/** * Call this once to get a consistent timezone. Use ctest_resetTimeZone to set it back to the original value. * @param optionalTimeZone Set this to a requested timezone. * Set to NULL to use the standard test timezone (Pacific Time) */ U_CFUNC void ctest_setTimeZone(const char *optionalTimeZone, UErrorCode *status) { #if !UCONFIG_NO_FORMATTING UChar zoneID[CTEST_MAX_TIMEZONE_SIZE]; if (optionalTimeZone == NULL) { optionalTimeZone = "America/Los_Angeles"; } if (gOriginalTimeZone[0]) { log_data_err("*** Error: time zone saved twice. New value will be %s (Are you missing data?)\n", optionalTimeZone); } ucal_getDefaultTimeZone(gOriginalTimeZone, CTEST_MAX_TIMEZONE_SIZE, status); if (U_FAILURE(*status)) { log_err("*** Error: Failed to save default time zone: %s\n", u_errorName(*status)); *status = U_ZERO_ERROR; } u_uastrncpy(zoneID, optionalTimeZone, CTEST_MAX_TIMEZONE_SIZE-1); zoneID[CTEST_MAX_TIMEZONE_SIZE-1] = 0; ucal_setDefaultTimeZone(zoneID, status); if (U_FAILURE(*status)) { log_err("*** Error: Failed to set default time zone to \"%s\": %s\n", optionalTimeZone, u_errorName(*status)); } #endif }
/* * TestsBreakIteratorStatusVals() Test the ubrk_getRuleStatusVec() funciton */ static void TestBreakIteratorStatusVec() { #define RULE_STRING_LENGTH 200 UChar rules[RULE_STRING_LENGTH]; #define TEST_STRING_LENGTH 25 UChar testString[TEST_STRING_LENGTH]; UBreakIterator *bi = NULL; int32_t pos = 0; int32_t vals[10]; int32_t numVals; UErrorCode status = U_ZERO_ERROR; u_uastrncpy(rules, "[A-N]{100}; \n" "[a-w]{200}; \n" "[\\p{L}]{300}; \n" "[\\p{N}]{400}; \n" "[0-5]{500}; \n" "!.*;\n", RULE_STRING_LENGTH); u_uastrncpy(testString, "ABC", TEST_STRING_LENGTH); bi = ubrk_openRules(rules, -1, testString, -1, NULL, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(bi != NULL); /* The TEST_ASSERT above should change too... */ if (bi != NULL) { pos = ubrk_next(bi); TEST_ASSERT(pos == 1); memset(vals, -1, sizeof(vals)); numVals = ubrk_getRuleStatusVec(bi, vals, 10, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(numVals == 2); TEST_ASSERT(vals[0] == 100); TEST_ASSERT(vals[1] == 300); TEST_ASSERT(vals[2] == -1); numVals = ubrk_getRuleStatusVec(bi, vals, 0, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); TEST_ASSERT(numVals == 2); } ubrk_close(bi); }
/* function used to create the test patterns for testing Message formatting */ static void InitStrings( void ) { int32_t i; if (strings_initialized) return; for (i=0; i < cnt_testCases; i++ ) { uint32_t strSize = (uint32_t)strlen(txt_testCasePatterns[i]) + 1; testCasePatterns[i]=(UChar*)malloc(sizeof(UChar) * strSize); u_uastrncpy(testCasePatterns[i], txt_testCasePatterns[i], strSize); } for (i=0; i < cnt_testCases; i++ ) { uint32_t strSize = (uint32_t)strlen(txt_testResultStrings[i]) + 1; testResultStrings[i] = (UChar*)malloc(sizeof(UChar) * strSize); u_uastrncpy(testResultStrings[i], txt_testResultStrings[i], strSize); } strings_initialized = TRUE; }
static void MessageLength(void) { UErrorCode status = U_ZERO_ERROR; const char patChars[] = {"123{0}456{0}"}; const char expectedChars[] = {"123abc"}; UChar pattern[sizeof(patChars)]; UChar arg[] = {0x61,0x62,0x63,0}; UChar result[128] = {0}; UChar expected[sizeof(expectedChars)]; u_uastrncpy(pattern, patChars, sizeof(pattern)/sizeof(pattern[0])); u_uastrncpy(expected, expectedChars, sizeof(expected)/sizeof(expected[0])); u_formatMessage("en_US", pattern, 6, result, sizeof(result)/sizeof(result[0]), &status, arg); if (U_FAILURE(status)) { log_err("u_formatMessage method failed. Error: %s \n",u_errorName(status)); } if (u_strcmp(result, expected) != 0) { log_err("u_formatMessage didn't return expected result\n"); } }
static UBool doTestUCharNames(const char *name, const char *standard, const char **expected, int32_t size) { UErrorCode err = U_ZERO_ERROR; UEnumeration *myEnum = ucnv_openStandardNames(name, standard, &err); int32_t enumCount = uenum_count(myEnum, &err); int32_t idx, repeatTimes = 3; if (err == U_FILE_ACCESS_ERROR) { log_data_err("Unable to open standard names for %s of standard: %s\n", name, standard); return 0; } if (size != enumCount) { log_err("FAIL: different size arrays. Got %d. Expected %d\n", enumCount, size); return 0; } if (size < 0 && myEnum) { log_err("FAIL: size < 0, but recieved an actual object\n"); return 0; } log_verbose("\n%s %s\n", name, standard); while (repeatTimes-- > 0) { for (idx = 0; idx < enumCount; idx++) { UChar testName[256]; int32_t len; const UChar *enumName = uenum_unext(myEnum, &len, &err); u_uastrncpy(testName, expected[idx], UPRV_LENGTHOF(testName)); if (u_strcmp(enumName, testName) != 0 || U_FAILURE(err) || len != (int32_t)uprv_strlen(expected[idx])) { log_err("FAIL: uenum_next(%d) == \"%s\". expected \"%s\", len=%d, error=%s\n", idx, enumName, testName, len, u_errorName(err)); } log_verbose("%s\n", expected[idx]); err = U_ZERO_ERROR; } log_verbose("\n reset\n"); uenum_reset(myEnum, &err); if (U_FAILURE(err)) { log_err("FAIL: uenum_reset() for %s{%s} failed with %s\n", name, standard, u_errorName(err)); err = U_ZERO_ERROR; } } uenum_close(myEnum); return 1; }
static void OpenMessageFormatTest(void) { UMessageFormat *f1, *f2, *f3; UChar pattern[256]; UChar result[256]; char cresult[256]; UParseError parseError; const char* locale = "hi_IN"; char* retLoc; const char* PAT = "Number {1,number,#0.000}, String {0}, Date {2,date,12:mm:ss.SSS}"; int32_t length=0; UErrorCode status = U_ZERO_ERROR; u_uastrncpy(pattern, PAT, sizeof(pattern)/sizeof(pattern[0])); /* Test umsg_open */ f1 = umsg_open(pattern,length,NULL,NULL,&status); if(U_FAILURE(status)) { log_err("umsg_open failed with pattern %s. Error: \n", PAT, u_errorName(status)); return; } /* Test umsg_open with parse error */ status = U_ZERO_ERROR; f2 = umsg_open(pattern,length,NULL,&parseError,&status); if(U_FAILURE(status)) { log_err("umsg_open with parseError failed with pattern %s. Error: %s\n", PAT, u_errorName(status)); return; } /* Test umsg_clone */ status = U_ZERO_ERROR; f3 = umsg_clone(f1,&status); if(U_FAILURE(status)) { log_err("umsg_clone failed. Error %s \n", u_errorName(status)); } /* Test umsg_setLocale */ umsg_setLocale(f1,locale); /* Test umsg_getLocale */ retLoc = (char*)umsg_getLocale(f1); if(strcmp(retLoc,locale)!=0) { log_err("umsg_setLocale and umsg_getLocale methods failed. Expected:%s Got: %s \n", locale, retLoc); } /* Test umsg_applyPattern */ status = U_ZERO_ERROR; umsg_applyPattern(f1,pattern,(int32_t)strlen(PAT),NULL,&status); if(U_FAILURE(status)) { log_data_err("umsg_applyPattern failed. Error %s (Are you missing data?)\n",u_errorName(status)); } /* Test umsg_toPattern */ umsg_toPattern(f1,result,256,&status); if(U_FAILURE(status) ){ log_data_err("umsg_toPattern method failed. Error: %s (Are you missing data?)\n",u_errorName(status)); } else { if(u_strcmp(result,pattern)!=0){ u_UCharsToChars(result,cresult,256); log_err("umsg_toPattern method failed. Expected: %s Got: %s \n",PAT,cresult); } } /* umsg_format umsg_parse */ umsg_close(f1); umsg_close(f2); umsg_close(f3); }
/* Test u_formatMessage() with various test patterns() */ static void MessageFormatTest( void ) { UChar *str; UChar* result; int32_t resultLengthOut,resultlength,i, patternlength; UErrorCode status = U_ZERO_ERROR; UDate d1=1000000000.0; ctest_setTimeZone(NULL, &status); str=(UChar*)malloc(sizeof(UChar) * 7); u_uastrncpy(str, "MyDisk", 7); resultlength=1; result=(UChar*)malloc(sizeof(UChar) * 1); log_verbose("Testing u_formatMessage()\n"); InitStrings(); for (i = 0; i < cnt_testCases; i++) { status=U_ZERO_ERROR; patternlength=u_strlen(testCasePatterns[i]); resultLengthOut=u_formatMessage( "en_US",testCasePatterns[i], patternlength, result, resultlength, &status, 1, 3456.00, d1); if(status== U_BUFFER_OVERFLOW_ERROR) { status=U_ZERO_ERROR; resultlength=resultLengthOut+1; result=(UChar*)realloc(result,sizeof(UChar) * resultlength); u_formatMessage( "en_US",testCasePatterns[i], patternlength, result, resultlength, &status, 1, 3456.00, d1); } if(U_FAILURE(status)){ log_data_err("ERROR: failure in message format on testcase %d: %s (Are you missing data?)\n", i, myErrorName(status) ); continue; } if(u_strcmp(result, testResultStrings[i])==0){ log_verbose("PASS: MessagFormat successful on testcase : %d\n", i); } else{ log_err("FAIL: Error in MessageFormat on testcase : %d\n GOT %s EXPECTED %s\n", i, austrdup(result), austrdup(testResultStrings[i]) ); } } free(result); result = NULL; free(str); { for (i = 0; i < cnt_testCases; i++) { UParseError parseError; status=U_ZERO_ERROR; patternlength=u_strlen(testCasePatterns[i]); resultlength=0; resultLengthOut=u_formatMessageWithError( "en_US",testCasePatterns[i], patternlength, result, resultlength, &parseError,&status, 1, 3456.00, d1); if(status== U_BUFFER_OVERFLOW_ERROR) { status=U_ZERO_ERROR; resultlength=resultLengthOut+1; result=(UChar*)malloc(sizeof(UChar) * resultlength); u_formatMessage( "en_US",testCasePatterns[i], patternlength, result, resultlength, &status, 1, 3456.00, d1); } if(U_FAILURE(status)){ log_data_err("ERROR: failure in message format on testcase %d: %s (Are you missing data?)\n", i, myErrorName(status) ); continue; } if(u_strcmp(result, testResultStrings[i])==0){ log_verbose("PASS: MessagFormat successful on testcase : %d\n", i); } else{ log_err("FAIL: Error in MessageFormat on testcase : %d\n GOT %s EXPECTED %s\n", i, austrdup(result), austrdup(testResultStrings[i]) ); } free(result); result=NULL; } } { UErrorCode ec = U_ZERO_ERROR; int32_t patternLength = u_strlen(testCasePatterns[0]); UMessageFormat formatter = umsg_open(testCasePatterns[0],patternLength,"en_US",NULL,&ec); if(U_FAILURE(ec)){ log_data_err("umsg_open() failed for testCasePattens[%d]. -> %s (Are you missing data?)\n",i, u_errorName(ec)); return; } for(i = 0;i<cnt_testCases; i++){ UParseError parseError; int32_t resultLength =0,count=0; int32_t one=0; int32_t two=0; UDate d2=0; result=NULL; patternLength = u_strlen(testCasePatterns[i]); umsg_applyPattern(formatter,testCasePatterns[i],patternLength,&parseError,&ec); if(U_FAILURE(ec)){ log_err("umsg_applyPattern() failed for testCasePattens[%d].\n",i); return; } /* pre-flight */ resultLength = umsg_format(formatter,result,resultLength,&ec,1,3456.00,d1); if(ec==U_BUFFER_OVERFLOW_ERROR){ ec=U_ZERO_ERROR; result = (UChar*) malloc(U_SIZEOF_UCHAR*resultLength+2); resultLength = umsg_format(formatter,result,resultLength+2,&ec,1,3456.00,d1); if(U_FAILURE(ec)){ log_err("ERROR: failure in message format on testcase %d: %s\n", i, u_errorName(status) ); free(result); return; } if(u_strcmp(result, testResultStrings[i])==0){ log_verbose("PASS: MessagFormat successful on testcase : %d\n", i); } else{ log_err("FAIL: Error in MessageFormat on testcase : %d\n GOT %s EXPECTED %s\n", i, austrdup(result), austrdup(testResultStrings[i]) ); } if (returnsNullForType(1, (double)2.0)) { /* HP/UX and possibly other platforms don't properly check for this case. We pass in a UDate, but the function expects a UDate *. When va_arg is used, most compilers will return NULL, but HP-UX won't do that and will return 2 in this case. This is a platform dependent test. This relies upon "undefined" behavior, as indicated by C99 7.15.1.1 paragraph 2 */ umsg_parse(formatter,result,resultLength,&count,&ec,one,two,d2); if(ec!=U_ILLEGAL_ARGUMENT_ERROR){ log_err("FAIL: Did not get expected error for umsg_parse(). Expected: U_ILLEGAL_ARGUMENT_ERROR Got: %s \n",u_errorName(ec)); }else{ ec = U_ZERO_ERROR; } } else { log_verbose("Warning: Returning NULL for a mismatched va_arg type isn't supported on this platform.\n", i); } umsg_parse(formatter,result,resultLength,&count,&ec,&one,&two,&d2); if(U_FAILURE(ec)){ log_err("umsg_parse could not parse the pattern. Error: %s.\n",u_errorName(ec)); } free(result); }else{ log_err("FAIL: Expected U_BUFFER_OVERFLOW error while preflighting got: %s for testCasePatterns[%d]",u_errorName(ec),i); } } umsg_close(formatter); } FreeStrings(); ctest_resetTimeZone(); }
static void TestRegexCAPI(void) { UErrorCode status = U_ZERO_ERROR; URegularExpression *re; UChar pat[200]; UChar *minus1; memset(&minus1, -1, sizeof(minus1)); /* Mimimalist open/close */ u_uastrncpy(pat, "abc*", sizeof(pat)/2); re = uregex_open(pat, -1, 0, 0, &status); TEST_ASSERT_SUCCESS(status); uregex_close(re); /* Open with all flag values set */ status = U_ZERO_ERROR; re = uregex_open(pat, -1, UREGEX_CASE_INSENSITIVE | UREGEX_COMMENTS | UREGEX_DOTALL | UREGEX_MULTILINE | UREGEX_UWORD, 0, &status); TEST_ASSERT_SUCCESS(status); uregex_close(re); /* Open with an invalid flag */ status = U_ZERO_ERROR; re = uregex_open(pat, -1, 0x40000000, 0, &status); TEST_ASSERT(status == U_REGEX_INVALID_FLAG); uregex_close(re); /* openC with an invalid parameter */ status = U_ZERO_ERROR; re = uregex_openC(NULL, UREGEX_CASE_INSENSITIVE | UREGEX_COMMENTS | UREGEX_DOTALL | UREGEX_MULTILINE | UREGEX_UWORD, 0, &status); TEST_ASSERT(status == U_ILLEGAL_ARGUMENT_ERROR && re == NULL); /* openC with an invalid parameter */ status = U_USELESS_COLLATOR_ERROR; re = uregex_openC(NULL, UREGEX_CASE_INSENSITIVE | UREGEX_COMMENTS | UREGEX_DOTALL | UREGEX_MULTILINE | UREGEX_UWORD, 0, &status); TEST_ASSERT(status == U_USELESS_COLLATOR_ERROR && re == NULL); /* openC open from a C string */ { const UChar *p; int32_t len; status = U_ZERO_ERROR; re = uregex_openC("abc*", 0, 0, &status); TEST_ASSERT_SUCCESS(status); p = uregex_pattern(re, &len, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS above should change too... */ if(U_SUCCESS(status)) { u_uastrncpy(pat, "abc*", sizeof(pat)/2); TEST_ASSERT(u_strcmp(pat, p) == 0); TEST_ASSERT(len==(int32_t)strlen("abc*")); } uregex_close(re); /* TODO: Open with ParseError parameter */ } /* * clone */ { URegularExpression *clone1; URegularExpression *clone2; URegularExpression *clone3; UChar testString1[30]; UChar testString2[30]; UBool result; status = U_ZERO_ERROR; re = uregex_openC("abc*", 0, 0, &status); TEST_ASSERT_SUCCESS(status); clone1 = uregex_clone(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(clone1 != NULL); status = U_ZERO_ERROR; clone2 = uregex_clone(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(clone2 != NULL); uregex_close(re); status = U_ZERO_ERROR; clone3 = uregex_clone(clone2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(clone3 != NULL); u_uastrncpy(testString1, "abcccd", sizeof(pat)/2); u_uastrncpy(testString2, "xxxabcccd", sizeof(pat)/2); status = U_ZERO_ERROR; uregex_setText(clone1, testString1, -1, &status); TEST_ASSERT_SUCCESS(status); result = uregex_lookingAt(clone1, 0, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(result==TRUE); status = U_ZERO_ERROR; uregex_setText(clone2, testString2, -1, &status); TEST_ASSERT_SUCCESS(status); result = uregex_lookingAt(clone2, 0, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(result==FALSE); result = uregex_find(clone2, 0, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(result==TRUE); uregex_close(clone1); uregex_close(clone2); uregex_close(clone3); } /* * pattern() */ { const UChar *resultPat; int32_t resultLen; u_uastrncpy(pat, "hello", sizeof(pat)/2); status = U_ZERO_ERROR; re = uregex_open(pat, -1, 0, NULL, &status); resultPat = uregex_pattern(re, &resultLen, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS above should change too... */ if (U_SUCCESS(status)) { TEST_ASSERT(resultLen == -1); TEST_ASSERT(u_strcmp(resultPat, pat) == 0); } uregex_close(re); status = U_ZERO_ERROR; re = uregex_open(pat, 3, 0, NULL, &status); resultPat = uregex_pattern(re, &resultLen, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS above should change too... */ if (U_SUCCESS(status)) { TEST_ASSERT(resultLen == 3); TEST_ASSERT(u_strncmp(resultPat, pat, 3) == 0); TEST_ASSERT(u_strlen(resultPat) == 3); } uregex_close(re); } /* * flags() */ { int32_t t; status = U_ZERO_ERROR; re = uregex_open(pat, -1, 0, NULL, &status); t = uregex_flags(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(t == 0); uregex_close(re); status = U_ZERO_ERROR; re = uregex_open(pat, -1, 0, NULL, &status); t = uregex_flags(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(t == 0); uregex_close(re); status = U_ZERO_ERROR; re = uregex_open(pat, -1, UREGEX_CASE_INSENSITIVE | UREGEX_DOTALL, NULL, &status); t = uregex_flags(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(t == (UREGEX_CASE_INSENSITIVE | UREGEX_DOTALL)); uregex_close(re); } /* * setText() and lookingAt() */ { UChar text1[50]; UChar text2[50]; UBool result; u_uastrncpy(text1, "abcccd", sizeof(text1)/2); u_uastrncpy(text2, "abcccxd", sizeof(text2)/2); status = U_ZERO_ERROR; u_uastrncpy(pat, "abc*d", sizeof(pat)/2); re = uregex_open(pat, -1, 0, NULL, &status); TEST_ASSERT_SUCCESS(status); /* Operation before doing a setText should fail... */ status = U_ZERO_ERROR; uregex_lookingAt(re, 0, &status); TEST_ASSERT( status== U_REGEX_INVALID_STATE); status = U_ZERO_ERROR; uregex_setText(re, text1, -1, &status); result = uregex_lookingAt(re, 0, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text2, -1, &status); result = uregex_lookingAt(re, 0, &status); TEST_ASSERT(result == FALSE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text1, -1, &status); result = uregex_lookingAt(re, 0, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text1, 5, &status); result = uregex_lookingAt(re, 0, &status); TEST_ASSERT(result == FALSE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text1, 6, &status); result = uregex_lookingAt(re, 0, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT_SUCCESS(status); uregex_close(re); } /* * getText() */ { UChar text1[50]; UChar text2[50]; const UChar *result; int32_t textLength; u_uastrncpy(text1, "abcccd", sizeof(text1)/2); u_uastrncpy(text2, "abcccxd", sizeof(text2)/2); status = U_ZERO_ERROR; u_uastrncpy(pat, "abc*d", sizeof(pat)/2); re = uregex_open(pat, -1, 0, NULL, &status); uregex_setText(re, text1, -1, &status); result = uregex_getText(re, &textLength, &status); TEST_ASSERT(result == text1); TEST_ASSERT(textLength == -1); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text2, 7, &status); result = uregex_getText(re, &textLength, &status); TEST_ASSERT(result == text2); TEST_ASSERT(textLength == 7); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text2, 4, &status); result = uregex_getText(re, &textLength, &status); TEST_ASSERT(result == text2); TEST_ASSERT(textLength == 4); TEST_ASSERT_SUCCESS(status); uregex_close(re); } /* * matches() */ { UChar text1[50]; UBool result; int len; UChar nullString[] = {0,0,0}; u_uastrncpy(text1, "abcccde", sizeof(text1)/2); status = U_ZERO_ERROR; u_uastrncpy(pat, "abc*d", sizeof(pat)/2); re = uregex_open(pat, -1, 0, NULL, &status); uregex_setText(re, text1, -1, &status); result = uregex_matches(re, 0, &status); TEST_ASSERT(result == FALSE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text1, 6, &status); result = uregex_matches(re, 0, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, text1, 6, &status); result = uregex_matches(re, 1, &status); TEST_ASSERT(result == FALSE); TEST_ASSERT_SUCCESS(status); uregex_close(re); status = U_ZERO_ERROR; re = uregex_openC(".?", 0, NULL, &status); uregex_setText(re, text1, -1, &status); len = u_strlen(text1); result = uregex_matches(re, len, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_setText(re, nullString, -1, &status); TEST_ASSERT_SUCCESS(status); result = uregex_matches(re, 0, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT_SUCCESS(status); uregex_close(re); } /* * lookingAt() Used in setText test. */ /* * find(), findNext, start, end, reset */ { UChar text1[50]; UBool result; u_uastrncpy(text1, "012rx5rx890rxrx...", sizeof(text1)/2); status = U_ZERO_ERROR; re = uregex_openC("rx", 0, NULL, &status); uregex_setText(re, text1, -1, &status); result = uregex_find(re, 0, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 3); TEST_ASSERT(uregex_end(re, 0, &status) == 5); TEST_ASSERT_SUCCESS(status); result = uregex_find(re, 9, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 11); TEST_ASSERT(uregex_end(re, 0, &status) == 13); TEST_ASSERT_SUCCESS(status); result = uregex_find(re, 14, &status); TEST_ASSERT(result == FALSE); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_reset(re, 0, &status); result = uregex_findNext(re, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 3); TEST_ASSERT(uregex_end(re, 0, &status) == 5); TEST_ASSERT_SUCCESS(status); result = uregex_findNext(re, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 6); TEST_ASSERT(uregex_end(re, 0, &status) == 8); TEST_ASSERT_SUCCESS(status); status = U_ZERO_ERROR; uregex_reset(re, 12, &status); result = uregex_findNext(re, &status); TEST_ASSERT(result == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 13); TEST_ASSERT(uregex_end(re, 0, &status) == 15); TEST_ASSERT_SUCCESS(status); result = uregex_findNext(re, &status); TEST_ASSERT(result == FALSE); TEST_ASSERT_SUCCESS(status); uregex_close(re); } /* * groupCount */ { int32_t result; status = U_ZERO_ERROR; re = uregex_openC("abc", 0, NULL, &status); result = uregex_groupCount(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(result == 0); uregex_close(re); status = U_ZERO_ERROR; re = uregex_openC("abc(def)(ghi(j))", 0, NULL, &status); result = uregex_groupCount(re, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT(result == 3); uregex_close(re); } /* * group() */ { UChar text1[80]; UChar buf[80]; UBool result; int32_t resultSz; u_uastrncpy(text1, "noise abc interior def, and this is off the end", sizeof(text1)/2); status = U_ZERO_ERROR; re = uregex_openC("abc(.*?)def", 0, NULL, &status); TEST_ASSERT_SUCCESS(status); uregex_setText(re, text1, -1, &status); result = uregex_find(re, 0, &status); TEST_ASSERT(result==TRUE); /* Capture Group 0, the full match. Should succeed. */ status = U_ZERO_ERROR; resultSz = uregex_group(re, 0, buf, sizeof(buf)/2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("abc interior def", buf, TRUE); TEST_ASSERT(resultSz == (int32_t)strlen("abc interior def")); /* Capture group #1. Should succeed. */ status = U_ZERO_ERROR; resultSz = uregex_group(re, 1, buf, sizeof(buf)/2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING(" interior ", buf, TRUE); TEST_ASSERT(resultSz == (int32_t)strlen(" interior ")); /* Capture group out of range. Error. */ status = U_ZERO_ERROR; uregex_group(re, 2, buf, sizeof(buf)/2, &status); TEST_ASSERT(status == U_INDEX_OUTOFBOUNDS_ERROR); /* NULL buffer, pure pre-flight */ status = U_ZERO_ERROR; resultSz = uregex_group(re, 0, NULL, 0, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); TEST_ASSERT(resultSz == (int32_t)strlen("abc interior def")); /* Too small buffer, truncated string */ status = U_ZERO_ERROR; memset(buf, -1, sizeof(buf)); resultSz = uregex_group(re, 0, buf, 5, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); TEST_ASSERT_STRING("abc i", buf, FALSE); TEST_ASSERT(buf[5] == (UChar)0xffff); TEST_ASSERT(resultSz == (int32_t)strlen("abc interior def")); /* Output string just fits buffer, no NUL term. */ status = U_ZERO_ERROR; resultSz = uregex_group(re, 0, buf, (int32_t)strlen("abc interior def"), &status); TEST_ASSERT(status == U_STRING_NOT_TERMINATED_WARNING); TEST_ASSERT_STRING("abc interior def", buf, FALSE); TEST_ASSERT(resultSz == (int32_t)strlen("abc interior def")); TEST_ASSERT(buf[strlen("abc interior def")] == (UChar)0xffff); uregex_close(re); } /* * Regions */ /* SetRegion(), getRegion() do something */ TEST_SETUP(".*", "0123456789ABCDEF", 0) UChar resultString[40]; TEST_ASSERT(uregex_regionStart(re, &status) == 0); TEST_ASSERT(uregex_regionEnd(re, &status) == 16); uregex_setRegion(re, 3, 6, &status); TEST_ASSERT(uregex_regionStart(re, &status) == 3); TEST_ASSERT(uregex_regionEnd(re, &status) == 6); TEST_ASSERT(uregex_findNext(re, &status)); TEST_ASSERT(uregex_group(re, 0, resultString, sizeof(resultString)/2, &status) == 3) TEST_ASSERT_STRING("345", resultString, TRUE); TEST_TEARDOWN; /* find(start=-1) uses regions */ TEST_SETUP(".*", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_find(re, -1, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 4); TEST_ASSERT(uregex_end(re, 0, &status) == 6); TEST_TEARDOWN; /* find (start >=0) does not use regions */ TEST_SETUP(".*", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_find(re, 0, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 0); TEST_ASSERT(uregex_end(re, 0, &status) == 16); TEST_TEARDOWN; /* findNext() obeys regions */ TEST_SETUP(".", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_findNext(re,&status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 4); TEST_ASSERT(uregex_findNext(re, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 5); TEST_ASSERT(uregex_findNext(re, &status) == FALSE); TEST_TEARDOWN; /* matches(start=-1) uses regions */ /* Also, verify that non-greedy *? succeeds in finding the full match. */ TEST_SETUP(".*?", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_matches(re, -1, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 4); TEST_ASSERT(uregex_end(re, 0, &status) == 6); TEST_TEARDOWN; /* matches (start >=0) does not use regions */ TEST_SETUP(".*?", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_matches(re, 0, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 0); TEST_ASSERT(uregex_end(re, 0, &status) == 16); TEST_TEARDOWN; /* lookingAt(start=-1) uses regions */ /* Also, verify that non-greedy *? finds the first (shortest) match. */ TEST_SETUP(".*?", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_lookingAt(re, -1, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 4); TEST_ASSERT(uregex_end(re, 0, &status) == 4); TEST_TEARDOWN; /* lookingAt (start >=0) does not use regions */ TEST_SETUP(".*?", "0123456789ABCDEF", 0); uregex_setRegion(re, 4, 6, &status); TEST_ASSERT(uregex_lookingAt(re, 0, &status) == TRUE); TEST_ASSERT(uregex_start(re, 0, &status) == 0); TEST_ASSERT(uregex_end(re, 0, &status) == 0); TEST_TEARDOWN; /* hitEnd() */ TEST_SETUP("[a-f]*", "abcdefghij", 0); TEST_ASSERT(uregex_find(re, 0, &status) == TRUE); TEST_ASSERT(uregex_hitEnd(re, &status) == FALSE); TEST_TEARDOWN; TEST_SETUP("[a-f]*", "abcdef", 0); TEST_ASSERT(uregex_find(re, 0, &status) == TRUE); TEST_ASSERT(uregex_hitEnd(re, &status) == TRUE); TEST_TEARDOWN; /* requireEnd */ TEST_SETUP("abcd", "abcd", 0); TEST_ASSERT(uregex_find(re, 0, &status) == TRUE); TEST_ASSERT(uregex_requireEnd(re, &status) == FALSE); TEST_TEARDOWN; TEST_SETUP("abcd$", "abcd", 0); TEST_ASSERT(uregex_find(re, 0, &status) == TRUE); TEST_ASSERT(uregex_requireEnd(re, &status) == TRUE); TEST_TEARDOWN; /* anchoringBounds */ TEST_SETUP("abc$", "abcdef", 0); TEST_ASSERT(uregex_hasAnchoringBounds(re, &status) == TRUE); uregex_useAnchoringBounds(re, FALSE, &status); TEST_ASSERT(uregex_hasAnchoringBounds(re, &status) == FALSE); TEST_ASSERT(uregex_find(re, -1, &status) == FALSE); uregex_useAnchoringBounds(re, TRUE, &status); uregex_setRegion(re, 0, 3, &status); TEST_ASSERT(uregex_find(re, -1, &status) == TRUE); TEST_ASSERT(uregex_end(re, 0, &status) == 3); TEST_TEARDOWN; /* Transparent Bounds */ TEST_SETUP("abc(?=def)", "abcdef", 0); TEST_ASSERT(uregex_hasTransparentBounds(re, &status) == FALSE); uregex_useTransparentBounds(re, TRUE, &status); TEST_ASSERT(uregex_hasTransparentBounds(re, &status) == TRUE); uregex_useTransparentBounds(re, FALSE, &status); TEST_ASSERT(uregex_find(re, -1, &status) == TRUE); /* No Region */ uregex_setRegion(re, 0, 3, &status); TEST_ASSERT(uregex_find(re, -1, &status) == FALSE); /* with region, opaque bounds */ uregex_useTransparentBounds(re, TRUE, &status); TEST_ASSERT(uregex_find(re, -1, &status) == TRUE); /* with region, transparent bounds */ TEST_ASSERT(uregex_end(re, 0, &status) == 3); TEST_TEARDOWN; /* * replaceFirst() */ { UChar text1[80]; UChar text2[80]; UChar replText[80]; UChar buf[80]; int32_t resultSz; u_uastrncpy(text1, "Replace xaax x1x x...x.", sizeof(text1)/2); u_uastrncpy(text2, "No match here.", sizeof(text2)/2); u_uastrncpy(replText, "<$1>", sizeof(replText)/2); status = U_ZERO_ERROR; re = uregex_openC("x(.*?)x", 0, NULL, &status); TEST_ASSERT_SUCCESS(status); /* Normal case, with match */ uregex_setText(re, text1, -1, &status); resultSz = uregex_replaceFirst(re, replText, -1, buf, sizeof(buf)/2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("Replace <aa> x1x x...x.", buf, TRUE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace xaax x1x x...x.")); /* No match. Text should copy to output with no changes. */ status = U_ZERO_ERROR; uregex_setText(re, text2, -1, &status); resultSz = uregex_replaceFirst(re, replText, -1, buf, sizeof(buf)/2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("No match here.", buf, TRUE); TEST_ASSERT(resultSz == (int32_t)strlen("No match here.")); /* Match, output just fills buffer, no termination warning. */ status = U_ZERO_ERROR; uregex_setText(re, text1, -1, &status); memset(buf, -1, sizeof(buf)); resultSz = uregex_replaceFirst(re, replText, -1, buf, strlen("Replace <aa> x1x x...x."), &status); TEST_ASSERT(status == U_STRING_NOT_TERMINATED_WARNING); TEST_ASSERT_STRING("Replace <aa> x1x x...x.", buf, FALSE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace xaax x1x x...x.")); TEST_ASSERT(buf[resultSz] == (UChar)0xffff); /* Do the replaceFirst again, without first resetting anything. * Should give the same results. */ status = U_ZERO_ERROR; memset(buf, -1, sizeof(buf)); resultSz = uregex_replaceFirst(re, replText, -1, buf, strlen("Replace <aa> x1x x...x."), &status); TEST_ASSERT(status == U_STRING_NOT_TERMINATED_WARNING); TEST_ASSERT_STRING("Replace <aa> x1x x...x.", buf, FALSE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace xaax x1x x...x.")); TEST_ASSERT(buf[resultSz] == (UChar)0xffff); /* NULL buffer, zero buffer length */ status = U_ZERO_ERROR; resultSz = uregex_replaceFirst(re, replText, -1, NULL, 0, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); TEST_ASSERT(resultSz == (int32_t)strlen("Replace xaax x1x x...x.")); /* Buffer too small by one */ status = U_ZERO_ERROR; memset(buf, -1, sizeof(buf)); resultSz = uregex_replaceFirst(re, replText, -1, buf, strlen("Replace <aa> x1x x...x.")-1, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); TEST_ASSERT_STRING("Replace <aa> x1x x...x", buf, FALSE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace xaax x1x x...x.")); TEST_ASSERT(buf[resultSz] == (UChar)0xffff); uregex_close(re); } /* * replaceAll() */ { UChar text1[80]; UChar text2[80]; UChar replText[80]; UChar buf[80]; int32_t resultSz; int32_t expectedResultSize; int32_t i; u_uastrncpy(text1, "Replace xaax x1x x...x.", sizeof(text1)/2); u_uastrncpy(text2, "No match here.", sizeof(text2)/2); u_uastrncpy(replText, "<$1>", sizeof(replText)/2); expectedResultSize = u_strlen(text1); status = U_ZERO_ERROR; re = uregex_openC("x(.*?)x", 0, NULL, &status); TEST_ASSERT_SUCCESS(status); /* Normal case, with match */ uregex_setText(re, text1, -1, &status); resultSz = uregex_replaceAll(re, replText, -1, buf, sizeof(buf)/2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("Replace <aa> <1> <...>.", buf, TRUE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace xaax x1x x...x.")); /* No match. Text should copy to output with no changes. */ status = U_ZERO_ERROR; uregex_setText(re, text2, -1, &status); resultSz = uregex_replaceAll(re, replText, -1, buf, sizeof(buf)/2, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("No match here.", buf, TRUE); TEST_ASSERT(resultSz == (int32_t)strlen("No match here.")); /* Match, output just fills buffer, no termination warning. */ status = U_ZERO_ERROR; uregex_setText(re, text1, -1, &status); memset(buf, -1, sizeof(buf)); resultSz = uregex_replaceAll(re, replText, -1, buf, strlen("Replace xaax x1x x...x."), &status); TEST_ASSERT(status == U_STRING_NOT_TERMINATED_WARNING); TEST_ASSERT_STRING("Replace <aa> <1> <...>.", buf, FALSE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace <aa> <1> <...>.")); TEST_ASSERT(buf[resultSz] == (UChar)0xffff); /* Do the replaceFirst again, without first resetting anything. * Should give the same results. */ status = U_ZERO_ERROR; memset(buf, -1, sizeof(buf)); resultSz = uregex_replaceAll(re, replText, -1, buf, strlen("Replace xaax x1x x...x."), &status); TEST_ASSERT(status == U_STRING_NOT_TERMINATED_WARNING); TEST_ASSERT_STRING("Replace <aa> <1> <...>.", buf, FALSE); TEST_ASSERT(resultSz == (int32_t)strlen("Replace <aa> <1> <...>.")); TEST_ASSERT(buf[resultSz] == (UChar)0xffff); /* NULL buffer, zero buffer length */ status = U_ZERO_ERROR; resultSz = uregex_replaceAll(re, replText, -1, NULL, 0, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); TEST_ASSERT(resultSz == (int32_t)strlen("Replace <aa> <1> <...>.")); /* Buffer too small. Try every size, which will tickle edge cases * in uregex_appendReplacement (used by replaceAll) */ for (i=0; i<expectedResultSize; i++) { char expected[80]; status = U_ZERO_ERROR; memset(buf, -1, sizeof(buf)); resultSz = uregex_replaceAll(re, replText, -1, buf, i, &status); TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); strcpy(expected, "Replace <aa> <1> <...>."); expected[i] = 0; TEST_ASSERT_STRING(expected, buf, FALSE); TEST_ASSERT(resultSz == expectedResultSize); TEST_ASSERT(buf[i] == (UChar)0xffff); } uregex_close(re); } /* * appendReplacement() */ { UChar text[100]; UChar repl[100]; UChar buf[100]; UChar *bufPtr; int32_t bufCap; status = U_ZERO_ERROR; re = uregex_openC(".*", 0, 0, &status); TEST_ASSERT_SUCCESS(status); u_uastrncpy(text, "whatever", sizeof(text)/2); u_uastrncpy(repl, "some other", sizeof(repl)/2); uregex_setText(re, text, -1, &status); /* match covers whole target string */ uregex_find(re, 0, &status); TEST_ASSERT_SUCCESS(status); bufPtr = buf; bufCap = sizeof(buf) / 2; uregex_appendReplacement(re, repl, -1, &bufPtr, &bufCap, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("some other", buf, TRUE); /* Match has \u \U escapes */ uregex_find(re, 0, &status); TEST_ASSERT_SUCCESS(status); bufPtr = buf; bufCap = sizeof(buf) / 2; u_uastrncpy(repl, "abc\\u0041\\U00000042 \\\\ $ \\abc", sizeof(repl)/2); uregex_appendReplacement(re, repl, -1, &bufPtr, &bufCap, &status); TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("abcAB \\ $ abc", buf, TRUE); uregex_close(re); } /* * appendTail(). Checked in ReplaceFirst(), replaceAll(). */ /* * split() */ { UChar textToSplit[80]; UChar text2[80]; UChar buf[200]; UChar *fields[10]; int32_t numFields; int32_t requiredCapacity; int32_t spaceNeeded; int32_t sz; u_uastrncpy(textToSplit, "first : second: third", sizeof(textToSplit)/2); u_uastrncpy(text2, "No match here.", sizeof(text2)/2); status = U_ZERO_ERROR; re = uregex_openC(":", 0, NULL, &status); /* Simple split */ uregex_setText(re, textToSplit, -1, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if (U_SUCCESS(status)) { memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 10, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 3); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING(" second", fields[1], TRUE); TEST_ASSERT_STRING(" third", fields[2], TRUE); TEST_ASSERT(fields[3] == NULL); spaceNeeded = u_strlen(textToSplit) - (numFields - 1) + /* Field delimiters do not appear in output */ numFields; /* Each field gets a NUL terminator */ TEST_ASSERT(spaceNeeded == requiredCapacity); } } uregex_close(re); /* Split with too few output strings available */ status = U_ZERO_ERROR; re = uregex_openC(":", 0, NULL, &status); uregex_setText(re, textToSplit, -1, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 2, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 2); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING(" second: third", fields[1], TRUE); TEST_ASSERT(!memcmp(&fields[2],&minus1,sizeof(UChar*))); spaceNeeded = u_strlen(textToSplit) - (numFields - 1) + /* Field delimiters do not appear in output */ numFields; /* Each field gets a NUL terminator */ TEST_ASSERT(spaceNeeded == requiredCapacity); /* Split with a range of output buffer sizes. */ spaceNeeded = u_strlen(textToSplit) - (numFields - 1) + /* Field delimiters do not appear in output */ numFields; /* Each field gets a NUL terminator */ for (sz=0; sz < spaceNeeded+1; sz++) { memset(fields, -1, sizeof(fields)); status = U_ZERO_ERROR; numFields = uregex_split(re, buf, sz, &requiredCapacity, fields, 10, &status); if (sz >= spaceNeeded) { TEST_ASSERT_SUCCESS(status); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING(" second", fields[1], TRUE); TEST_ASSERT_STRING(" third", fields[2], TRUE); } else { TEST_ASSERT(status == U_BUFFER_OVERFLOW_ERROR); } TEST_ASSERT(numFields == 3); TEST_ASSERT(fields[3] == NULL); TEST_ASSERT(spaceNeeded == requiredCapacity); } } } uregex_close(re); } /* Split(), part 2. Patterns with capture groups. The capture group text * comes out as additional fields. */ { UChar textToSplit[80]; UChar buf[200]; UChar *fields[10]; int32_t numFields; int32_t requiredCapacity; int32_t spaceNeeded; int32_t sz; u_uastrncpy(textToSplit, "first <tag-a> second<tag-b> third", sizeof(textToSplit)/2); status = U_ZERO_ERROR; re = uregex_openC("<(.*?)>", 0, NULL, &status); uregex_setText(re, textToSplit, -1, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 10, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 5); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING("tag-a", fields[1], TRUE); TEST_ASSERT_STRING(" second", fields[2], TRUE); TEST_ASSERT_STRING("tag-b", fields[3], TRUE); TEST_ASSERT_STRING(" third", fields[4], TRUE); TEST_ASSERT(fields[5] == NULL); spaceNeeded = strlen("first .tag-a. second.tag-b. third."); /* "." at NUL positions */ TEST_ASSERT(spaceNeeded == requiredCapacity); } } /* Split with too few output strings available (2) */ status = U_ZERO_ERROR; memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 2, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 2); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING(" second<tag-b> third", fields[1], TRUE); TEST_ASSERT(!memcmp(&fields[2],&minus1,sizeof(UChar*))); spaceNeeded = strlen("first . second<tag-b> third."); /* "." at NUL positions */ TEST_ASSERT(spaceNeeded == requiredCapacity); } /* Split with too few output strings available (3) */ status = U_ZERO_ERROR; memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 3, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 3); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING("tag-a", fields[1], TRUE); TEST_ASSERT_STRING(" second<tag-b> third", fields[2], TRUE); TEST_ASSERT(!memcmp(&fields[3],&minus1,sizeof(UChar*))); spaceNeeded = strlen("first .tag-a. second<tag-b> third."); /* "." at NUL positions */ TEST_ASSERT(spaceNeeded == requiredCapacity); } /* Split with just enough output strings available (5) */ status = U_ZERO_ERROR; memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 5, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 5); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING("tag-a", fields[1], TRUE); TEST_ASSERT_STRING(" second", fields[2], TRUE); TEST_ASSERT_STRING("tag-b", fields[3], TRUE); TEST_ASSERT_STRING(" third", fields[4], TRUE); TEST_ASSERT(!memcmp(&fields[5],&minus1,sizeof(UChar*))); spaceNeeded = strlen("first .tag-a. second.tag-b. third."); /* "." at NUL positions */ TEST_ASSERT(spaceNeeded == requiredCapacity); } /* Split, end of text is a field delimiter. */ status = U_ZERO_ERROR; sz = strlen("first <tag-a> second<tag-b>"); uregex_setText(re, textToSplit, sz, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { memset(fields, -1, sizeof(fields)); numFields = uregex_split(re, buf, sizeof(buf)/2, &requiredCapacity, fields, 9, &status); TEST_ASSERT_SUCCESS(status); /* The TEST_ASSERT_SUCCESS call above should change too... */ if(U_SUCCESS(status)) { TEST_ASSERT(numFields == 4); TEST_ASSERT_STRING("first ", fields[0], TRUE); TEST_ASSERT_STRING("tag-a", fields[1], TRUE); TEST_ASSERT_STRING(" second", fields[2], TRUE); TEST_ASSERT_STRING("tag-b", fields[3], TRUE); TEST_ASSERT(fields[4] == NULL); TEST_ASSERT(fields[8] == NULL); TEST_ASSERT(!memcmp(&fields[9],&minus1,sizeof(UChar*))); spaceNeeded = strlen("first .tag-a. second.tag-b."); /* "." at NUL positions */ TEST_ASSERT(spaceNeeded == requiredCapacity); } } uregex_close(re); } }