tverbose\n"; // Create a collation key, the memory is allocated using new which need to be deleted by a caller. // static nsresult CreateCollationKey(nsICollation *t, PRInt32 strength, nsString& stringIn, PRUint8 **aKey, PRUint32 *keyLength) { nsresult res; // create a raw collation key res = t->GetSortKeyLen(strength, stringIn, keyLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } *aKey = (PRUint8 *) new PRUint8[*keyLength]; if (NULL == *aKey) { printf("\tFailed!! memory allocation failed.\n"); } res = t->CreateRawSortKey(strength, stringIn, *aKey, keyLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } // create a key in nsString nsString aKeyString; res = t->CreateSortKey(strength, stringIn, aKeyString); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } // compare the generated key nsString tempString; tempString.SetString((PRUnichar *) *aKey, *keyLength / sizeof(PRUnichar)); NS_ASSERTION(aKeyString == tempString, "created key mismatch"); return res; } static void DebugDump(nsString& aString) { #ifdef WIN32 char s[512]; int len = WideCharToMultiByte(GetACP(), 0, (LPCWSTR ) aString.get(), aString.Length(), s, 512, NULL, NULL); s[len] = '\0'; fflush(stdout); printf("%s\n", s); #elif defined(XP_MAC) || defined(XP_MACOSX) // Use TEC (Text Encoding Conversion Manager) TextEncoding outEncoding; TECObjectRef anEncodingConverter; ByteCount oInputRead, oOutputLen; char oOutputStr[512]; OSStatus err = 0; err = UpgradeScriptInfoToTextEncoding (smSystemScript/*smCurrentScript*/, kTextLanguageDontCare, kTextRegionDontCare, NULL, &outEncoding); err = TECCreateConverter(&anEncodingConverter, kTextEncodingUnicodeV2_0, outEncoding); err = TECConvertText(anEncodingConverter, (ConstTextPtr) aString.get(), aString.Length() * sizeof(PRUnichar), &oInputRead, (TextPtr) oOutputStr, 512, &oOutputLen); err = TECDisposeConverter(anEncodingConverter); oOutputStr[oOutputLen] = '\0'; fflush(NULL); printf("%s\n", oOutputStr); #else for (int i = 0; i < aString.Length(); i++) { putchar((char) aString[i]); } printf("\n"); #endif } // Test all functions in nsICollation. // static void TestCollation(nsILocale *locale) { // nsString locale("en-US"); nsICollationFactory *f = NULL; nsICollation *t = NULL; nsresult res; printf("==============================\n"); printf("Start nsICollation Test \n"); printf("==============================\n"); res = CallCreateInstance(kCollationFactoryCID, &f); printf("Test 1 - CreateInstance():\n"); if(NS_FAILED(res) || ( f == NULL ) ) { printf("\t1st CreateInstance failed\n"); } else { f->Release(); } res = CallCreateInstance(kCollationFactoryCID, &f); if(NS_FAILED(res) || ( f == NULL ) ) { printf("\t2nd CreateInstance failed\n"); } res = f->CreateCollation(locale, &t); if(NS_FAILED(res) || ( t == NULL ) ) { printf("\tCreateCollation failed\n"); } else { nsString string1("abcde"); nsString string2("ABCDE"); nsString string3("xyz"); nsString string4("abc"); PRUint32 keyLength1, keyLength2, keyLength3; PRUint8 *aKey1, *aKey2, *aKey3; PRUint32 i; PRInt32 result; printf("String data used:\n"); printf("string1: "); DebugDump(string1); printf("string2: "); DebugDump(string2); printf("string3: "); DebugDump(string3); printf("string4: "); DebugDump(string4); printf("Test 2 - CompareString():\n"); res = t->CompareString(nsICollation::kCollationCaseInSensitive, string1, string2, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case insensitive comparison (string1 vs string2): %d\n", result); res = t->CompareString(nsICollation::kCollationCaseSensitive, string1, string2, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case sensitive comparison (string1 vs string2): %d\n", result); printf("Test 3 - GetSortKeyLen():\n"); res = t->GetSortKeyLen(nsICollation::kCollationCaseSensitive, string2, &keyLength1); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("keyLength: %d\n", keyLength1); printf("Test 4 - CreateRawSortKey():\n"); aKey1 = (PRUint8 *) new PRUint8[keyLength1]; if (NULL == aKey1) { printf("\tFailed!! memory allocation failed.\n"); } res = t->CreateRawSortKey(nsICollation::kCollationCaseSensitive, string2, aKey1, &keyLength1); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case sensitive key creation:\n"); printf("keyLength: %d\n", keyLength1); DebugDump(string2); fflush(NULL); for (i = 0; i < keyLength1; i++) { printf("%.2x ", aKey1[i]); //printf("key[" << i << "]: " << aKey1[i] << " "); } printf("\n"); res = CreateCollationKey(t, nsICollation::kCollationCaseInSensitive, string2, &aKey2, &keyLength2); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case insensitive key creation:\n"); printf("keyLength: %d\n", keyLength2); DebugDump(string2); fflush(NULL); for (i = 0; i < keyLength2; i++) { printf("%.2x ", aKey2[i]); //printf("key[" << i << "]: " << aKey2[i] << " "); } printf("\n"); printf("Test 5 - CompareRawSortKey():\n"); res = CreateCollationKey(t, nsICollation::kCollationCaseSensitive, string1, &aKey3, &keyLength3); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } res = t->CompareRawSortKey(aKey1, keyLength1, aKey3, keyLength3, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case sensitive comparison (string1 vs string2): %d\n", result); res = t->CompareRawSortKey(aKey3, keyLength3, aKey1, keyLength1, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case sensitive comparison (string2 vs string1): %d\n", result); res = t->CompareRawSortKey(aKey2, keyLength2, aKey3, keyLength3, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case insensitive comparison (string1 vs string2): %d\n", result); if (NULL != aKey1) delete[] aKey1; if (NULL != aKey2) delete[] aKey2; if (NULL != aKey3) delete[] aKey3; res = CreateCollationKey(t, nsICollation::kCollationCaseSensitive, string1, &aKey1, &keyLength1); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } res = CreateCollationKey(t, nsICollation::kCollationCaseSensitive, string3, &aKey2, &keyLength2); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } res = CreateCollationKey(t, nsICollation::kCollationCaseSensitive, string4, &aKey3, &keyLength3); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } res = t->CompareRawSortKey(aKey1, keyLength1, aKey2, keyLength2, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case sensitive comparison (string1 vs string3): %d\n", result); res = t->CompareRawSortKey(aKey1, keyLength1, aKey3, keyLength3, &result); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } printf("case sensitive comparison (string1 vs string4): %d\n", result); if (NULL != aKey1) delete[] aKey1; if (NULL != aKey2) delete[] aKey2; if (NULL != aKey3) delete[] aKey3; res = t->Release(); res = f->Release(); } printf("==============================\n"); printf("Finish nsICollation Test \n"); printf("==============================\n"); } // Sort test using qsort // static nsICollation *g_collationInst = NULL; static PRInt32 g_CollationStrength= nsICollation::kCollationCaseInSensitive; static void TestSortPrint1(nsString *string_array, int len) { for (int i = 0; i < len; i++) { //string_array[i].DebugDump(cout); DebugDump(string_array[i]); } printf("\n"); } static void TestSortPrintToFile(nsString *string_array, int len) { for (int i = 0; i < len; i++) { #ifdef WIN32 char cstr[512]; int len = WideCharToMultiByte(GetACP(), 0, (LPCWSTR ) string_array[i].get(), string_array[i].Length(), cstr, 512, NULL, NULL); cstr[len] = '\0'; fprintf(g_outfp, "%s\n", cstr); #else fprintf(g_outfp, "%s\n", NS_LossyConvertUCS2ToASCII(string_array[i]).get()); #endif } fprintf(g_outfp, "\n"); } static void DebugPrintCompResult(const nsString& string1, const nsString& string2, int result) { #ifdef WIN32 char s[512]; int len = WideCharToMultiByte(GetACP(), 0, (LPCWSTR ) string1.get(), string1.Length(), s, 512, NULL, NULL); s[len] = '\0'; printf("%s ", s); switch ((int)result) { case 0: printf("=="); break; case 1: printf(">"); break; case -1: printf("<"); break; } len = WideCharToMultiByte(GetACP(), 0, (LPCWSTR ) string2.get(), string2.Length(), s, 512, NULL, NULL); s[len] = '\0'; printf(" %s\n", s); #else // Warning: casting to char* printf(NS_LossyConvertUCS2toASCII(string1).get() << ' '); switch ((int)result) { case 0: printf("=="); break; case 1: printf('>'); break; case -1: printf('<'); break; } printf(' ' << NS_LossyConvertUCS2toASCII(string2).get() << '\n'); #endif } static int compare1( const void *arg1, const void *arg2 ) { nsString string1, string2; PRInt32 result,result2; nsresult res; string1 = *(nsString *) arg1; string2 = *(nsString *) arg2; res = g_collationInst->CompareString(g_CollationStrength, string1, string2, &result2); nsString key1,key2; res = g_collationInst->CreateSortKey(g_CollationStrength, string1, key1); NS_ASSERTION(NS_SUCCEEDED(res), "CreateSortKey"); res = g_collationInst->CreateSortKey(g_CollationStrength, string2, key2); NS_ASSERTION(NS_SUCCEEDED(res), "CreateSortKey"); // dump collation keys if (g_verbose) { int i; for (i = 0; i < key1.Length(); i++) printf("%.2x", key1[i]); printf(" "); for (i = 0; i < key2.Length(); i++) printf("%.2x", key2[i]); printf("\n"); } res = g_collationInst->CompareSortKey(key1, key2, &result); NS_ASSERTION(NS_SUCCEEDED(res), "CreateSortKey"); NS_ASSERTION(NS_SUCCEEDED((PRBool)(result == result2)), "result unmatch"); if (g_verbose) { DebugPrintCompResult(string1, string2, result); } return (int) result; } typedef struct { PRUint8 *aKey; PRUint32 aLength; } collation_rec; static int compare2( const void *arg1, const void *arg2 ) { collation_rec *keyrec1, *keyrec2; PRInt32 result; nsresult res; keyrec1 = (collation_rec *) arg1; keyrec2 = (collation_rec *) arg2; res = g_collationInst->CompareRawSortKey(keyrec1->aKey, keyrec1->aLength, keyrec2->aKey, keyrec2->aLength, &result); return (int) result; } static void TestSortPrint2(collation_rec *key_array, int len) { PRUint32 aLength; PRUint8 *aKey; fflush(NULL); for (int i = 0; i < len; i++) { aLength = key_array[i].aLength; aKey = key_array[i].aKey; for (int j = 0; j < (int)aLength; j++) { printf("%.2x ", aKey[j]); } printf("\n"); } printf("\n"); } // Sort test by reading data from a file. // static void SortTestFile(nsICollation* collationInst, FILE* fp) { nsString string_array[256]; char buf[512]; int i = 0; // read lines and put them to nsStrings while (fgets(buf, 512, fp)) { if (*buf == '\n' || *buf == '\r') continue; // trim LF CR char *cp = buf + (strlen(buf) - 1); while (*cp) { if (*cp == '\n' || *cp == '\r') *cp = '\0'; else break; cp--; } #ifdef WIN32 wchar_t wcs[512]; int len = MultiByteToWideChar(GetACP(), 0, buf, strlen(buf), wcs, 512); wcs[len] = L'\0'; string_array[i].SetString((PRUnichar *)wcs); #else string_array[i].SetString(buf); #endif i++; } printf("print string before sort\n"); TestSortPrint1(string_array, i); g_collationInst = collationInst; qsort( (void *)string_array, i, sizeof(nsString), compare1 ); printf("print string after sort\n"); (g_outfp == NULL) ? TestSortPrint1(string_array, i) : TestSortPrintToFile(string_array, i); } // Use nsICollation for qsort. // static void TestSort(nsILocale *locale, PRInt32 collationStrength, FILE *fp) { nsresult res; nsICollationFactory *factoryInst; nsICollation *collationInst; PRInt32 strength; collation_rec key_array[5]; PRUint8 *aKey; PRUint32 aLength; //nsString locale("en-US"); nsString string1("AAC"); nsString string2("aac"); nsString string3("AAC"); nsString string4("aac"); nsString string5("AAC"); nsString string_array[5]; printf("==============================\n"); printf("Start sort Test \n"); printf("==============================\n"); res = CallCreateInstance(kCollationFactoryCID, &factoryInst); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } res = factoryInst->CreateCollation(locale, &collationInst); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } // set collation strength g_CollationStrength = collationStrength; strength = g_CollationStrength; if (fp != NULL) { res = NS_ADDREF(collationInst); SortTestFile(collationInst, fp); NS_RELEASE(collationInst); return; } printf("==============================\n"); printf("Sort Test by comparestring.\n"); printf("==============================\n"); string_array[0] = string1; string_array[1] = string2; string_array[2] = string3; string_array[3] = string4; string_array[4] = string5; printf("print string before sort\n"); TestSortPrint1(string_array, 5); g_collationInst = collationInst; res = collationInst->AddRef(); qsort( (void *)string_array, 5, sizeof(nsString), compare1 ); res = collationInst->Release(); printf("print string after sort\n"); TestSortPrint1(string_array, 5); printf("==============================\n"); printf("Sort Test by collation key.\n"); printf("==============================\n"); res = CreateCollationKey(collationInst, strength, string1, &aKey, &aLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } key_array[0].aKey = aKey; key_array[0].aLength = aLength; res = CreateCollationKey(collationInst, strength, string2, &aKey, &aLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } key_array[1].aKey = aKey; key_array[1].aLength = aLength; res = CreateCollationKey(collationInst, strength, string3, &aKey, &aLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } key_array[2].aKey = aKey; key_array[2].aLength = aLength; res = CreateCollationKey(collationInst, strength, string4, &aKey, &aLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } key_array[3].aKey = aKey; key_array[3].aLength = aLength; res = CreateCollationKey(collationInst, strength, string5, &aKey, &aLength); if(NS_FAILED(res)) { printf("\tFailed!! return value != NS_OK\n"); } key_array[4].aKey = aKey; key_array[4].aLength = aLength; printf("print key before sort\n"); TestSortPrint2(key_array, 5); g_collationInst = collationInst; res = collationInst->AddRef(); qsort( (void *)key_array, 5, sizeof(collation_rec), compare2 ); res = collationInst->Release(); printf("print key after sort\n"); TestSortPrint2(key_array, 5); res = collationInst->Release(); res = factoryInst->Release(); for (int i = 0; i < 5; i++) { delete [] key_array[i].aKey; } printf("==============================\n"); printf("Finish sort Test \n"); printf("==============================\n"); } // Test all functions in nsIDateTimeFormat. // static void TestDateTimeFormat(nsILocale *locale) { nsresult res; printf("==============================\n"); printf("Start nsIScriptableDateFormat Test \n"); printf("==============================\n"); nsIScriptableDateFormat *aScriptableDateFormat; res = CallCreateInstance(kDateTimeFormatCID, &aScriptableDateFormat); if(NS_FAILED(res) || ( aScriptableDateFormat == NULL ) ) { printf("\tnsIScriptableDateFormat CreateInstance failed\n"); } PRUnichar *aUnichar; nsString aString; PRUnichar aLocaleUnichar[1]; *aLocaleUnichar = 0; res = aScriptableDateFormat->FormatDateTime(aLocaleUnichar, kDateFormatShort, kTimeFormatSeconds, 1999, 7, 31, 8, 21, 58, &aUnichar); aString.SetString(aUnichar); DebugDump(aString); res = aScriptableDateFormat->FormatDate(aLocaleUnichar, kDateFormatLong, 1970, 4, 20, &aUnichar); aString.SetString(aUnichar); DebugDump(aString); res = aScriptableDateFormat->FormatTime(aLocaleUnichar, kTimeFormatSecondsForce24Hour, 13, 59, 31, &aUnichar); aString.SetString(aUnichar); DebugDump(aString); aScriptableDateFormat->Release(); printf("==============================\n"); printf("Start nsIDateTimeFormat Test \n"); printf("==============================\n"); nsIDateTimeFormat *t = NULL; res = CallCreateInstance(kDateTimeFormatCID, &t); printf("Test 1 - CreateInstance():\n"); if(NS_FAILED(res) || ( t == NULL ) ) { printf("\t1st CreateInstance failed\n"); } else { t->Release(); } res = CallCreateInstance(kDateTimeFormatCID, &t); if(NS_FAILED(res) || ( t == NULL ) ) { printf("\t2nd CreateInstance failed\n"); } else { } nsAutoString dateString; // nsString locale("en-GB"); time_t timetTime; printf("Test 2 - FormatTime():\n"); time( &timetTime ); res = t->FormatTime(locale, kDateFormatShort, kTimeFormatSeconds, timetTime, dateString); DebugDump(dateString); printf("Test 3 - FormatTMTime():\n"); time_t ltime; time( <ime ); // try (almost) all format combination res = t->FormatTMTime(locale, kDateFormatNone, kTimeFormatNone, localtime( <ime ), dateString); printf("kDateFormatNone, kTimeFormatNone:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatNone, kTimeFormatSeconds, localtime( <ime ), dateString); printf("kDateFormatNone, kTimeFormatSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatNone, kTimeFormatNoSeconds, localtime( <ime ), dateString); printf("kDateFormatNone, kTimeFormatNoSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatLong, kTimeFormatNone, localtime( <ime ), dateString); printf("kDateFormatLong, kTimeFormatNone:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatLong, kTimeFormatSeconds, localtime( <ime ), dateString); printf("kDateFormatLong, kTimeFormatSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatLong, kTimeFormatNoSeconds, localtime( <ime ), dateString); printf("kDateFormatLong, kTimeFormatNoSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatShort, kTimeFormatNone, localtime( <ime ), dateString); printf("kDateFormatShort, kTimeFormatNone:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatShort, kTimeFormatSeconds, localtime( <ime ), dateString); printf("kDateFormatShort, kTimeFormatSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatShort, kTimeFormatNoSeconds, localtime( <ime ), dateString); printf("kDateFormatShort, kTimeFormatNoSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatYearMonth, kTimeFormatNone, localtime( <ime ), dateString); printf("kDateFormatYearMonth, kTimeFormatNone:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatYearMonth, kTimeFormatSeconds, localtime( <ime ), dateString); printf("kDateFormatYearMonth, kTimeFormatSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatYearMonth, kTimeFormatNoSeconds, localtime( <ime ), dateString); printf("kDateFormatYearMonth, kTimeFormatNoSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatWeekday, kTimeFormatNone, localtime( <ime ), dateString); printf("kDateFormatWeekday, kTimeFormatNone:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatWeekday, kTimeFormatSeconds, localtime( <ime ), dateString); printf("kDateFormatWeekday, kTimeFormatSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatWeekday, kTimeFormatNoSeconds, localtime( <ime ), dateString); printf("kDateFormatWeekday, kTimeFormatNoSeconds:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatWeekday, kTimeFormatSecondsForce24Hour, localtime( <ime ), dateString); printf("kDateFormatWeekday, kTimeFormatSecondsForce24Hour:\n"); DebugDump(dateString); res = t->FormatTMTime(locale, kDateFormatWeekday, kTimeFormatNoSecondsForce24Hour, localtime( <ime ), dateString); printf("kDateFormatWeekday, kTimeFormatNoSecondsForce24Hour:\n"); DebugDump(dateString); res = t->Release(); printf("==============================\n"); printf("Finish nsIDateTimeFormat Test \n"); printf("==============================\n"); } static nsresult NewLocale(const nsString* localeName, nsILocale** locale) { nsresult res; nsCOMPtr localeFactory = do_GetClassObject(kLocaleFactoryCID, &res); if (NS_FAILED(res) || localeFactory == nsnull) printf("FindFactory nsILocaleFactory failed\n"); res = localeFactory->NewLocale(localeName, locale); if (NS_FAILED(res) || locale == nsnull) printf("NewLocale failed\n"); return res; } static void Test_nsLocale() { #if defined(XP_MAC) || defined(XP_MACOSX) nsAutoString localeName; nsCOMPtr macLocale; short script, lang; nsresult res; nsCOMPtr win32Locale = do_CreateInstance(kMacLocaleFactoryCID); if (macLocale) { localeName.AssignLiteral("en-US"); res = macLocale->GetPlatformLocale(localeName, &script, &lang); printf("script for en-US is 0\n"); printf("result: script = %d lang = %d\n", script, lang); localeName.AssignLiteral("en-GB"); res = macLocale->GetPlatformLocale(localeName, &script, &lang); printf("script for en-GB is 0\n"); printf("result: script = %d lang = %d\n", script, lang); localeName.AssignLiteral("fr-FR"); res = macLocale->GetPlatformLocale(localeName, &script, &lang); printf("script for fr-FR is 0\n"); printf("result: script = %d lang = %d\n", script, lang); localeName.AssignLiteral("de-DE"); res = macLocale->GetPlatformLocale(localeName, &script, &lang); printf("script for de-DE is 0\n"); printf("result: script = %d lang = %d\n", script, lang); localeName.AssignLiteral("ja-JP"); res = macLocale->GetPlatformLocale(localeName, &script, &lang); printf("script for ja-JP is 1\n"); printf("result: script = %d lang = %d\n", script, lang); } #elif defined(XP_WIN) || defined(XP_OS2) nsAutoString localeName; LCID lcid; nsresult res; nsCOMPtr win32Locale = do_CreateInstance(kWin32LocaleFactoryCID); if (win32Locale) { localeName.AssignLiteral("en-US"); res = win32Locale->GetPlatformLocale(localeName, &lcid); printf("LCID for en-US is 1033\n"); printf("result: locale = %s LCID = 0x%0.4x %d\n", NS_LossyConvertUCS2toASCII(localeName).get(), lcid, lcid); localeName.AssignLiteral("en-GB"); res = win32Locale->GetPlatformLocale(localeName, &lcid); printf("LCID for en-GB is 2057\n"); printf("result: locale = %s LCID = 0x%0.4x %d\n", NS_LossyConvertUCS2toASCII(localeName).get(), lcid, lcid); localeName.AssignLiteral("fr-FR"); res = win32Locale->GetPlatformLocale(localeName, &lcid); printf("LCID for fr-FR is 1036\n"); printf("result: locale = %s LCID = 0x%0.4x %d\n", NS_LossyConvertUCS2toASCII(localeName).get(), lcid, lcid); localeName.AssignLiteral("de-DE"); res = win32Locale->GetPlatformLocale(localeName, &lcid); printf("LCID for de-DE is 1031\n"); printf("result: locale = %s LCID = 0x%0.4x %d\n", NS_LossyConvertUCS2toASCII(localeName).get(), lcid, lcid); localeName.AssignLiteral("ja-JP"); res = win32Locale->GetPlatformLocale(localeName, &lcid); printf("LCID for ja-JP is 1041\n"); printf("result: locale = %s LCID = 0x%0.4x %d\n", NS_LossyConvertUCS2toASCII(localeName).get(), lcid, lcid); } #else nsAutoString localeName; char locale[32]; size_t length = 32; nsresult res; nsCOMPtr posixLocale = do_CreateInstance(kPosixLocaleFactoryCID); if (posixLocale) { localeName.AssignLiteral("en-US"); res = posixLocale->GetPlatformLocale(localeName, locale, length); printf("result: locale = %s POSIX = %s\n", NS_LossyConvertUCS2toASCII(localeName).get(), locale); localeName.AssignLiteral("en-GB"); res = posixLocale->GetPlatformLocale(localeName, locale, length); printf("result: locale = %s POSIX = %s\n", NS_LossyConvertUCS2toASCII(localeName).get(), locale); localeName.AssignLiteral("fr-FR"); res = posixLocale->GetPlatformLocale(localeName, locale, length); printf("result: locale = %s POSIX = %s\n", NS_LossyConvertUCS2toASCII(localeName).get(), locale); localeName.AssignLiteral("de-DE"); res = posixLocale->GetPlatformLocale(localeName, locale, length); printf("result: locale = %s POSIX = %s\n", NS_LossyConvertUCS2toASCII(localeName).get(), locale); localeName.AssignLiteral("ja-JP"); res = posixLocale->GetPlatformLocale(localeName, locale, length); printf("result: locale = %s POSIX = %s\n", NS_LossyConvertUCS2toASCII(localeName).get(), locale); } else { printf("Fail: CreateInstance PosixLocale\n"); } #endif } static char* get_option(int argc, char** argv, char* arg) { for (int i = 0; i < argc; i++) { if (!strcmp(argv[i], arg)) { NS_ASSERTION((i <= argc && argv[i+1]), "option not specified"); return argv[i+1]; } } return NULL; } static char* find_option(int argc, char** argv, char* arg) { for (int i = 0; i < argc; i++) { if (!strcmp(argv[i], arg)) { return argv[i]; } } return NULL; } #ifdef XP_MAC #define kMaxArgs 16 static char g_arg_array[kMaxArgs][256]; static int make_args(char **argv) { int argc = 0; char *token; char s[256]; char seps[] = " ,\t"; strcpy(g_arg_array[argc], "LocaleSelfTest"); argc++; printf("%s\ntype option(s) then hit return\n", g_usage); if (gets(s)) { token = strtok(s, seps); while (token != NULL && argc < kMaxArgs) { strcpy(g_arg_array[argc], token); argv[argc] = g_arg_array[argc]; argc++; token = strtok(NULL, seps); } printf("\noptions specified: "); for (int i = 0; i < argc; i++) { printf("%s ", argv[i]); } printf("\n"); } return argc; } #endif//XP_MAC int main(int argc, char** argv) { #ifdef XP_MAC char *mac_argv[kMaxArgs]; argc = make_args(mac_argv); argv = mac_argv; #endif//XP_MAC nsCOMPtr locale; nsresult res; nsCOMPtr localeFactory = do_GetClassObject(kLocaleFactoryCID, &res); if (NS_FAILED(res) || localeFactory == nsnull) printf("FindFactory nsILocaleFactory failed\n"); res = localeFactory->GetApplicationLocale(getter_AddRefs(locale)); if (NS_FAILED(res) || locale == nsnull) printf("GetApplicationLocale failed\n"); // -------------------------------------------- PRInt32 strength = nsICollation::kCollationCaseInSensitive; FILE *fp = NULL; if (argc == 1) { TestCollation(locale); TestSort(locale, nsICollation::kCollationCaseInSensitive, NULL); TestDateTimeFormat(locale); } else { char *s; s = find_option(argc, argv, "-h"); if (s) { printf(argv[0] << g_usage); return 0; } s = find_option(argc, argv, "-v"); if (s) { g_verbose = PR_TRUE; //test for locale Test_nsLocale(); } s = get_option(argc, argv, "-f"); if (s) { fp = fopen(s, "r"); } s = get_option(argc, argv, "-o"); if (s) { g_outfp = fopen(s, "w"); } s = find_option(argc, argv, "-case"); if (s) { strength = nsICollation::kCollationCaseSensitive; } s = get_option(argc, argv, "-locale"); if (s) { nsString localeName(s); res = NewLocale(localeName, getter_AddRefs(locale)); // reset the locale } // print locale string nsAutoString localeStr; locale->GetCategory(NS_LITERAL_STRING("NSILOCALE_COLLATE"), localeStr); printf("locale setting for collation is "); DebugDump(localeStr); locale->GetCategory(NS_LITERAL_STRING("NSILOCALE_TIME"), localeStr); printf("locale setting for time is "); DebugDump(localeStr); while (argc--) { if (!strcmp(argv[argc], "-col")) TestCollation(locale); else if (!strcmp(argv[argc], "-sort")) TestSort(locale, strength, fp); else if (!strcmp(argv[argc], "-date")) TestDateTimeFormat(locale); } if (fp != NULL) { fclose(fp); } if (g_outfp != NULL) { fclose(g_outfp); } } // -------------------------------------------- printf("Finish All The Test Cases\n"); return 0; }