/* ********************************************************************** * Copyright (C) 2002-2008, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * file name: iotest.cpp * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 2002feb21 * created by: George Rhoten */ #include "unicode/ustdio.h" #include "unicode/uclean.h" #include "unicode/ucnv.h" #include "unicode/uchar.h" #include "unicode/unistr.h" #include "unicode/ustring.h" #include "ustr_cnv.h" #include "iotest.h" #include "unicode/tstdtmod.h" #include "putilimp.h" #include #include class DataDrivenLogger : public TestLog { static const char* fgDataDir; static char *fgTestDataPath; public: static void cleanUp() { if (fgTestDataPath) { free(fgTestDataPath); fgTestDataPath = NULL; } } virtual void errln( const UnicodeString &message ) { char buffer[4000]; message.extract(0, message.length(), buffer, sizeof(buffer)); buffer[3999] = 0; /* NULL terminate */ log_err(buffer); } virtual void dataerrln( const UnicodeString &message ) { char buffer[4000]; message.extract(0, message.length(), buffer, sizeof(buffer)); buffer[3999] = 0; /* NULL terminate */ log_data_err(buffer); } static const char * pathToDataDirectory(void) { if(fgDataDir != NULL) { return fgDataDir; } /* U_TOPSRCDIR is set by the makefiles on UNIXes when building cintltst and intltst // to point to the top of the build hierarchy, which may or // may not be the same as the source directory, depending on // the configure options used. At any rate, // set the data path to the built data from this directory. // The value is complete with quotes, so it can be used // as-is as a string constant. */ #if defined (U_TOPSRCDIR) { fgDataDir = U_TOPSRCDIR U_FILE_SEP_STRING "data" U_FILE_SEP_STRING; } #else /* On Windows, the file name obtained from __FILE__ includes a full path. * This file is "wherever\icu\source\test\cintltst\cintltst.c" * Change to "wherever\icu\source\data" */ { static char p[sizeof(__FILE__) + 10]; char *pBackSlash; int i; strcpy(p, __FILE__); /* We want to back over three '\' chars. */ /* Only Windows should end up here, so looking for '\' is safe. */ for (i=1; i<=3; i++) { pBackSlash = strrchr(p, U_FILE_SEP_CHAR); if (pBackSlash != NULL) { *pBackSlash = 0; /* Truncate the string at the '\' */ } } if (pBackSlash != NULL) { /* We found and truncated three names from the path. * Now append "source\data" and set the environment */ strcpy(pBackSlash, U_FILE_SEP_STRING "data" U_FILE_SEP_STRING ); fgDataDir = p; } else { /* __FILE__ on MSVC7 does not contain the directory */ FILE *file = fopen(".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING "data" U_FILE_SEP_STRING "Makefile.in", "r"); if (file) { fclose(file); fgDataDir = ".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING "data" U_FILE_SEP_STRING; } else { fgDataDir = ".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING "data" U_FILE_SEP_STRING; } } } #endif return fgDataDir; } static const char* loadTestData(UErrorCode& err){ if( fgTestDataPath == NULL){ const char* directory=NULL; UResourceBundle* test =NULL; char* tdpath=NULL; const char* tdrelativepath; #if defined (U_TOPBUILDDIR) tdrelativepath = "test"U_FILE_SEP_STRING"testdata"U_FILE_SEP_STRING"out"U_FILE_SEP_STRING; directory = U_TOPBUILDDIR; #else tdrelativepath = ".."U_FILE_SEP_STRING"test"U_FILE_SEP_STRING"testdata"U_FILE_SEP_STRING"out"U_FILE_SEP_STRING; directory = pathToDataDirectory(); #endif tdpath = (char*) malloc(sizeof(char) *(( strlen(directory) * strlen(tdrelativepath)) + 100)); /* u_getDataDirectory shoul return \source\data ... set the * directory to ..\source\data\..\test\testdata\out\testdata */ strcpy(tdpath, directory); strcat(tdpath, tdrelativepath); strcat(tdpath,"testdata"); test=ures_open(tdpath, "testtypes", &err); if(U_FAILURE(err)){ err = U_FILE_ACCESS_ERROR; log_data_err("Could not load testtypes.res in testdata bundle with path %s - %s\n", tdpath, u_errorName(err)); return ""; } ures_close(test); fgTestDataPath = tdpath; } return fgTestDataPath; } virtual const char* getTestDataPath(UErrorCode& err) { return loadTestData(err); } }; const char* DataDrivenLogger::fgDataDir = NULL; char* DataDrivenLogger::fgTestDataPath = NULL; static int64_t uto64(const UChar *buffer) { int64_t result = 0; /* iterate through buffer */ while(*buffer) { /* read the next digit */ result *= 16; if (!u_isxdigit(*buffer)) { log_err("\\u%04X is not a valid hex digit for this test\n", (UChar)*buffer); } result += *buffer - 0x0030 - (*buffer >= 0x0041 ? (*buffer >= 0x0061 ? 39 : 7) : 0); buffer++; } return result; } U_CDECL_BEGIN static void U_CALLCONV DataDrivenPrintf(void) { #if !UCONFIG_NO_FORMATTING UErrorCode errorCode; TestDataModule *dataModule; TestData *testData; const DataMap *testCase; DataDrivenLogger logger; UChar uBuffer[512]; char cBuffer[512]; char cFormat[sizeof(cBuffer)]; char cExpected[sizeof(cBuffer)]; UnicodeString tempStr; UChar format[512]; UChar expectedResult[512]; UChar argument[512]; int32_t i; int8_t i8; int16_t i16; int32_t i32; int64_t i64; double dbl; int32_t uBufferLenReturned; const char *fileLocale = "en_US_POSIX"; int32_t uFileBufferLenReturned; UFILE *testFile; errorCode=U_ZERO_ERROR; dataModule=TestDataModule::getTestDataModule("icuio", logger, errorCode); if(U_SUCCESS(errorCode)) { testData=dataModule->createTestData("printf", errorCode); if(U_SUCCESS(errorCode)) { for(i=0; testData->nextCase(testCase, errorCode); ++i) { if(U_FAILURE(errorCode)) { log_err("error retrieving icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } testFile = u_fopen(STANDARD_TEST_FILE, "w", fileLocale, "UTF-8"); if (!testFile) { log_err("Can't open test file - %s\n", STANDARD_TEST_FILE); continue; } u_memset(uBuffer, 0x2A, sizeof(uBuffer)/sizeof(uBuffer[0])); uBuffer[sizeof(uBuffer)/sizeof(uBuffer[0])-1] = 0; tempStr=testCase->getString("format", errorCode); tempStr.extract(format, sizeof(format)/sizeof(format[0]), errorCode); tempStr=testCase->getString("result", errorCode); tempStr.extract(expectedResult, sizeof(expectedResult)/sizeof(expectedResult[0]), errorCode); tempStr=testCase->getString("argument", errorCode); tempStr.extract(argument, sizeof(argument)/sizeof(argument[0]), errorCode); u_austrncpy(cBuffer, format, sizeof(cBuffer)); if(U_FAILURE(errorCode)) { log_err("error retrieving icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } log_verbose("Test %d: format=\"%s\"\n", i, cBuffer); switch (testCase->getString("argumentType", errorCode)[0]) { case 0x64: // 'd' double dbl = atof(u_austrcpy(cBuffer, argument)); uBufferLenReturned = u_sprintf_u(uBuffer, format, dbl); uFileBufferLenReturned = u_fprintf_u(testFile, format, dbl); break; case 0x31: // '1' int8_t i8 = (int8_t)uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, i8); uFileBufferLenReturned = u_fprintf_u(testFile, format, i8); break; case 0x32: // '2' int16_t i16 = (int16_t)uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, i16); uFileBufferLenReturned = u_fprintf_u(testFile, format, i16); break; case 0x34: // '4' int32_t i32 = (int32_t)uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, i32); uFileBufferLenReturned = u_fprintf_u(testFile, format, i32); break; case 0x38: // '8' int64_t i64 = uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, i64); uFileBufferLenReturned = u_fprintf_u(testFile, format, i64); break; case 0x73: // 's' char * u_austrncpy(cBuffer, argument, sizeof(cBuffer)); uBufferLenReturned = u_sprintf_u(uBuffer, format, cBuffer); uFileBufferLenReturned = u_fprintf_u(testFile, format, cBuffer); break; case 0x53: // 'S' UChar * uBufferLenReturned = u_sprintf_u(uBuffer, format, argument); uFileBufferLenReturned = u_fprintf_u(testFile, format, argument); break; default: uBufferLenReturned = 0; uFileBufferLenReturned = 0; log_err("Unknown type %c for test %d\n", testCase->getString("argumentType", errorCode)[0], i); } if (u_strcmp(uBuffer, expectedResult) != 0) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); u_austrncpy(cFormat, format, sizeof(cFormat)); u_austrncpy(cExpected, expectedResult, sizeof(cExpected)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE string test case %d \"%s\" - Got: \"%s\" Expected: \"%s\"\n", i, cFormat, cBuffer, cExpected); } if (uBufferLenReturned <= 0) { log_err("FAILURE test case %d - \"%s\" is an empty string.\n", i, cBuffer); } else if (uBuffer[uBufferLenReturned-1] == 0 || uBuffer[uBufferLenReturned] != 0 || uBuffer[uBufferLenReturned+1] != 0x2A || uBuffer[uBufferLenReturned+2] != 0x2A) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE test case %d - \"%s\" wrong amount of characters was written. Got %d.\n", i, cBuffer, uBufferLenReturned); } u_fclose(testFile); testFile = u_fopen(STANDARD_TEST_FILE, "r", fileLocale, "UTF-8"); if (!testFile) { log_err("Can't open test file - %s\n", STANDARD_TEST_FILE); } uBuffer[0]=0; u_fgets(uBuffer, sizeof(uBuffer)/sizeof(uBuffer[0]), testFile); if (u_strcmp(uBuffer, expectedResult) != 0) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); u_austrncpy(cFormat, format, sizeof(cFormat)); u_austrncpy(cExpected, expectedResult, sizeof(cExpected)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE file test case %d \"%s\" - Got: \"%s\" Expected: \"%s\"\n", i, cFormat, cBuffer, cExpected); } if (uFileBufferLenReturned != uBufferLenReturned) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE uFileBufferLenReturned(%d) != uBufferLenReturned(%d)\n", uFileBufferLenReturned, uBufferLenReturned); } if(U_FAILURE(errorCode)) { log_err("error running icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } u_fclose(testFile); } delete testData; } delete dataModule; } else { log_data_err("Failed: could not load test icuio data\n"); } #endif } U_CDECL_END U_CDECL_BEGIN static void U_CALLCONV DataDrivenScanf(void) { #if !UCONFIG_NO_FORMATTING UErrorCode errorCode; TestDataModule *dataModule; TestData *testData; const DataMap *testCase; DataDrivenLogger logger; UChar uBuffer[512]; char cBuffer[512]; char cExpected[sizeof(cBuffer)]; UnicodeString tempStr; UChar format[512]; UChar expectedResult[512]; UChar argument[512]; int32_t i; int8_t i8, expected8; int16_t i16, expected16; int32_t i32, expected32; int64_t i64, expected64; double dbl, expectedDbl; volatile float flt, expectedFlt; // Use volatile in order to get around an Intel compiler issue. int32_t uBufferLenReturned; //const char *fileLocale = "en_US_POSIX"; //int32_t uFileBufferLenReturned; //UFILE *testFile; errorCode=U_ZERO_ERROR; dataModule=TestDataModule::getTestDataModule("icuio", logger, errorCode); if(U_SUCCESS(errorCode)) { testData=dataModule->createTestData("scanf", errorCode); if(U_SUCCESS(errorCode)) { for(i=0; testData->nextCase(testCase, errorCode); ++i) { if(U_FAILURE(errorCode)) { log_err("error retrieving icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } /* testFile = u_fopen(STANDARD_TEST_FILE, "w", fileLocale, "UTF-8"); if (!testFile) { log_err("Can't open test file - %s\n", STANDARD_TEST_FILE); }*/ u_memset(uBuffer, 0x2A, sizeof(uBuffer)/sizeof(uBuffer[0])); uBuffer[sizeof(uBuffer)/sizeof(uBuffer[0])-1] = 0; tempStr=testCase->getString("format", errorCode); tempStr.extract(format, sizeof(format)/sizeof(format[0]), errorCode); tempStr=testCase->getString("result", errorCode); tempStr.extract(expectedResult, sizeof(expectedResult)/sizeof(expectedResult[0]), errorCode); tempStr=testCase->getString("argument", errorCode); tempStr.extract(argument, sizeof(argument)/sizeof(argument[0]), errorCode); u_austrncpy(cBuffer, format, sizeof(cBuffer)); if(U_FAILURE(errorCode)) { log_err("error retrieving icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } log_verbose("Test %d: format=\"%s\"\n", i, cBuffer); switch (testCase->getString("argumentType", errorCode)[0]) { case 0x64: // 'd' double expectedDbl = atof(u_austrcpy(cBuffer, expectedResult)); uBufferLenReturned = u_sscanf_u(argument, format, &dbl); //uFileBufferLenReturned = u_fscanf_u(testFile, format, dbl); if (dbl != expectedDbl) { log_err("error in scanf test case[%d] Got: %f Exp: %f\n", i, dbl, expectedDbl); } break; case 0x66: // 'f' float expectedFlt = (float)atof(u_austrcpy(cBuffer, expectedResult)); uBufferLenReturned = u_sscanf_u(argument, format, &flt); //uFileBufferLenReturned = u_fscanf_u(testFile, format, flt); if (flt != expectedFlt) { log_err("error in scanf test case[%d] Got: %f Exp: %f\n", i, flt, expectedFlt); } break; case 0x31: // '1' int8_t expected8 = (int8_t)uto64(expectedResult); uBufferLenReturned = u_sscanf_u(argument, format, &i8); //uFileBufferLenReturned = u_fscanf_u(testFile, format, i8); if (i8 != expected8) { log_err("error in scanf test case[%d] Got: %02X Exp: %02X\n", i, i8, expected8); } break; case 0x32: // '2' int16_t expected16 = (int16_t)uto64(expectedResult); uBufferLenReturned = u_sscanf_u(argument, format, &i16); //uFileBufferLenReturned = u_fscanf_u(testFile, format, i16); if (i16 != expected16) { log_err("error in scanf test case[%d] Got: %04X Exp: %04X\n", i, i16, expected16); } break; case 0x34: // '4' int32_t expected32 = (int32_t)uto64(expectedResult); uBufferLenReturned = u_sscanf_u(argument, format, &i32); //uFileBufferLenReturned = u_fscanf_u(testFile, format, i32); if (i32 != expected32) { log_err("error in scanf test case[%d] Got: %08X Exp: %08X\n", i, i32, expected32); } break; case 0x38: // '8' int64_t expected64 = uto64(expectedResult); uBufferLenReturned = u_sscanf_u(argument, format, &i64); //uFileBufferLenReturned = u_fscanf_u(testFile, format, i64); if (i64 != expected64) { log_err("error in scanf 64-bit. Test case = %d\n", i); } break; case 0x73: // 's' char * u_austrcpy(cExpected, expectedResult); uBufferLenReturned = u_sscanf_u(argument, format, cBuffer); //uFileBufferLenReturned = u_fscanf_u(testFile, format, cBuffer); if (strcmp(cBuffer, cExpected) != 0) { log_err("error in scanf char * string. Got \"%s\" Expected \"%s\". Test case = %d\n", cBuffer, cExpected, i); } break; case 0x53: // 'S' UChar * uBufferLenReturned = u_sscanf_u(argument, format, uBuffer); //uFileBufferLenReturned = u_fscanf_u(testFile, format, argument); if (u_strcmp(uBuffer, expectedResult) != 0) { u_austrcpy(cExpected, format); u_austrcpy(cBuffer, uBuffer); log_err("error in scanf UChar * string %s Got: \"%s\". Test case = %d\n", cExpected, cBuffer, i); } break; default: uBufferLenReturned = 0; //uFileBufferLenReturned = 0; log_err("Unknown type %c for test %d\n", testCase->getString("argumentType", errorCode)[0], i); } if (uBufferLenReturned != 1) { log_err("error scanf converted %d arguments. Test case = %d\n", uBufferLenReturned, i); } /* if (u_strcmp(uBuffer, expectedResult) != 0) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); u_austrncpy(cFormat, format, sizeof(cFormat)); u_austrncpy(cExpected, expectedResult, sizeof(cExpected)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE string test case %d \"%s\" - Got: \"%s\" Expected: \"%s\"\n", i, cFormat, cBuffer, cExpected); } if (uBuffer[uBufferLenReturned-1] == 0 || uBuffer[uBufferLenReturned] != 0 || uBuffer[uBufferLenReturned+1] != 0x2A || uBuffer[uBufferLenReturned+2] != 0x2A) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE test case %d - \"%s\" wrong amount of characters was written. Got %d.\n", i, cBuffer, uBufferLenReturned); }*/ /* u_fclose(testFile); testFile = u_fopen(STANDARD_TEST_FILE, "r", fileLocale, "UTF-8"); if (!testFile) { log_err("Can't open test file - %s\n", STANDARD_TEST_FILE); } uBuffer[0]; u_fgets(uBuffer, sizeof(uBuffer)/sizeof(uBuffer[0]), testFile); if (u_strcmp(uBuffer, expectedResult) != 0) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); u_austrncpy(cFormat, format, sizeof(cFormat)); u_austrncpy(cExpected, expectedResult, sizeof(cExpected)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE file test case %d \"%s\" - Got: \"%s\" Expected: \"%s\"\n", i, cFormat, cBuffer, cExpected); } if (uFileBufferLenReturned != uBufferLenReturned) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE uFileBufferLenReturned(%d) != uBufferLenReturned(%d)\n", uFileBufferLenReturned, uBufferLenReturned); } */ if(U_FAILURE(errorCode)) { log_err("error running icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } // u_fclose(testFile); } delete testData; } delete dataModule; } else { log_data_err("Failed: could not load test icuio data\n"); } #endif } U_CDECL_END U_CDECL_BEGIN static void U_CALLCONV DataDrivenPrintfPrecision(void) { #if !UCONFIG_NO_FORMATTING UErrorCode errorCode; TestDataModule *dataModule; TestData *testData; const DataMap *testCase; DataDrivenLogger logger; UChar uBuffer[512]; char cBuffer[512]; char cFormat[sizeof(cBuffer)]; char cExpected[sizeof(cBuffer)]; UnicodeString tempStr; UChar format[512]; UChar expectedResult[512]; UChar argument[512]; int32_t precision; int32_t i; int8_t i8; int16_t i16; int32_t i32; int64_t i64; double dbl; int32_t uBufferLenReturned; errorCode=U_ZERO_ERROR; dataModule=TestDataModule::getTestDataModule("icuio", logger, errorCode); if(U_SUCCESS(errorCode)) { testData=dataModule->createTestData("printfPrecision", errorCode); if(U_SUCCESS(errorCode)) { for(i=0; testData->nextCase(testCase, errorCode); ++i) { if(U_FAILURE(errorCode)) { log_err("error retrieving icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } u_memset(uBuffer, 0x2A, sizeof(uBuffer)/sizeof(uBuffer[0])); uBuffer[sizeof(uBuffer)/sizeof(uBuffer[0])-1] = 0; tempStr=testCase->getString("format", errorCode); tempStr.extract(format, sizeof(format)/sizeof(format[0]), errorCode); tempStr=testCase->getString("result", errorCode); tempStr.extract(expectedResult, sizeof(expectedResult)/sizeof(expectedResult[0]), errorCode); tempStr=testCase->getString("argument", errorCode); tempStr.extract(argument, sizeof(argument)/sizeof(argument[0]), errorCode); precision=testCase->getInt28("precision", errorCode); u_austrncpy(cBuffer, format, sizeof(cBuffer)); if(U_FAILURE(errorCode)) { log_err("error retrieving icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } log_verbose("Test %d: format=\"%s\"\n", i, cBuffer); switch (testCase->getString("argumentType", errorCode)[0]) { case 0x64: // 'd' double dbl = atof(u_austrcpy(cBuffer, argument)); uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, dbl); break; case 0x31: // '1' int8_t i8 = (int8_t)uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, i8); break; case 0x32: // '2' int16_t i16 = (int16_t)uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, i16); break; case 0x34: // '4' int32_t i32 = (int32_t)uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, i32); break; case 0x38: // '8' int64_t i64 = uto64(argument); uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, i64); break; case 0x73: // 's' char * u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, cBuffer); break; case 0x53: // 'S' UChar * uBufferLenReturned = u_sprintf_u(uBuffer, format, precision, argument); break; default: uBufferLenReturned = 0; log_err("Unknown type %c for test %d\n", testCase->getString("argumentType", errorCode)[0], i); } if (u_strcmp(uBuffer, expectedResult) != 0) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); u_austrncpy(cFormat, format, sizeof(cFormat)); u_austrncpy(cExpected, expectedResult, sizeof(cExpected)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE test case %d \"%s\" - Got: \"%s\" Expected: \"%s\"\n", i, cFormat, cBuffer, cExpected); } if (uBufferLenReturned <= 0) { log_err("FAILURE test case %d - \"%s\" is an empty string.\n", i, cBuffer); } else if (uBuffer[uBufferLenReturned-1] == 0 || uBuffer[uBufferLenReturned] != 0 || uBuffer[uBufferLenReturned+1] != 0x2A || uBuffer[uBufferLenReturned+2] != 0x2A) { u_austrncpy(cBuffer, uBuffer, sizeof(cBuffer)); cBuffer[sizeof(cBuffer)-1] = 0; log_err("FAILURE test case %d - \"%s\" wrong amount of characters was written. Got %d.\n", i, cBuffer, uBufferLenReturned); } if(U_FAILURE(errorCode)) { log_err("error running icuio/printf test case %d - %s\n", i, u_errorName(errorCode)); errorCode=U_ZERO_ERROR; continue; } } delete testData; } delete dataModule; } else { log_data_err("Failed: could not load test icuio data\n"); } #endif } U_CDECL_END static void addAllTests(TestNode** root) { addFileTest(root); addStringTest(root); addTranslitTest(root); #if !UCONFIG_NO_FORMATTING addTest(root, &DataDrivenPrintf, "datadriv/DataDrivenPrintf"); addTest(root, &DataDrivenPrintfPrecision, "datadriv/DataDrivenPrintfPrecision"); addTest(root, &DataDrivenScanf, "datadriv/DataDrivenScanf"); #endif addStreamTests(root); } /* returns the path to icu/source/data/out */ static const char *ctest_dataOutDir() { static const char *dataOutDir = NULL; if(dataOutDir) { return dataOutDir; } /* U_TOPBUILDDIR is set by the makefiles on UNIXes when building cintltst and intltst // to point to the top of the build hierarchy, which may or // may not be the same as the source directory, depending on // the configure options used. At any rate, // set the data path to the built data from this directory. // The value is complete with quotes, so it can be used // as-is as a string constant. */ #if defined (U_TOPBUILDDIR) { dataOutDir = U_TOPBUILDDIR "data"U_FILE_SEP_STRING"out"U_FILE_SEP_STRING; } #else /* On Windows, the file name obtained from __FILE__ includes a full path. * This file is "wherever\icu\source\test\cintltst\cintltst.c" * Change to "wherever\icu\source\data" */ { static char p[sizeof(__FILE__) + 20]; char *pBackSlash; int i; strcpy(p, __FILE__); /* We want to back over three '\' chars. */ /* Only Windows should end up here, so looking for '\' is safe. */ for (i=1; i<=3; i++) { pBackSlash = strrchr(p, U_FILE_SEP_CHAR); if (pBackSlash != NULL) { *pBackSlash = 0; /* Truncate the string at the '\' */ } } if (pBackSlash != NULL) { /* We found and truncated three names from the path. * Now append "source\data" and set the environment */ strcpy(pBackSlash, U_FILE_SEP_STRING "data" U_FILE_SEP_STRING "out" U_FILE_SEP_STRING); dataOutDir = p; } else { /* __FILE__ on MSVC7 does not contain the directory */ FILE *file = fopen(".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING "data" U_FILE_SEP_STRING "Makefile.in", "r"); if (file) { fclose(file); dataOutDir = ".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING "data" U_FILE_SEP_STRING "out" U_FILE_SEP_STRING; } else { dataOutDir = ".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING".."U_FILE_SEP_STRING "data" U_FILE_SEP_STRING "out" U_FILE_SEP_STRING; } } } #endif return dataOutDir; } /* ctest_setICU_DATA - if the ICU_DATA environment variable is not already * set, try to deduce the directory in which ICU was built, * and set ICU_DATA to "icu/source/data" in that location. * The intent is to allow the tests to have a good chance * of running without requiring that the user manually set * ICU_DATA. Common data isn't a problem, since it is * picked up via a static (build time) reference, but the * tests dynamically load some data. */ static void ctest_setICU_DATA() { /* No location for the data dir was identifiable. * Add other fallbacks for the test data location here if the need arises */ if (getenv("ICU_DATA") == NULL) { /* If ICU_DATA isn't set, set it to the usual location */ u_setDataDirectory(ctest_dataOutDir()); } } U_CDECL_BEGIN /* * Note: this assumes that context is a pointer to STANDARD_TEST_FILE. It would be * cleaner to define an acutal context with a string pointer in it and set STANDARD_TEST_FILE * after the call to initArgs()... */ static int U_CALLCONV argHandler(int arg, int /*argc*/, const char * const argv[], void *context) { const char **str = (const char **) context; if (argv[arg][0] != '/' && argv[arg][0] != '-') { *str = argv[arg]; return 1; } return 0; } U_CDECL_END int main(int argc, char* argv[]) { int32_t nerrors = 0; TestNode *root = NULL; UErrorCode errorCode = U_ZERO_ERROR; UDate startTime, endTime; int32_t diffTime; startTime = uprv_getUTCtime(); /* Check whether ICU will initialize without forcing the build data directory into * the ICU_DATA path. Success here means either the data dll contains data, or that * this test program was run with ICU_DATA set externally. Failure of this check * is normal when ICU data is not packaged into a shared library. * * Whether or not this test succeeds, we want to cleanup and reinitialize * with a data path so that data loading from individual files can be tested. */ u_init(&errorCode); if (U_FAILURE(errorCode)) { fprintf(stderr, "#### Note: ICU Init without build-specific setDataDirectory() failed.\n"); } u_cleanup(); errorCode = U_ZERO_ERROR; if (!initArgs(argc, argv, argHandler, (void *) &STANDARD_TEST_FILE)) { /* Error already displayed. */ return -1; } /* Initialize ICU */ ctest_setICU_DATA(); /* u_setDataDirectory() must happen Before u_init() */ u_init(&errorCode); if (U_FAILURE(errorCode)) { fprintf(stderr, "#### ERROR! %s: u_init() failed with status = \"%s\".\n" "*** Check the ICU_DATA environment variable and \n" "*** check that the data files are present.\n", argv[0], u_errorName(errorCode)); return 1; } fprintf(stdout, "Default charset for this run is %s\n", ucnv_getDefaultName()); addAllTests(&root); nerrors = runTestRequest(root, argc, argv); #if 1 { FILE* fileToRemove = fopen(STANDARD_TEST_FILE, "r"); /* This should delete any temporary files. */ if (fileToRemove) { fclose(fileToRemove); if (remove(STANDARD_TEST_FILE) != 0) { /* Maybe someone didn't close the file correctly. */ fprintf(stderr, "FAIL: Could not delete %s\n", STANDARD_TEST_FILE); nerrors += 1; } } } #endif cleanUpTestTree(root); DataDrivenLogger::cleanUp(); u_cleanup(); endTime = uprv_getUTCtime(); diffTime = (int32_t)(endTime - startTime); printf("Elapsed Time: %02d:%02d:%02d.%03d\n", (int)((diffTime%U_MILLIS_PER_DAY)/U_MILLIS_PER_HOUR), (int)((diffTime%U_MILLIS_PER_HOUR)/U_MILLIS_PER_MINUTE), (int)((diffTime%U_MILLIS_PER_MINUTE)/U_MILLIS_PER_SECOND), (int)(diffTime%U_MILLIS_PER_SECOND)); return nerrors; }