// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2016, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ /******************************************************************************** * * File CNUMTST.C * * Madhu Katragadda Creation * * Modification History: * * Date Name Description * 06/24/99 helena Integrated Alan's NF enhancements and Java2 bug fixes * 07/15/99 helena Ported to HPUX 10/11 CC. ********************************************************************************* */ /* C API TEST FOR NUMBER FORMAT */ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "unicode/uloc.h" #include "unicode/umisc.h" #include "unicode/unum.h" #include "unicode/unumsys.h" #include "unicode/ustring.h" #include "unicode/udisplaycontext.h" #include "cintltst.h" #include "cnumtst.h" #include "cmemory.h" #include "cstring.h" #include "putilimp.h" #include "uassert.h" #include #include static const char *tagAssert(const char *f, int32_t l, const char *msg) { static char _fileline[1000]; sprintf(_fileline, "%s:%d: ASSERT_TRUE(%s)", f, l, msg); return _fileline; } #define ASSERT_TRUE(x) assertTrue(tagAssert(__FILE__, __LINE__, #x), (x)) void addNumForTest(TestNode** root); static void TestTextAttributeCrash(void); static void TestNBSPInPattern(void); static void TestInt64Parse(void); static void TestParseCurrency(void); static void TestMaxInt(void); static void TestNoExponent(void); static void TestSignAlwaysShown(void); static void TestMinimumGroupingDigits(void); static void TestParseCaseSensitive(void); static void TestUFormattable(void); static void TestUNumberingSystem(void); static void TestCurrencyIsoPluralFormat(void); static void TestContext(void); static void TestCurrencyUsage(void); static void TestCurrFmtNegSameAsPositive(void); static void TestVariousStylesAndAttributes(void); static void TestParseCurrPatternWithDecStyle(void); static void TestFormatForFields(void); static void TestRBNFRounding(void); static void Test12052_NullPointer(void); static void TestParseCases(void); static void TestSetMaxFracAndRoundIncr(void); static void TestIgnorePadding(void); static void TestSciNotationMaxFracCap(void); static void TestMinIntMinFracZero(void); static void Test21479_ExactCurrency(void); #define TESTCASE(x) addTest(root, &x, "tsformat/cnumtst/" #x) void addNumForTest(TestNode** root) { TESTCASE(TestNumberFormat); TESTCASE(TestSpelloutNumberParse); TESTCASE(TestSignificantDigits); TESTCASE(TestSigDigRounding); TESTCASE(TestNumberFormatPadding); TESTCASE(TestInt64Format); TESTCASE(TestNonExistentCurrency); TESTCASE(TestCurrencyRegression); TESTCASE(TestTextAttributeCrash); TESTCASE(TestRBNFFormat); TESTCASE(TestRBNFRounding); TESTCASE(TestNBSPInPattern); TESTCASE(TestInt64Parse); TESTCASE(TestParseZero); TESTCASE(TestParseCurrency); TESTCASE(TestCloneWithRBNF); TESTCASE(TestMaxInt); TESTCASE(TestNoExponent); TESTCASE(TestSignAlwaysShown); TESTCASE(TestMinimumGroupingDigits); TESTCASE(TestParseCaseSensitive); TESTCASE(TestUFormattable); TESTCASE(TestUNumberingSystem); TESTCASE(TestCurrencyIsoPluralFormat); TESTCASE(TestContext); TESTCASE(TestCurrencyUsage); TESTCASE(TestCurrFmtNegSameAsPositive); TESTCASE(TestVariousStylesAndAttributes); TESTCASE(TestParseCurrPatternWithDecStyle); TESTCASE(TestFormatForFields); TESTCASE(Test12052_NullPointer); TESTCASE(TestParseCases); TESTCASE(TestSetMaxFracAndRoundIncr); TESTCASE(TestIgnorePadding); TESTCASE(TestSciNotationMaxFracCap); TESTCASE(TestMinIntMinFracZero); TESTCASE(Test21479_ExactCurrency); } /* test Parse int 64 */ static void TestInt64Parse() { UErrorCode st = U_ZERO_ERROR; UErrorCode* status = &st; const char* st1 = "009223372036854775808"; const int size = 21; UChar text[21]; UNumberFormat* nf; int64_t a; u_charsToUChars(st1, text, size); nf = unum_open(UNUM_DEFAULT, NULL, -1, NULL, NULL, status); if(U_FAILURE(*status)) { log_data_err("Error in unum_open() %s \n", myErrorName(*status)); return; } log_verbose("About to test unum_parseInt64() with out of range number\n"); a = unum_parseInt64(nf, text, size, 0, status); (void)a; /* Suppress set but not used warning. */ if(!U_FAILURE(*status)) { log_err("Error in unum_parseInt64(): %s \n", myErrorName(*status)); } else { log_verbose("unum_parseInt64() successful\n"); } unum_close(nf); return; } /* test Number Format API */ static void TestNumberFormat() { UChar *result=NULL; UChar temp1[512]; UChar temp2[512]; UChar temp[5]; UChar prefix[5]; UChar suffix[5]; UChar symbol[20]; int32_t resultlength; int32_t resultlengthneeded; int32_t parsepos; double d1 = -1.0; int32_t l1; double d = -10456.37; double a = 1234.56, a1 = 1235.0; int32_t l = 100000000; UFieldPosition pos1; UFieldPosition pos2; int32_t numlocales; int32_t i; UNumberFormatAttribute attr; UNumberFormatSymbol symType = UNUM_DECIMAL_SEPARATOR_SYMBOL; int32_t newvalue; UErrorCode status=U_ZERO_ERROR; UNumberFormatStyle style= UNUM_DEFAULT; UNumberFormat *pattern; UNumberFormat *def, *fr, *cur_def, *cur_fr, *per_def, *per_fr, *cur_frpattern, *myclone, *spellout_def; /* Testing unum_open() with various Numberformat styles and locales*/ status = U_ZERO_ERROR; log_verbose("Testing unum_open() with default style and locale\n"); def=unum_open(style, NULL,0,NULL, NULL,&status); /* Might as well pack it in now if we can't even get a default NumberFormat... */ if(U_FAILURE(status)) { log_data_err("Error in creating default NumberFormat using unum_open(): %s (Are you missing data?)\n", myErrorName(status)); return; } log_verbose("\nTesting unum_open() with french locale and default style(decimal)\n"); fr=unum_open(style,NULL,0, "fr_FR",NULL, &status); if(U_FAILURE(status)) log_err("Error: could not create NumberFormat (french): %s\n", myErrorName(status)); log_verbose("\nTesting unum_open(currency,NULL,status)\n"); style=UNUM_CURRENCY; /* Can't hardcode the result to assume the default locale is "en_US". */ cur_def=unum_open(style, NULL,0,"en_US", NULL, &status); if(U_FAILURE(status)) log_err("Error: could not create NumberFormat using \n unum_open(currency, NULL, &status) %s\n", myErrorName(status) ); log_verbose("\nTesting unum_open(currency, frenchlocale, status)\n"); cur_fr=unum_open(style,NULL,0, "fr_FR", NULL, &status); if(U_FAILURE(status)) log_err("Error: could not create NumberFormat using unum_open(currency, french, &status): %s\n", myErrorName(status)); log_verbose("\nTesting unum_open(percent, NULL, status)\n"); style=UNUM_PERCENT; per_def=unum_open(style,NULL,0, NULL,NULL, &status); if(U_FAILURE(status)) log_err("Error: could not create NumberFormat using unum_open(percent, NULL, &status): %s\n", myErrorName(status)); log_verbose("\nTesting unum_open(percent,frenchlocale, status)\n"); per_fr=unum_open(style, NULL,0,"fr_FR", NULL,&status); if(U_FAILURE(status)) log_err("Error: could not create NumberFormat using unum_open(percent, french, &status): %s\n", myErrorName(status)); log_verbose("\nTesting unum_open(spellout, NULL, status)"); style=UNUM_SPELLOUT; spellout_def=unum_open(style, NULL, 0, "en_US", NULL, &status); if(U_FAILURE(status)) log_err("Error: could not create NumberFormat using unum_open(spellout, NULL, &status): %s\n", myErrorName(status)); /* Testing unum_clone(..) */ log_verbose("\nTesting unum_clone(fmt, status)"); status = U_ZERO_ERROR; myclone = unum_clone(def,&status); if(U_FAILURE(status)) log_err("Error: could not clone unum_clone(def, &status): %s\n", myErrorName(status)); else { log_verbose("unum_clone() successful\n"); } /*Testing unum_getAvailable() and unum_countAvailable()*/ log_verbose("\nTesting getAvailableLocales and countAvailable()\n"); numlocales=unum_countAvailable(); if(numlocales < 0) log_err("error in countAvailable"); else{ log_verbose("unum_countAvialable() successful\n"); log_verbose("The no: of locales where number formattting is applicable is %d\n", numlocales); } for(i=0;i UNUM_FORMAT_SYMBOL_COUNT) argument\n"); status = U_ZERO_ERROR; unum_getSymbol(fmt, (UNumberFormatSymbol)badsymbolSmall, NULL, 0, &status); if (U_SUCCESS(status)) log_err("unum_getSymbol()'s status should be ILLEGAL_ARGUMENT with invalid symbol (less than 0) argument\n"); status = U_ZERO_ERROR; unum_setSymbol(fmt, (UNumberFormatSymbol)badsymbolLarge, value, valueLength, &status); if (U_SUCCESS(status)) log_err("unum_setSymbol()'s status should be ILLEGAL_ARGUMENT with invalid symbol (> UNUM_FORMAT_SYMBOL_COUNT) argument\n"); status = U_ZERO_ERROR; unum_setSymbol(fmt, (UNumberFormatSymbol)badsymbolSmall, value, valueLength, &status); if (U_SUCCESS(status)) log_err("unum_setSymbol()'s status should be ILLEGAL_ARGUMENT with invalid symbol (less than 0) argument\n"); unum_close(fmt); } } /*closing the NumberFormat() using unum_close(UNumberFormat*)")*/ unum_close(def); unum_close(fr); unum_close(cur_def); unum_close(cur_fr); unum_close(per_def); unum_close(per_fr); unum_close(spellout_def); unum_close(pattern); unum_close(cur_frpattern); unum_close(myclone); } static void TestParseZero(void) { UErrorCode errorCode = U_ZERO_ERROR; UChar input[] = {0x30, 0}; /* Input text is decimal '0' */ UChar pat[] = {0x0023,0x003b,0x0023,0}; /* {'#', ';', '#', 0}; */ double dbl; #if 0 UNumberFormat* unum = unum_open( UNUM_DECIMAL /*or UNUM_DEFAULT*/, NULL, -1, NULL, NULL, &errorCode); #else UNumberFormat* unum = unum_open( UNUM_PATTERN_DECIMAL /*needs pattern*/, pat, -1, NULL, NULL, &errorCode); #endif dbl = unum_parseDouble( unum, input, -1 /*u_strlen(input)*/, 0 /* 0 = start */, &errorCode ); if (U_FAILURE(errorCode)) { log_data_err("Result - %s\n", u_errorName(errorCode)); } else { log_verbose("Double: %f\n", dbl); } unum_close(unum); } static const UChar dollars2Sym[] = { 0x24,0x32,0x2E,0x30,0x30,0 }; /* $2.00 */ static const UChar dollars4Sym[] = { 0x24,0x34,0 }; /* $4 */ static const UChar dollarsUS4Sym[] = { 0x55,0x53,0x24,0x34,0 }; /* US$4 */ static const UChar dollars9Sym[] = { 0x39,0xA0,0x24,0 }; /* 9 $ */ static const UChar pounds3Sym[] = { 0xA3,0x33,0x2E,0x30,0x30,0 }; /* [POUND]3.00 */ static const UChar pounds5Sym[] = { 0xA3,0x35,0 }; /* [POUND]5 */ static const UChar pounds7Sym[] = { 0x37,0xA0,0xA3,0 }; /* 7 [POUND] */ static const UChar euros4Sym[] = { 0x34,0x2C,0x30,0x30,0xA0,0x20AC,0 }; /* 4,00 [EURO] */ static const UChar euros6Sym[] = { 0x36,0xA0,0x20AC,0 }; /* 6 [EURO] */ static const UChar euros8Sym[] = { 0x20AC,0x38,0 }; /* [EURO]8 */ static const UChar dollars4PluEn[] = { 0x34,0x20,0x55,0x53,0x20,0x64,0x6F,0x6C,0x6C,0x61,0x72,0x73,0 }; /* 4 US dollars*/ static const UChar pounds5PluEn[] = { 0x35,0x20,0x42,0x72,0x69,0x74,0x69,0x73,0x68,0x20,0x70,0x6F,0x75,0x6E,0x64,0x73,0x20,0x73,0x74,0x65,0x72,0x6C,0x69,0x6E,0x67,0 }; /* 5 British pounds sterling */ static const UChar euros8PluEn[] = { 0x38,0x20,0x65,0x75,0x72,0x6F,0x73,0 }; /* 8 euros*/ static const UChar euros6PluFr[] = { 0x36,0x20,0x65,0x75,0x72,0x6F,0x73,0 }; /* 6 euros*/ typedef struct { const char * locale; const char * descrip; const UChar * currStr; const UChar * plurStr; UErrorCode parsDoubExpectErr; int32_t parsDoubExpectPos; double parsDoubExpectVal; UErrorCode parsCurrExpectErr; int32_t parsCurrExpectPos; double parsCurrExpectVal; const char * parsCurrExpectCurr; } ParseCurrencyItem; static const ParseCurrencyItem parseCurrencyItems[] = { { "en_US", "dollars2", dollars2Sym, NULL, U_ZERO_ERROR, 5, 2.0, U_ZERO_ERROR, 5, 2.0, "USD" }, { "en_US", "dollars4", dollars4Sym, dollars4PluEn, U_ZERO_ERROR, 2, 4.0, U_ZERO_ERROR, 2, 4.0, "USD" }, { "en_US", "dollars9", dollars9Sym, NULL, U_PARSE_ERROR, 1, 0.0, U_PARSE_ERROR, 1, 0.0, "" }, { "en_US", "pounds3", pounds3Sym, NULL, U_PARSE_ERROR, 0, 0.0, U_ZERO_ERROR, 5, 3.0, "GBP" }, { "en_US", "pounds5", pounds5Sym, pounds5PluEn, U_PARSE_ERROR, 0, 0.0, U_ZERO_ERROR, 2, 5.0, "GBP" }, { "en_US", "pounds7", pounds7Sym, NULL, U_PARSE_ERROR, 1, 0.0, U_PARSE_ERROR, 1, 0.0, "" }, { "en_US", "euros8", euros8Sym, euros8PluEn, U_PARSE_ERROR, 0, 0.0, U_ZERO_ERROR, 2, 8.0, "EUR" }, { "en_GB", "pounds3", pounds3Sym, NULL, U_ZERO_ERROR, 5, 3.0, U_ZERO_ERROR, 5, 3.0, "GBP" }, { "en_GB", "pounds5", pounds5Sym, pounds5PluEn, U_ZERO_ERROR, 2, 5.0, U_ZERO_ERROR, 2, 5.0, "GBP" }, { "en_GB", "pounds7", pounds7Sym, NULL, U_PARSE_ERROR, 1, 0.0, U_PARSE_ERROR, 1, 0.0, "" }, { "en_GB", "euros4", euros4Sym, NULL, U_PARSE_ERROR, 0, 0.0, U_PARSE_ERROR, 0, 0.0, "" }, { "en_GB", "euros6", euros6Sym, NULL, U_PARSE_ERROR, 1, 0.0, U_PARSE_ERROR, 1, 0.0, "" }, { "en_GB", "euros8", euros8Sym, euros8PluEn, U_PARSE_ERROR, 0, 0.0, U_ZERO_ERROR, 2, 8.0, "EUR" }, { "en_GB", "dollars4", dollarsUS4Sym,dollars4PluEn, U_PARSE_ERROR, 0, 0.0, U_ZERO_ERROR, 4, 4.0, "USD" }, { "fr_FR", "euros4", euros4Sym, NULL, U_ZERO_ERROR, 6, 4.0, U_ZERO_ERROR, 6, 4.0, "EUR" }, { "fr_FR", "euros6", euros6Sym, euros6PluFr, U_ZERO_ERROR, 3, 6.0, U_ZERO_ERROR, 3, 6.0, "EUR" }, { "fr_FR", "euros8", euros8Sym, NULL, U_PARSE_ERROR, 2, 0.0, U_PARSE_ERROR, 2, 0.0, "" }, { "fr_FR", "dollars2", dollars2Sym, NULL, U_PARSE_ERROR, 0, 0.0, U_PARSE_ERROR, 0, 0.0, "" }, { "fr_FR", "dollars4", dollars4Sym, NULL, U_PARSE_ERROR, 0, 0.0, U_PARSE_ERROR, 0, 0.0, "" }, { NULL, NULL, NULL, NULL, 0, 0, 0.0, 0, 0, 0.0, NULL } }; static void TestParseCurrency() { const ParseCurrencyItem * itemPtr; for (itemPtr = parseCurrencyItems; itemPtr->locale != NULL; ++itemPtr) { UNumberFormat* unum; UErrorCode status; double parseVal; int32_t parsePos; UChar parseCurr[4]; char parseCurrB[4]; status = U_ZERO_ERROR; unum = unum_open(UNUM_CURRENCY, NULL, 0, itemPtr->locale, NULL, &status); if (U_SUCCESS(status)) { const UChar * currStr = itemPtr->currStr; status = U_ZERO_ERROR; parsePos = 0; parseVal = unum_parseDouble(unum, currStr, -1, &parsePos, &status); if (status != itemPtr->parsDoubExpectErr || parsePos != itemPtr->parsDoubExpectPos || parseVal != itemPtr->parsDoubExpectVal) { log_err("UNUM_CURRENCY parseDouble %s/%s, expect %s pos %d val %.1f, get %s pos %d val %.1f\n", itemPtr->locale, itemPtr->descrip, u_errorName(itemPtr->parsDoubExpectErr), itemPtr->parsDoubExpectPos, itemPtr->parsDoubExpectVal, u_errorName(status), parsePos, parseVal ); } status = U_ZERO_ERROR; parsePos = 0; parseCurr[0] = 0; parseVal = unum_parseDoubleCurrency(unum, currStr, -1, &parsePos, parseCurr, &status); u_austrncpy(parseCurrB, parseCurr, 4); if (status != itemPtr->parsCurrExpectErr || parsePos != itemPtr->parsCurrExpectPos || parseVal != itemPtr->parsCurrExpectVal || strncmp(parseCurrB, itemPtr->parsCurrExpectCurr, 4) != 0) { log_err("UNUM_CURRENCY parseDoubleCurrency %s/%s, expect %s pos %d val %.1f cur %s, get %s pos %d val %.1f cur %s\n", itemPtr->locale, itemPtr->descrip, u_errorName(itemPtr->parsCurrExpectErr), itemPtr->parsCurrExpectPos, itemPtr->parsCurrExpectVal, itemPtr->parsCurrExpectCurr, u_errorName(status), parsePos, parseVal, parseCurrB ); } unum_close(unum); } else { log_data_err("unexpected error in unum_open UNUM_CURRENCY for locale %s: '%s'\n", itemPtr->locale, u_errorName(status)); } if (itemPtr->plurStr != NULL) { status = U_ZERO_ERROR; unum = unum_open(UNUM_CURRENCY_PLURAL, NULL, 0, itemPtr->locale, NULL, &status); if (U_SUCCESS(status)) { status = U_ZERO_ERROR; parsePos = 0; parseVal = unum_parseDouble(unum, itemPtr->plurStr, -1, &parsePos, &status); if (status != itemPtr->parsDoubExpectErr || parseVal != itemPtr->parsDoubExpectVal) { log_err("UNUM_CURRENCY parseDouble Plural %s/%s, expect %s val %.1f, get %s val %.1f\n", itemPtr->locale, itemPtr->descrip, u_errorName(itemPtr->parsDoubExpectErr), itemPtr->parsDoubExpectVal, u_errorName(status), parseVal ); } status = U_ZERO_ERROR; parsePos = 0; parseCurr[0] = 0; parseVal = unum_parseDoubleCurrency(unum, itemPtr->plurStr, -1, &parsePos, parseCurr, &status); u_austrncpy(parseCurrB, parseCurr, 4); if (status != itemPtr->parsCurrExpectErr || parseVal != itemPtr->parsCurrExpectVal || strncmp(parseCurrB, itemPtr->parsCurrExpectCurr, 4) != 0) { log_err("UNUM_CURRENCY parseDoubleCurrency Plural %s/%s, expect %s val %.1f cur %s, get %s val %.1f cur %s\n", itemPtr->locale, itemPtr->descrip, u_errorName(itemPtr->parsCurrExpectErr), itemPtr->parsCurrExpectVal, itemPtr->parsCurrExpectCurr, u_errorName(status), parseVal, parseCurrB ); } unum_close(unum); } else { log_data_err("unexpected error in unum_open UNUM_CURRENCY_PLURAL for locale %s: '%s'\n", itemPtr->locale, u_errorName(status)); } } } } typedef struct { const char * testname; const char * locale; const UChar * source; int32_t startPos; int32_t value; int32_t endPos; UErrorCode status; } SpelloutParseTest; static const UChar ustr_en0[] = {0x7A, 0x65, 0x72, 0x6F, 0}; /* zero */ static const UChar ustr_123[] = {0x31, 0x32, 0x33, 0}; /* 123 */ static const UChar ustr_en123[] = {0x6f, 0x6e, 0x65, 0x20, 0x68, 0x75, 0x6e, 0x64, 0x72, 0x65, 0x64, 0x20, 0x74, 0x77, 0x65, 0x6e, 0x74, 0x79, 0x2d, 0x74, 0x68, 0x72, 0x65, 0x65, 0}; /* one hundred twenty-three */ static const UChar ustr_fr123[] = {0x63, 0x65, 0x6e, 0x74, 0x20, 0x76, 0x69, 0x6e, 0x67, 0x74, 0x2d, 0x74, 0x72, 0x6f, 0x69, 0x73, 0}; /* cent vingt-trois */ static const UChar ustr_ja123[] = {0x767e, 0x4e8c, 0x5341, 0x4e09, 0}; /* kanji 100(+)2(*)10(+)3 */ static const SpelloutParseTest spelloutParseTests[] = { /* name loc src start val end status */ { "en0", "en", ustr_en0, 0, 0, 4, U_ZERO_ERROR }, { "en0", "en", ustr_en0, 2, 0, 2, U_PARSE_ERROR }, { "en0", "ja", ustr_en0, 0, 0, 0, U_PARSE_ERROR }, { "123", "en", ustr_123, 0, 123, 3, U_ZERO_ERROR }, { "en123", "en", ustr_en123, 0, 123, 24, U_ZERO_ERROR }, { "en123", "en", ustr_en123, 12, 23, 24, U_ZERO_ERROR }, { "en123", "fr", ustr_en123, 16, 0, 16, U_PARSE_ERROR }, { "fr123", "fr", ustr_fr123, 0, 123, 16, U_ZERO_ERROR }, { "fr123", "fr", ustr_fr123, 5, 23, 16, U_ZERO_ERROR }, { "fr123", "en", ustr_fr123, 0, 0, 0, U_PARSE_ERROR }, { "ja123", "ja", ustr_ja123, 0, 123, 4, U_ZERO_ERROR }, { "ja123", "ja", ustr_ja123, 1, 23, 4, U_ZERO_ERROR }, { "ja123", "fr", ustr_ja123, 0, 0, 0, U_PARSE_ERROR }, { NULL, NULL, NULL, 0, 0, 0, 0 } /* terminator */ }; static void TestSpelloutNumberParse() { const SpelloutParseTest * testPtr; for (testPtr = spelloutParseTests; testPtr->testname != NULL; ++testPtr) { UErrorCode status = U_ZERO_ERROR; int32_t value, position = testPtr->startPos; UNumberFormat *nf = unum_open(UNUM_SPELLOUT, NULL, 0, testPtr->locale, NULL, &status); if (U_FAILURE(status)) { log_err_status(status, "unum_open fails for UNUM_SPELLOUT with locale %s, status %s\n", testPtr->locale, myErrorName(status)); continue; } status = U_ZERO_ERROR; value = unum_parse(nf, testPtr->source, -1, &position, &status); if ( value != testPtr->value || position != testPtr->endPos || status != testPtr->status ) { log_err("unum_parse SPELLOUT, locale %s, testname %s, startPos %d: for value / endPos / status, expected %d / %d / %s, got %d / %d / %s\n", testPtr->locale, testPtr->testname, testPtr->startPos, testPtr->value, testPtr->endPos, myErrorName(testPtr->status), value, position, myErrorName(status) ); } unum_close(nf); } } static void TestSignificantDigits() { UChar temp[128]; int32_t resultlengthneeded; int32_t resultlength; UErrorCode status = U_ZERO_ERROR; UChar *result = NULL; UNumberFormat* fmt; double d = 123456.789; u_uastrcpy(temp, "###0.0#"); fmt=unum_open(UNUM_IGNORE, temp, -1, "en", NULL, &status); if (U_FAILURE(status)) { log_data_err("got unexpected error for unum_open: '%s'\n", u_errorName(status)); return; } unum_setAttribute(fmt, UNUM_SIGNIFICANT_DIGITS_USED, TRUE); unum_setAttribute(fmt, UNUM_MAX_SIGNIFICANT_DIGITS, 6); u_uastrcpy(temp, "123457"); resultlength=0; resultlengthneeded=unum_formatDouble(fmt, d, NULL, resultlength, NULL, &status); if(status==U_BUFFER_OVERFLOW_ERROR) { status=U_ZERO_ERROR; resultlength=resultlengthneeded+1; result=(UChar*)malloc(sizeof(UChar) * resultlength); unum_formatDouble(fmt, d, result, resultlength, NULL, &status); } if(U_FAILURE(status)) { log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status)); return; } if(u_strcmp(result, temp)==0) log_verbose("Pass: Number Formatting using unum_formatDouble() Successful\n"); else log_err("FAIL: Error in number formatting using unum_formatDouble()\n"); free(result); unum_close(fmt); } static void TestSigDigRounding() { UErrorCode status = U_ZERO_ERROR; UChar expected[128]; UChar result[128]; char temp1[128]; char temp2[128]; UNumberFormat* fmt; double d = 123.4; fmt=unum_open(UNUM_DECIMAL, NULL, 0, "en", NULL, &status); if (U_FAILURE(status)) { log_data_err("got unexpected error for unum_open: '%s'\n", u_errorName(status)); return; } unum_setAttribute(fmt, UNUM_LENIENT_PARSE, FALSE); unum_setAttribute(fmt, UNUM_SIGNIFICANT_DIGITS_USED, TRUE); unum_setAttribute(fmt, UNUM_MAX_SIGNIFICANT_DIGITS, 2); /* unum_setAttribute(fmt, UNUM_MAX_FRACTION_DIGITS, 0); */ unum_setAttribute(fmt, UNUM_ROUNDING_MODE, UNUM_ROUND_UP); unum_setDoubleAttribute(fmt, UNUM_ROUNDING_INCREMENT, 20.0); (void)unum_formatDouble(fmt, d, result, UPRV_LENGTHOF(result), NULL, &status); if(U_FAILURE(status)) { log_err("Error in formatting using unum_formatDouble(.....): %s\n", myErrorName(status)); return; } u_uastrcpy(expected, "140"); if(u_strcmp(result, expected)!=0) log_err("FAIL: Error in unum_formatDouble result %s instead of %s\n", u_austrcpy(temp1, result), u_austrcpy(temp2, expected) ); unum_close(fmt); } static void TestNumberFormatPadding() { UChar *result=NULL; UChar temp1[512]; UChar temp2[512]; UErrorCode status=U_ZERO_ERROR; int32_t resultlength; int32_t resultlengthneeded; UNumberFormat *pattern; double d1; double d = -10456.37; UFieldPosition pos1; int32_t parsepos; /* create a number format using unum_openPattern(....)*/ log_verbose("\nTesting unum_openPattern() with padding\n"); u_uastrcpy(temp1, "*#,##0.0#*;(#,##0.0#)"); status=U_ZERO_ERROR; pattern=unum_open(UNUM_IGNORE,temp1, u_strlen(temp1), NULL, NULL,&status); if(U_SUCCESS(status)) { log_err("error in unum_openPattern(%s): %s\n", temp1, myErrorName(status) ); } else { unum_close(pattern); } /* u_uastrcpy(temp1, "*x#,###,###,##0.0#;(*x#,###,###,##0.0#)"); */ u_uastrcpy(temp1, "*x#,###,###,##0.0#;*x(###,###,##0.0#)"); // input pattern u_uastrcpy(temp2, "*x#########,##0.0#;(#########,##0.0#)"); // equivalent (?) output pattern status=U_ZERO_ERROR; pattern=unum_open(UNUM_IGNORE,temp1, u_strlen(temp1), "en_US",NULL, &status); if(U_FAILURE(status)) { log_err_status(status, "error in padding unum_openPattern(%s): %s\n", temp1, myErrorName(status) ); } else { log_verbose("Pass: padding unum_openPattern() works fine\n"); /*test for unum_toPattern()*/ log_verbose("\nTesting padding unum_toPattern()\n"); resultlength=0; resultlengthneeded=unum_toPattern(pattern, FALSE, NULL, resultlength, &status); if(status==U_BUFFER_OVERFLOW_ERROR) { status=U_ZERO_ERROR; resultlength=resultlengthneeded+1; result=(UChar*)malloc(sizeof(UChar) * resultlength); unum_toPattern(pattern, FALSE, result, resultlength, &status); } if(U_FAILURE(status)) { log_err("error in extracting the padding pattern from UNumberFormat: %s\n", myErrorName(status)); } else { if(u_strncmp(result, temp2, resultlengthneeded)!=0) { log_err( "FAIL: Error in extracting the padding pattern using unum_toPattern(): %d: %s != %s\n", resultlengthneeded, austrdup(temp2), austrdup(result)); } else { log_verbose("Pass: extracted the padding pattern correctly using unum_toPattern()\n"); } } free(result); /* u_uastrcpy(temp1, "(xxxxxxx10,456.37)"); */ u_uastrcpy(temp1, "xxxxx(10,456.37)"); resultlength=0; pos1.field = UNUM_FRACTION_FIELD; resultlengthneeded=unum_formatDouble(pattern, d, NULL, resultlength, &pos1, &status); if(status==U_BUFFER_OVERFLOW_ERROR) { status=U_ZERO_ERROR; resultlength=resultlengthneeded+1; result=(UChar*)malloc(sizeof(UChar) * resultlength); unum_formatDouble(pattern, d, result, resultlength, NULL, &status); } if(U_FAILURE(status)) { log_err("Error in formatting using unum_formatDouble(.....) with padding : %s\n", myErrorName(status)); } else { if(u_strcmp(result, temp1)==0) log_verbose("Pass: Number Formatting using unum_formatDouble() padding Successful\n"); else log_data_err("FAIL: Error in number formatting using unum_formatDouble() with padding\n"); if(pos1.beginIndex == 13 && pos1.endIndex == 15) log_verbose("Pass: Complete number formatting using unum_formatDouble() successful\n"); else log_err("Fail: Error in complete number Formatting using unum_formatDouble()\nGot: b=%d end=%d\nExpected: b=13 end=15\n", pos1.beginIndex, pos1.endIndex); /* Testing unum_parse() and unum_parseDouble() */ log_verbose("\nTesting padding unum_parseDouble()\n"); parsepos=0; d1=unum_parseDouble(pattern, result, u_strlen(result), &parsepos, &status); if(U_FAILURE(status)) { log_err("padding parse failed. The error is : %s\n", myErrorName(status)); } if(d1!=d) log_err("Fail: Error in padding parsing\n"); else log_verbose("Pass: padding parsing successful\n"); free(result); } } unum_close(pattern); } static UBool withinErr(double a, double b, double err) { return uprv_fabs(a - b) < uprv_fabs(a * err); } static void TestInt64Format() { UChar temp1[512]; UChar result[512]; UNumberFormat *fmt; UErrorCode status = U_ZERO_ERROR; const double doubleInt64Max = (double)U_INT64_MAX; const double doubleInt64Min = (double)U_INT64_MIN; const double doubleBig = 10.0 * (double)U_INT64_MAX; int32_t val32; int64_t val64; double valDouble; int32_t parsepos; /* create a number format using unum_openPattern(....) */ log_verbose("\nTesting Int64Format\n"); u_uastrcpy(temp1, "#.#E0"); fmt = unum_open(UNUM_IGNORE, temp1, u_strlen(temp1), "en_US", NULL, &status); if(U_FAILURE(status)) { log_data_err("error in unum_openPattern() - %s\n", myErrorName(status)); } else { unum_setAttribute(fmt, UNUM_MAX_FRACTION_DIGITS, 20); unum_formatInt64(fmt, U_INT64_MAX, result, 512, NULL, &status); if (U_FAILURE(status)) { log_err("error in unum_format(): %s\n", myErrorName(status)); } else { log_verbose("format int64max: '%s'\n", result); parsepos = 0; val32 = unum_parse(fmt, result, u_strlen(result), &parsepos, &status); if (status != U_INVALID_FORMAT_ERROR) { log_err("parse didn't report error: %s\n", myErrorName(status)); } else if (val32 != INT32_MAX) { log_err("parse didn't pin return value, got: %d\n", val32); } status = U_ZERO_ERROR; parsepos = 0; val64 = unum_parseInt64(fmt, result, u_strlen(result), &parsepos, &status); if (U_FAILURE(status)) { log_err("parseInt64 returned error: %s\n", myErrorName(status)); } else if (val64 != U_INT64_MAX) { log_err("parseInt64 returned incorrect value, got: %ld\n", val64); } status = U_ZERO_ERROR; parsepos = 0; valDouble = unum_parseDouble(fmt, result, u_strlen(result), &parsepos, &status); if (U_FAILURE(status)) { log_err("parseDouble returned error: %s\n", myErrorName(status)); } else if (valDouble != doubleInt64Max) { log_err("parseDouble returned incorrect value, got: %g\n", valDouble); } } unum_formatInt64(fmt, U_INT64_MIN, result, 512, NULL, &status); if (U_FAILURE(status)) { log_err("error in unum_format(): %s\n", myErrorName(status)); } else { log_verbose("format int64min: '%s'\n", result); parsepos = 0; val32 = unum_parse(fmt, result, u_strlen(result), &parsepos, &status); if (status != U_INVALID_FORMAT_ERROR) { log_err("parse didn't report error: %s\n", myErrorName(status)); } else if (val32 != INT32_MIN) { log_err("parse didn't pin return value, got: %d\n", val32); } status = U_ZERO_ERROR; parsepos = 0; val64 = unum_parseInt64(fmt, result, u_strlen(result), &parsepos, &status); if (U_FAILURE(status)) { log_err("parseInt64 returned error: %s\n", myErrorName(status)); } else if (val64 != U_INT64_MIN) { log_err("parseInt64 returned incorrect value, got: %ld\n", val64); } status = U_ZERO_ERROR; parsepos = 0; valDouble = unum_parseDouble(fmt, result, u_strlen(result), &parsepos, &status); if (U_FAILURE(status)) { log_err("parseDouble returned error: %s\n", myErrorName(status)); } else if (valDouble != doubleInt64Min) { log_err("parseDouble returned incorrect value, got: %g\n", valDouble); } } unum_formatDouble(fmt, doubleBig, result, 512, NULL, &status); if (U_FAILURE(status)) { log_err("error in unum_format(): %s\n", myErrorName(status)); } else { log_verbose("format doubleBig: '%s'\n", result); parsepos = 0; val32 = unum_parse(fmt, result, u_strlen(result), &parsepos, &status); if (status != U_INVALID_FORMAT_ERROR) { log_err("parse didn't report error: %s\n", myErrorName(status)); } else if (val32 != INT32_MAX) { log_err("parse didn't pin return value, got: %d\n", val32); } status = U_ZERO_ERROR; parsepos = 0; val64 = unum_parseInt64(fmt, result, u_strlen(result), &parsepos, &status); if (status != U_INVALID_FORMAT_ERROR) { log_err("parseInt64 didn't report error error: %s\n", myErrorName(status)); } else if (val64 != U_INT64_MAX) { log_err("parseInt64 returned incorrect value, got: %ld\n", val64); } status = U_ZERO_ERROR; parsepos = 0; valDouble = unum_parseDouble(fmt, result, u_strlen(result), &parsepos, &status); if (U_FAILURE(status)) { log_err("parseDouble returned error: %s\n", myErrorName(status)); } else if (!withinErr(valDouble, doubleBig, 1e-15)) { log_err("parseDouble returned incorrect value, got: %g\n", valDouble); } } u_uastrcpy(result, "5.06e-27"); parsepos = 0; valDouble = unum_parseDouble(fmt, result, u_strlen(result), &parsepos, &status); if (U_FAILURE(status)) { log_err("parseDouble() returned error: %s\n", myErrorName(status)); } else if (!withinErr(valDouble, 5.06e-27, 1e-15)) { log_err("parseDouble() returned incorrect value, got: %g\n", valDouble); } } unum_close(fmt); } static void test_fmt(UNumberFormat* fmt, UBool isDecimal) { char temp[512]; UChar buffer[512]; int32_t BUFSIZE = UPRV_LENGTHOF(buffer); double vals[] = { -.2, 0, .2, 5.5, 15.2, 250, 123456789 }; int i; for (i = 0; i < UPRV_LENGTHOF(vals); ++i) { UErrorCode status = U_ZERO_ERROR; unum_formatDouble(fmt, vals[i], buffer, BUFSIZE, NULL, &status); if (U_FAILURE(status)) { log_err("failed to format: %g, returned %s\n", vals[i], u_errorName(status)); } else { u_austrcpy(temp, buffer); log_verbose("formatting %g returned '%s'\n", vals[i], temp); } } /* check APIs now */ { UErrorCode status = U_ZERO_ERROR; UParseError perr; u_uastrcpy(buffer, "#,##0.0#"); unum_applyPattern(fmt, FALSE, buffer, -1, &perr, &status); if (isDecimal ? U_FAILURE(status) : (status != U_UNSUPPORTED_ERROR)) { log_err("got unexpected error for applyPattern: '%s'\n", u_errorName(status)); } } { int isLenient = unum_getAttribute(fmt, UNUM_LENIENT_PARSE); log_verbose("lenient: 0x%x\n", isLenient); if (isLenient != FALSE) { log_err("didn't expect lenient value: %d\n", isLenient); } unum_setAttribute(fmt, UNUM_LENIENT_PARSE, TRUE); isLenient = unum_getAttribute(fmt, UNUM_LENIENT_PARSE); if (isLenient != TRUE) { log_err("didn't expect lenient value after set: %d\n", isLenient); } } { double val2; double val = unum_getDoubleAttribute(fmt, UNUM_LENIENT_PARSE); if (val != -1) { log_err("didn't expect double attribute\n"); } val = unum_getDoubleAttribute(fmt, UNUM_ROUNDING_INCREMENT); if ((val == -1) == isDecimal) { log_err("didn't expect -1 rounding increment\n"); } unum_setDoubleAttribute(fmt, UNUM_ROUNDING_INCREMENT, val+.5); val2 = unum_getDoubleAttribute(fmt, UNUM_ROUNDING_INCREMENT); if (isDecimal && (val2 - val != .5)) { log_err("set rounding increment had no effect on decimal format"); } } { UErrorCode status = U_ZERO_ERROR; int len = unum_getTextAttribute(fmt, UNUM_DEFAULT_RULESET, buffer, BUFSIZE, &status); if (isDecimal ? (status != U_UNSUPPORTED_ERROR) : U_FAILURE(status)) { log_err("got unexpected error for get default ruleset: '%s'\n", u_errorName(status)); } if (U_SUCCESS(status)) { u_austrcpy(temp, buffer); log_verbose("default ruleset: '%s'\n", temp); } status = U_ZERO_ERROR; len = unum_getTextAttribute(fmt, UNUM_PUBLIC_RULESETS, buffer, BUFSIZE, &status); if (isDecimal ? (status != U_UNSUPPORTED_ERROR) : U_FAILURE(status)) { log_err("got unexpected error for get public rulesets: '%s'\n", u_errorName(status)); } if (U_SUCCESS(status)) { u_austrcpy(temp, buffer); log_verbose("public rulesets: '%s'\n", temp); /* set the default ruleset to the first one found, and retry */ if (len > 0) { for (i = 0; i < len && temp[i] != ';'; ++i){} if (i < len) { buffer[i] = 0; unum_setTextAttribute(fmt, UNUM_DEFAULT_RULESET, buffer, -1, &status); if (U_FAILURE(status)) { log_err("unexpected error setting default ruleset: '%s'\n", u_errorName(status)); } else { int len2 = unum_getTextAttribute(fmt, UNUM_DEFAULT_RULESET, buffer, BUFSIZE, &status); if (U_FAILURE(status)) { log_err("could not fetch default ruleset: '%s'\n", u_errorName(status)); } else if (len2 != i) { u_austrcpy(temp, buffer); log_err("unexpected ruleset len: %d ex: %d val: %s\n", len2, i, temp); } else { for (i = 0; i < UPRV_LENGTHOF(vals); ++i) { status = U_ZERO_ERROR; unum_formatDouble(fmt, vals[i], buffer, BUFSIZE, NULL, &status); if (U_FAILURE(status)) { log_err("failed to format: %g, returned %s\n", vals[i], u_errorName(status)); } else { u_austrcpy(temp, buffer); log_verbose("formatting %g returned '%s'\n", vals[i], temp); } } } } } } } } { UErrorCode status = U_ZERO_ERROR; unum_toPattern(fmt, FALSE, buffer, BUFSIZE, &status); if (U_SUCCESS(status)) { u_austrcpy(temp, buffer); log_verbose("pattern: '%s'\n", temp); } else if (status != U_BUFFER_OVERFLOW_ERROR) { log_err("toPattern failed unexpectedly: %s\n", u_errorName(status)); } else { log_verbose("pattern too long to display\n"); } } { UErrorCode status = U_ZERO_ERROR; int len = unum_getSymbol(fmt, UNUM_CURRENCY_SYMBOL, buffer, BUFSIZE, &status); if (isDecimal ? U_FAILURE(status) : (status != U_UNSUPPORTED_ERROR)) { log_err("unexpected error getting symbol: '%s'\n", u_errorName(status)); } unum_setSymbol(fmt, UNUM_CURRENCY_SYMBOL, buffer, len, &status); if (isDecimal ? U_FAILURE(status) : (status != U_UNSUPPORTED_ERROR)) { log_err("unexpected error setting symbol: '%s'\n", u_errorName(status)); } } } static void TestNonExistentCurrency() { UNumberFormat *format; UErrorCode status = U_ZERO_ERROR; UChar currencySymbol[8]; static const UChar QQQ[] = {0x51, 0x51, 0x51, 0}; /* Get a non-existent currency and make sure it returns the correct currency code. */ format = unum_open(UNUM_CURRENCY, NULL, 0, "th_TH@currency=QQQ", NULL, &status); if (format == NULL || U_FAILURE(status)) { log_data_err("unum_open did not return expected result for non-existent requested currency: '%s' (Are you missing data?)\n", u_errorName(status)); } else { unum_getSymbol(format, UNUM_CURRENCY_SYMBOL, currencySymbol, UPRV_LENGTHOF(currencySymbol), &status); if (u_strcmp(currencySymbol, QQQ) != 0) { log_err("unum_open set the currency to QQQ\n"); } } unum_close(format); } static void TestRBNFFormat() { UErrorCode status; UParseError perr; UChar pat[1024]; UChar tempUChars[512]; UNumberFormat *formats[5]; int COUNT = UPRV_LENGTHOF(formats); int i; for (i = 0; i < COUNT; ++i) { formats[i] = 0; } /* instantiation */ status = U_ZERO_ERROR; u_uastrcpy(pat, "#,##0.0#;(#,##0.0#)"); formats[0] = unum_open(UNUM_PATTERN_DECIMAL, pat, -1, "en_US", &perr, &status); if (U_FAILURE(status)) { log_err_status(status, "unable to open decimal pattern -> %s\n", u_errorName(status)); return; } status = U_ZERO_ERROR; formats[1] = unum_open(UNUM_SPELLOUT, NULL, 0, "en_US", &perr, &status); if (U_FAILURE(status)) { log_err_status(status, "unable to open spellout -> %s\n", u_errorName(status)); return; } status = U_ZERO_ERROR; formats[2] = unum_open(UNUM_ORDINAL, NULL, 0, "en_US", &perr, &status); if (U_FAILURE(status)) { log_err_status(status, "unable to open ordinal -> %s\n", u_errorName(status)); return; } status = U_ZERO_ERROR; formats[3] = unum_open(UNUM_DURATION, NULL, 0, "en_US", &perr, &status); if (U_FAILURE(status)) { log_err_status(status, "unable to open duration %s\n", u_errorName(status)); return; } status = U_ZERO_ERROR; u_uastrcpy(pat, "%standard:\n" "-x: minus >>;\n" "x.x: << point >>;\n" "zero; one; two; three; four; five; six; seven; eight; nine;\n" "ten; eleven; twelve; thirteen; fourteen; fifteen; sixteen;\n" "seventeen; eighteen; nineteen;\n" "20: twenty[->>];\n" "30: thirty[->>];\n" "40: forty[->>];\n" "50: fifty[->>];\n" "60: sixty[->>];\n" "70: seventy[->>];\n" "80: eighty[->>];\n" "90: ninety[->>];\n" "100: =#,##0=;\n"); u_uastrcpy(tempUChars, "%simple:\n" "=%standard=;\n" "20: twenty[ and change];\n" "30: thirty[ and change];\n" "40: forty[ and change];\n" "50: fifty[ and change];\n" "60: sixty[ and change];\n" "70: seventy[ and change];\n" "80: eighty[ and change];\n" "90: ninety[ and change];\n" "100: =#,##0=;\n" "%bogus:\n" "0.x: tiny;\n" "x.x: << point something;\n" "=%standard=;\n" "20: some reasonable number;\n" "100: some substantial number;\n" "100,000,000: some huge number;\n"); /* This is to get around some compiler warnings about char * string length. */ u_strcat(pat, tempUChars); formats[4] = unum_open(UNUM_PATTERN_RULEBASED, pat, -1, "en_US", &perr, &status); if (U_FAILURE(status)) { log_err_status(status, "unable to open rulebased pattern -> %s\n", u_errorName(status)); } if (U_FAILURE(status)) { log_err_status(status, "Something failed with %s\n", u_errorName(status)); return; } for (i = 0; i < COUNT; ++i) { log_verbose("\n\ntesting format %d\n", i); test_fmt(formats[i], (UBool)(i == 0)); } #define FORMAT_BUF_CAPACITY 64 { UChar fmtbuf[FORMAT_BUF_CAPACITY]; int32_t len; double nanvalue = uprv_getNaN(); status = U_ZERO_ERROR; len = unum_formatDouble(formats[1], nanvalue, fmtbuf, FORMAT_BUF_CAPACITY, NULL, &status); if (U_FAILURE(status)) { log_err_status(status, "unum_formatDouble NAN failed with %s\n", u_errorName(status)); } else { UChar nansym[] = { 0x4E, 0x61, 0x4E, 0 }; /* NaN */ if ( len != 3 || u_strcmp(fmtbuf, nansym) != 0 ) { log_err("unum_formatDouble NAN produced wrong answer for en_US\n"); } } } for (i = 0; i < COUNT; ++i) { unum_close(formats[i]); } } static void TestRBNFRounding() { UChar fmtbuf[FORMAT_BUF_CAPACITY]; UChar expectedBuf[FORMAT_BUF_CAPACITY]; int32_t len; UErrorCode status = U_ZERO_ERROR; UNumberFormat* fmt = unum_open(UNUM_SPELLOUT, NULL, 0, "en_US", NULL, &status); if (U_FAILURE(status)) { log_err_status(status, "unable to open spellout -> %s\n", u_errorName(status)); return; } len = unum_formatDouble(fmt, 10.123456789, fmtbuf, FORMAT_BUF_CAPACITY, NULL, &status); U_ASSERT(len < FORMAT_BUF_CAPACITY); (void)len; if (U_FAILURE(status)) { log_err_status(status, "unum_formatDouble 10.123456789 failed with %s\n", u_errorName(status)); } u_uastrcpy(expectedBuf, "ten point one two three four five six seven eight nine"); if (u_strcmp(expectedBuf, fmtbuf) != 0) { log_err("Wrong result for unrounded value\n"); } unum_setAttribute(fmt, UNUM_MAX_FRACTION_DIGITS, 3); if (unum_getAttribute(fmt, UNUM_MAX_FRACTION_DIGITS) != 3) { log_err("UNUM_MAX_FRACTION_DIGITS was incorrectly ignored -> %d\n", unum_getAttribute(fmt, UNUM_MAX_FRACTION_DIGITS)); } if (unum_getAttribute(fmt, UNUM_ROUNDING_MODE) != UNUM_ROUND_UNNECESSARY) { log_err("UNUM_ROUNDING_MODE was set -> %d\n", unum_getAttribute(fmt, UNUM_ROUNDING_MODE)); } unum_setAttribute(fmt, UNUM_ROUNDING_MODE, UNUM_ROUND_HALFUP); if (unum_getAttribute(fmt, UNUM_ROUNDING_MODE) != UNUM_ROUND_HALFUP) { log_err("UNUM_ROUNDING_MODE was not set -> %d\n", unum_getAttribute(fmt, UNUM_ROUNDING_MODE)); } len = unum_formatDouble(fmt, 10.123456789, fmtbuf, FORMAT_BUF_CAPACITY, NULL, &status); U_ASSERT(len < FORMAT_BUF_CAPACITY); if (U_FAILURE(status)) { log_err_status(status, "unum_formatDouble 10.123456789 failed with %s\n", u_errorName(status)); } u_uastrcpy(expectedBuf, "ten point one two three"); if (u_strcmp(expectedBuf, fmtbuf) != 0) { char temp[512]; u_austrcpy(temp, fmtbuf); log_err("Wrong result for rounded value. Got: %s\n", temp); } unum_close(fmt); } static void TestCurrencyRegression(void) { /* I've found a case where unum_parseDoubleCurrency is not doing what I expect. The value I pass in is $1234567890q123460000.00 and this returns with a status of zero error & a parse pos of 22 (I would expect a parse error at position 11). I stepped into DecimalFormat::subparse() and it looks like it parses the first 10 digits and then stops parsing at the q but doesn't set an error. Then later in DecimalFormat::parse() the value gets crammed into a long (which greatly truncates the value). This is very problematic for me 'cause I try to remove chars that are invalid but this allows my users to enter bad chars and truncates their data! */ UChar buf[1024]; UChar currency[8]; char acurrency[16]; double d; UNumberFormat *cur; int32_t pos; UErrorCode status = U_ZERO_ERROR; const int32_t expected = 11; currency[0]=0; u_uastrcpy(buf, "$1234567890q643210000.00"); cur = unum_open(UNUM_CURRENCY, NULL,0,"en_US", NULL, &status); if(U_FAILURE(status)) { log_data_err("unum_open failed: %s (Are you missing data?)\n", u_errorName(status)); return; } status = U_ZERO_ERROR; /* so we can test it later. */ pos = 0; d = unum_parseDoubleCurrency(cur, buf, -1, &pos, /* 0 = start */ currency, &status); u_austrcpy(acurrency, currency); if(U_FAILURE(status) || (pos != expected)) { log_err("unum_parseDoubleCurrency should have failed with pos %d, but gave: value %.9f, err %s, pos=%d, currency [%s]\n", expected, d, u_errorName(status), pos, acurrency); } else { log_verbose("unum_parseDoubleCurrency failed, value %.9f err %s, pos %d, currency [%s]\n", d, u_errorName(status), pos, acurrency); } unum_close(cur); } static void TestTextAttributeCrash(void) { UChar ubuffer[64] = {0x0049,0x004E,0x0052,0}; static const UChar expectedNeg[] = {0x0049,0x004E,0x0052,0x0031,0x0032,0x0033,0x0034,0x002E,0x0035,0}; static const UChar expectedPos[] = {0x0031,0x0032,0x0033,0x0034,0x002E,0x0035,0}; int32_t used; UErrorCode status = U_ZERO_ERROR; UNumberFormat *nf = unum_open(UNUM_CURRENCY, NULL, 0, "en_US", NULL, &status); if (U_FAILURE(status)) { log_data_err("FAILED 1 -> %s (Are you missing data?)\n", u_errorName(status)); return; } unum_setTextAttribute(nf, UNUM_CURRENCY_CODE, ubuffer, 3, &status); /* * the usual negative prefix and suffix seem to be '($' and ')' at this point * also crashes if UNUM_NEGATIVE_SUFFIX is substituted for UNUM_NEGATIVE_PREFIX here */ used = unum_getTextAttribute(nf, UNUM_NEGATIVE_PREFIX, ubuffer, 64, &status); unum_setTextAttribute(nf, UNUM_NEGATIVE_PREFIX, ubuffer, used, &status); if (U_FAILURE(status)) { log_err("FAILED 2\n"); exit(1); } log_verbose("attempting to format...\n"); used = unum_formatDouble(nf, -1234.5, ubuffer, 64, NULL, &status); if (U_FAILURE(status) || 64 < used) { log_err("Failed formatting %s\n", u_errorName(status)); return; } if (u_strcmp(expectedNeg, ubuffer) == 0) { log_err("Didn't get expected negative result\n"); } used = unum_formatDouble(nf, 1234.5, ubuffer, 64, NULL, &status); if (U_FAILURE(status) || 64 < used) { log_err("Failed formatting %s\n", u_errorName(status)); return; } if (u_strcmp(expectedPos, ubuffer) == 0) { log_err("Didn't get expected positive result\n"); } unum_close(nf); } static void TestNBSPPatternRtNum(const char *testcase, int line, UNumberFormat *nf, double myNumber) { UErrorCode status = U_ZERO_ERROR; UChar myString[20]; char tmpbuf[200]; double aNumber = -1.0; unum_formatDouble(nf, myNumber, myString, 20, NULL, &status); log_verbose("%s:%d: formatted %.2f into %s\n", testcase, line, myNumber, u_austrcpy(tmpbuf, myString)); if(U_FAILURE(status)) { log_err("%s:%d: failed format of %.2g with %s\n", testcase, line, myNumber, u_errorName(status)); return; } aNumber = unum_parse(nf, myString, -1, NULL, &status); if(U_FAILURE(status)) { log_err("%s:%d: failed parse with %s\n", testcase, line, u_errorName(status)); return; } if(uprv_fabs(aNumber-myNumber)>.001) { log_err("FAIL: %s:%d formatted %.2f, parsed into %.2f\n", testcase, line, myNumber, aNumber); } else { log_verbose("PASS: %s:%d formatted %.2f, parsed into %.2f\n", testcase, line, myNumber, aNumber); } } static void TestNBSPPatternRT(const char *testcase, UNumberFormat *nf) { TestNBSPPatternRtNum(testcase, __LINE__, nf, 12345.); TestNBSPPatternRtNum(testcase, __LINE__, nf, -12345.); } static void TestNBSPInPattern(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat* nf = NULL; const char *testcase; testcase="ar_AE UNUM_CURRENCY"; nf = unum_open(UNUM_CURRENCY, NULL, -1, "ar_AE", NULL, &status); if(U_FAILURE(status) || nf == NULL) { log_data_err("%s:%d: %s: unum_open failed with %s (Are you missing data?)\n", __FILE__, __LINE__, testcase, u_errorName(status)); return; } TestNBSPPatternRT(testcase, nf); /* if we don't have CLDR 1.6 data, bring out the problem anyways */ { #define SPECIAL_PATTERN "\\u00A4\\u00A4'\\u062f.\\u0625.\\u200f\\u00a0'###0.00" UChar pat[200]; testcase = "ar_AE special pattern: " SPECIAL_PATTERN; u_unescape(SPECIAL_PATTERN, pat, UPRV_LENGTHOF(pat)); unum_applyPattern(nf, FALSE, pat, -1, NULL, &status); if(U_FAILURE(status)) { log_err("%s: unum_applyPattern failed with %s\n", testcase, u_errorName(status)); } else { TestNBSPPatternRT(testcase, nf); } #undef SPECIAL_PATTERN } unum_close(nf); status = U_ZERO_ERROR; testcase="ar_AE UNUM_DECIMAL"; nf = unum_open(UNUM_DECIMAL, NULL, -1, "ar_AE", NULL, &status); if(U_FAILURE(status)) { log_err("%s: unum_open failed with %s\n", testcase, u_errorName(status)); } TestNBSPPatternRT(testcase, nf); unum_close(nf); status = U_ZERO_ERROR; testcase="ar_AE UNUM_PERCENT"; nf = unum_open(UNUM_PERCENT, NULL, -1, "ar_AE", NULL, &status); if(U_FAILURE(status)) { log_err("%s: unum_open failed with %s\n", testcase, u_errorName(status)); } TestNBSPPatternRT(testcase, nf); unum_close(nf); status = U_ZERO_ERROR; } static void TestCloneWithRBNF(void) { UChar pattern[1024]; UChar pat2[512]; UErrorCode status = U_ZERO_ERROR; UChar buffer[256]; UChar buffer_cloned[256]; char temp1[256]; char temp2[256]; UNumberFormat *pform_cloned; UNumberFormat *pform; u_uastrcpy(pattern, "%main:\n" "0.x: >%%millis-only>;\n" "x.0: <%%duration<;\n" "x.x: <%%durationwithmillis<>%%millis-added>;\n" "-x: ->>;%%millis-only:\n" "1000: 00:00.<%%millis<;\n" "%%millis-added:\n" "1000: .<%%millis<;\n" "%%millis:\n" "0: =000=;\n" "%%duration:\n" "0: =%%seconds-only=;\n" "60: =%%min-sec=;\n" "3600: =%%hr-min-sec=;\n" "86400/86400: <%%ddaayyss<[, >>];\n" "%%durationwithmillis:\n" "0: =%%seconds-only=;\n" "60: =%%min-sec=;\n" "3600: =%%hr-min-sec=;\n" "86400/86400: <%%ddaayyss<, >>;\n"); u_uastrcpy(pat2, "%%seconds-only:\n" "0: 0:00:=00=;\n" "%%min-sec:\n" "0: :=00=;\n" "0/60: 0:<00<>>;\n" "%%hr-min-sec:\n" "0: :=00=;\n" "60/60: <00<>>;\n" "3600/60: <0<:>>>;\n" "%%ddaayyss:\n" "0 days;\n" "1 day;\n" "=0= days;"); /* This is to get around some compiler warnings about char * string length. */ u_strcat(pattern, pat2); pform = unum_open(UNUM_PATTERN_RULEBASED, pattern, -1, "en_US", NULL, &status); unum_formatDouble(pform, 3600, buffer, 256, NULL, &status); pform_cloned = unum_clone(pform,&status); unum_formatDouble(pform_cloned, 3600, buffer_cloned, 256, NULL, &status); unum_close(pform); unum_close(pform_cloned); if (u_strcmp(buffer,buffer_cloned)) { log_data_err("Result from cloned formatter not identical to the original. Original: %s Cloned: %s - (Are you missing data?)",u_austrcpy(temp1, buffer),u_austrcpy(temp2,buffer_cloned)); } } static void TestNoExponent(void) { UErrorCode status = U_ZERO_ERROR; UChar str[100]; const char *cstr; UNumberFormat *fmt; int32_t pos; int32_t expect = 0; int32_t num; fmt = unum_open(UNUM_DECIMAL, NULL, -1, "en_US", NULL, &status); if(U_FAILURE(status) || fmt == NULL) { log_data_err("%s:%d: unum_open failed with %s (Are you missing data?)\n", __FILE__, __LINE__, u_errorName(status)); return; } cstr = "10E6"; u_uastrcpy(str, cstr); expect = 10000000; pos = 0; num = unum_parse(fmt, str, -1, &pos, &status); ASSERT_TRUE(pos==4); if(U_FAILURE(status)) { log_data_err("%s:%d: unum_parse failed with %s for %s (Are you missing data?)\n", __FILE__, __LINE__, u_errorName(status), cstr); } else if(expect!=num) { log_data_err("%s:%d: unum_parse failed, got %d expected %d for '%s'(Are you missing data?)\n", __FILE__, __LINE__, num, expect, cstr); } else { log_verbose("%s:%d: unum_parse returned %d for '%s'\n", __FILE__, __LINE__, num, cstr); } ASSERT_TRUE(unum_getAttribute(fmt, UNUM_PARSE_NO_EXPONENT)==0); unum_setAttribute(fmt, UNUM_PARSE_NO_EXPONENT, 1); /* no error code */ log_verbose("set UNUM_PARSE_NO_EXPONENT\n"); ASSERT_TRUE(unum_getAttribute(fmt, UNUM_PARSE_NO_EXPONENT)==1); pos = 0; expect=10; num = unum_parse(fmt, str, -1, &pos, &status); if(num==10000000) { log_err("%s:%d: FAIL: unum_parse should have returned 10, not 10000000 on %s after UNUM_PARSE_NO_EXPONENT\n", __FILE__, __LINE__, cstr); } else if(num==expect) { log_verbose("%s:%d: unum_parse gave %d for %s - good.\n", __FILE__, __LINE__, num, cstr); } ASSERT_TRUE(pos==2); status = U_ZERO_ERROR; unum_close(fmt); /* ok, now try scientific */ fmt = unum_open(UNUM_SCIENTIFIC, NULL, -1, "en_US", NULL, &status); assertSuccess("unum_open(UNUM_SCIENTIFIC, ...)", &status); ASSERT_TRUE(unum_getAttribute(fmt, UNUM_PARSE_NO_EXPONENT)==0); cstr = "10E6"; u_uastrcpy(str, cstr); expect = 10000000; pos = 0; num = unum_parse(fmt, str, -1, &pos, &status); ASSERT_TRUE(pos==4); if(U_FAILURE(status)) { log_data_err("%s:%d: unum_parse failed with %s for %s (Are you missing data?)\n", __FILE__, __LINE__, u_errorName(status), cstr); } else if(expect!=num) { log_data_err("%s:%d: unum_parse failed, got %d expected %d for '%s'(Are you missing data?)\n", __FILE__, __LINE__, num, expect, cstr); } else { log_verbose("%s:%d: unum_parse returned %d for '%s'\n", __FILE__, __LINE__, num, cstr); } unum_setAttribute(fmt, UNUM_PARSE_NO_EXPONENT, 1); /* no error code */ log_verbose("set UNUM_PARSE_NO_EXPONENT\n"); ASSERT_TRUE(unum_getAttribute(fmt, UNUM_PARSE_NO_EXPONENT)==1); // A scientific formatter should parse the exponent even if UNUM_PARSE_NO_EXPONENT is set cstr = "10E6"; u_uastrcpy(str, cstr); expect = 10000000; pos = 0; num = unum_parse(fmt, str, -1, &pos, &status); ASSERT_TRUE(pos==4); if(U_FAILURE(status)) { log_data_err("%s:%d: unum_parse failed with %s for %s (Are you missing data?)\n", __FILE__, __LINE__, u_errorName(status), cstr); } else if(expect!=num) { log_data_err("%s:%d: unum_parse failed, got %d expected %d for '%s'(Are you missing data?)\n", __FILE__, __LINE__, num, expect, cstr); } else { log_verbose("%s:%d: unum_parse returned %d for '%s'\n", __FILE__, __LINE__, num, cstr); } unum_close(fmt); } static void TestMaxInt(void) { UErrorCode status = U_ZERO_ERROR; UChar pattern_hash[] = { 0x23, 0x00 }; /* "#" */ UChar result1[1024] = { 0 }, result2[1024] = { 0 }; int32_t len1, len2; UChar expect[] = { 0x0039, 0x0037, 0 }; UNumberFormat *fmt = unum_open( UNUM_PATTERN_DECIMAL, /* style */ &pattern_hash[0], /* pattern */ u_strlen(pattern_hash), /* patternLength */ "en", 0, /* parseErr */ &status); if(U_FAILURE(status) || fmt == NULL) { log_data_err("%s:%d: %s: unum_open failed with %s (Are you missing data?)\n", __FILE__, __LINE__, "TestMaxInt", u_errorName(status)); return; } unum_setAttribute(fmt, UNUM_MAX_INTEGER_DIGITS, 2); status = U_ZERO_ERROR; /* #1 */ len1 = unum_formatInt64(fmt, 1997, result1, 1024, NULL, &status); result1[len1]=0; if(U_FAILURE(status) || u_strcmp(expect, result1)) { log_err("unum_formatInt64 Expected %s but got %s status %s\n", austrdup(expect), austrdup(result1), u_errorName(status)); } status = U_ZERO_ERROR; /* #2 */ len2 = unum_formatDouble(fmt, 1997.0, result2, 1024, NULL, &status); result2[len2]=0; if(U_FAILURE(status) || u_strcmp(expect, result2)) { log_err("unum_formatDouble Expected %s but got %s status %s\n", austrdup(expect), austrdup(result2), u_errorName(status)); } /* test UNUM_FORMAT_FAIL_IF_MORE_THAN_MAX_DIGITS */ ASSERT_TRUE(unum_getAttribute(fmt, UNUM_FORMAT_FAIL_IF_MORE_THAN_MAX_DIGITS)==0); unum_setAttribute(fmt, UNUM_FORMAT_FAIL_IF_MORE_THAN_MAX_DIGITS, 1); /* test UNUM_FORMAT_FAIL_IF_MORE_THAN_MAX_DIGITS */ ASSERT_TRUE(unum_getAttribute(fmt, UNUM_FORMAT_FAIL_IF_MORE_THAN_MAX_DIGITS)==1); status = U_ZERO_ERROR; /* max int digits still '2' */ len1 = unum_formatInt64(fmt, 1997, result1, 1024, NULL, &status); ASSERT_TRUE(status==U_ILLEGAL_ARGUMENT_ERROR); status = U_ZERO_ERROR; /* But, formatting 97->'97' works fine. */ /* #1 */ len1 = unum_formatInt64(fmt, 97, result1, 1024, NULL, &status); result1[len1]=0; if(U_FAILURE(status) || u_strcmp(expect, result1)) { log_err("unum_formatInt64 Expected %s but got %s status %s\n", austrdup(expect), austrdup(result1), u_errorName(status)); } status = U_ZERO_ERROR; /* #2 */ len2 = unum_formatDouble(fmt, 97.0, result2, 1024, NULL, &status); result2[len2]=0; if(U_FAILURE(status) || u_strcmp(expect, result2)) { log_err("unum_formatDouble Expected %s but got %s status %s\n", austrdup(expect), austrdup(result2), u_errorName(status)); } unum_close(fmt); } static void TestSignAlwaysShown(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat *fmt = unum_open( UNUM_DECIMAL, /* style */ NULL, /* pattern */ 0, /* patternLength */ "en-US", NULL, /* parseErr */ &status); assertSuccess("Creating UNumberFormat", &status); unum_setAttribute(fmt, UNUM_SIGN_ALWAYS_SHOWN, 1); UChar result[100]; unum_formatDouble(fmt, 42, result, 100, NULL, &status); assertSuccess("Formatting with UNumberFormat", &status); assertUEquals("Result with sign always shown", u"+42", result); unum_close(fmt); } static void TestMinimumGroupingDigits(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat *fmt = unum_open( UNUM_DECIMAL, /* style */ NULL, /* pattern */ 0, /* patternLength */ "en-US", NULL, /* parseErr */ &status); assertSuccess("Creating UNumberFormat", &status); unum_setAttribute(fmt, UNUM_MINIMUM_GROUPING_DIGITS, 2); UChar result[100]; unum_formatDouble(fmt, 1234, result, 100, NULL, &status); assertSuccess("Formatting with UNumberFormat A", &status); assertUEquals("Result with minimum grouping digits A", u"1234", result); unum_formatDouble(fmt, 12345, result, 100, NULL, &status); assertSuccess("Formatting with UNumberFormat B", &status); assertUEquals("Result with minimum grouping digits B", u"12,345", result); unum_close(fmt); } static void TestParseCaseSensitive(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat *fmt = unum_open( UNUM_DECIMAL, /* style */ NULL, /* pattern */ 0, /* patternLength */ "en-US", NULL, /* parseErr */ &status); assertSuccess("Creating UNumberFormat", &status); double result = unum_parseDouble(fmt, u"1e2", -1, NULL, &status); assertSuccess("Parsing with UNumberFormat, case insensitive", &status); assertIntEquals("Result with case sensitive", 100, (int64_t)result); unum_setAttribute(fmt, UNUM_PARSE_CASE_SENSITIVE, 1); int32_t ppos = 0; result = unum_parseDouble(fmt, u"1e2", -1, &ppos, &status); assertSuccess("Parsing with UNumberFormat, case sensitive", &status); assertIntEquals("Position with case sensitive", 1, ppos); assertIntEquals("Result with case sensitive", 1, (int64_t)result); unum_close(fmt); } static void TestUFormattable(void) { UChar out2k[2048]; // simple test for API docs { UErrorCode status = U_ZERO_ERROR; UNumberFormat *unum = unum_open(UNUM_DEFAULT, NULL, -1, "en_US_POSIX", NULL, &status); if(assertSuccessCheck("calling unum_open()", &status, TRUE)) { //! [unum_parseToUFormattable] const UChar str[] = { 0x0031, 0x0032, 0x0033, 0x0000 }; /* 123 */ int32_t result = 0; UFormattable *ufmt = ufmt_open(&status); unum_parseToUFormattable(unum, ufmt, str, -1, NULL, &status); if (ufmt_isNumeric(ufmt)) { result = ufmt_getLong(ufmt, &status); /* == 123 */ } /* else { ... } */ ufmt_close(ufmt); //! [unum_parseToUFormattable] assertTrue("result == 123", (result == 123)); } unum_close(unum); } // test with explicitly created ufmt_open { UChar buffer[2048]; UErrorCode status = U_ZERO_ERROR; UFormattable *ufmt; UNumberFormat *unum; const char *pattern = ""; ufmt = ufmt_open(&status); unum = unum_open(UNUM_DEFAULT, NULL, -1, "en_US_POSIX", NULL, &status); if(assertSuccessCheck("calling ufmt_open() || unum_open()", &status, TRUE)) { pattern = "31337"; log_verbose("-- pattern: %s\n", pattern); u_uastrcpy(buffer, pattern); unum_parseToUFormattable(unum, ufmt, buffer, -1, NULL, &status); if(assertSuccess("unum_parseToUFormattable(31337)", &status)) { assertTrue("ufmt_getLong()=31337", ufmt_getLong(ufmt, &status) == 31337); assertTrue("ufmt_getType()=UFMT_LONG", ufmt_getType(ufmt, &status) == UFMT_LONG); log_verbose("long = %d\n", ufmt_getLong(ufmt, &status)); assertSuccess("ufmt_getLong()", &status); } unum_formatUFormattable(unum, ufmt, out2k, 2048, NULL, &status); if(assertSuccess("unum_formatUFormattable(31337)", &status)) { assertEquals("unum_formatUFormattable r/t", austrdup(buffer), austrdup(out2k)); } pattern = "3.14159"; log_verbose("-- pattern: %s\n", pattern); u_uastrcpy(buffer, pattern); unum_parseToUFormattable(unum, ufmt, buffer, -1, NULL, &status); if(assertSuccess("unum_parseToUFormattable(3.14159)", &status)) { assertTrue("ufmt_getDouble()==3.14159", withinErr(ufmt_getDouble(ufmt, &status), 3.14159, 1e-15)); assertSuccess("ufmt_getDouble()", &status); assertTrue("ufmt_getType()=UFMT_DOUBLE", ufmt_getType(ufmt, &status) == UFMT_DOUBLE); log_verbose("double = %g\n", ufmt_getDouble(ufmt, &status)); } unum_formatUFormattable(unum, ufmt, out2k, 2048, NULL, &status); if(assertSuccess("unum_formatUFormattable(3.14159)", &status)) { assertEquals("unum_formatUFormattable r/t", austrdup(buffer), austrdup(out2k)); } } ufmt_close(ufmt); unum_close(unum); } // test with auto-generated ufmt { UChar buffer[2048]; UErrorCode status = U_ZERO_ERROR; UFormattable *ufmt = NULL; UNumberFormat *unum; const char *pattern = "73476730924573500000000"; // weight of the moon, kg log_verbose("-- pattern: %s (testing auto-opened UFormattable)\n", pattern); u_uastrcpy(buffer, pattern); unum = unum_open(UNUM_DEFAULT, NULL, -1, "en_US_POSIX", NULL, &status); if(assertSuccessCheck("calling unum_open()", &status, TRUE)) { ufmt = unum_parseToUFormattable(unum, NULL, /* will be ufmt_open()'ed for us */ buffer, -1, NULL, &status); if(assertSuccess("unum_parseToUFormattable(weight of the moon)", &status)) { log_verbose("new formattable allocated at %p\n", (void*)ufmt); assertTrue("ufmt_isNumeric() TRUE", ufmt_isNumeric(ufmt)); unum_formatUFormattable(unum, ufmt, out2k, 2048, NULL, &status); if(assertSuccess("unum_formatUFormattable(3.14159)", &status)) { assertEquals("unum_formatUFormattable r/t", austrdup(buffer), austrdup(out2k)); } log_verbose("double: %g\n", ufmt_getDouble(ufmt, &status)); assertSuccess("ufmt_getDouble()", &status); log_verbose("long: %ld\n", ufmt_getLong(ufmt, &status)); assertTrue("failure on ufmt_getLong() for huge number:", U_FAILURE(status)); // status is now a failure due to ufmt_getLong() above. // the intltest does extensive r/t testing of Formattable vs. UFormattable. } } unum_close(unum); ufmt_close(ufmt); // was implicitly opened for us by the first unum_parseToUFormattable() } } typedef struct { const char* locale; const char* numsys; int32_t radix; UBool isAlgorithmic; const UChar* description; } NumSysTestItem; static const UChar latnDesc[] = {0x0030,0x0031,0x0032,0x0033,0x0034,0x0035,0x0036,0x0037,0x0038,0x0039,0}; // 0123456789 static const UChar romanDesc[] = {0x25,0x72,0x6F,0x6D,0x61,0x6E,0x2D,0x75,0x70,0x70,0x65,0x72,0}; // %roman-upper static const UChar arabDesc[] = {0x0660,0x0661,0x0662,0x0663,0x0664,0x0665,0x0666,0x0667,0x0668,0x0669,0}; // static const UChar arabextDesc[] = {0x06F0,0x06F1,0x06F2,0x06F3,0x06F4,0x06F5,0x06F6,0x06F7,0x06F8,0x06F9,0}; // static const UChar hanidecDesc[] = {0x3007,0x4E00,0x4E8C,0x4E09,0x56DB,0x4E94,0x516D,0x4E03,0x516B,0x4E5D,0}; // static const UChar hantDesc[] = {0x7A,0x68,0x5F,0x48,0x61,0x6E,0x74,0x2F,0x53,0x70,0x65,0x6C,0x6C,0x6F,0x75,0x74, 0x52,0x75,0x6C,0x65,0x73,0x2F,0x25,0x73,0x70,0x65,0x6C,0x6C,0x6F,0x75,0x74,0x2D, 0x63,0x61,0x72,0x64,0x69,0x6E,0x61,0x6C,0}; // zh_Hant/SpelloutRules/%spellout-cardinal static const NumSysTestItem numSysTestItems[] = { //locale numsys radix isAlgo description { "en", "latn", 10, FALSE, latnDesc }, { "en@numbers=roman", "roman", 10, TRUE, romanDesc }, { "en@numbers=finance", "latn", 10, FALSE, latnDesc }, { "ar-EG", "arab", 10, FALSE, arabDesc }, { "fa", "arabext", 10, FALSE, arabextDesc }, { "zh_Hans@numbers=hanidec", "hanidec", 10, FALSE, hanidecDesc }, { "zh_Hant@numbers=traditional", "hant", 10, TRUE, hantDesc }, { NULL, NULL, 0, FALSE, NULL }, }; enum { kNumSysDescripBufMax = 64 }; static void TestUNumberingSystem(void) { const NumSysTestItem * itemPtr; UNumberingSystem * unumsys; UEnumeration * uenum; const char * numsys; UErrorCode status; for (itemPtr = numSysTestItems; itemPtr->locale != NULL; itemPtr++) { status = U_ZERO_ERROR; unumsys = unumsys_open(itemPtr->locale, &status); if ( U_SUCCESS(status) ) { UChar ubuf[kNumSysDescripBufMax]; int32_t ulen, radix = unumsys_getRadix(unumsys); UBool isAlgorithmic = unumsys_isAlgorithmic(unumsys); numsys = unumsys_getName(unumsys); if ( uprv_strcmp(numsys, itemPtr->numsys) != 0 || radix != itemPtr->radix || !isAlgorithmic != !itemPtr->isAlgorithmic ) { log_data_err("unumsys name/radix/isAlgorithmic for locale %s, expected %s/%d/%d, got %s/%d/%d\n", itemPtr->locale, itemPtr->numsys, itemPtr->radix, itemPtr->isAlgorithmic, numsys, radix, isAlgorithmic); } ulen = unumsys_getDescription(unumsys, ubuf, kNumSysDescripBufMax, &status); (void)ulen; // Suppress variable not used warning. if ( U_FAILURE(status) || u_strcmp(ubuf, itemPtr->description) != 0 ) { log_data_err("unumsys description for locale %s, description unexpected and/or status %\n", myErrorName(status)); } unumsys_close(unumsys); } else { log_data_err("unumsys_open for locale %s fails with status %s\n", itemPtr->locale, myErrorName(status)); } } for (int i=0; i<3; ++i) { // Run the test of unumsys_openAvailableNames() multiple times. // Helps verify the management of the internal cache of the names. status = U_ZERO_ERROR; uenum = unumsys_openAvailableNames(&status); if ( U_SUCCESS(status) ) { int32_t numsysCount = 0; // sanity check for a couple of number systems that must be in the enumeration UBool foundLatn = FALSE; UBool foundArab = FALSE; while ( (numsys = uenum_next(uenum, NULL, &status)) != NULL && U_SUCCESS(status) ) { status = U_ZERO_ERROR; unumsys = unumsys_openByName(numsys, &status); if ( U_SUCCESS(status) ) { numsysCount++; if ( uprv_strcmp(numsys, "latn") ) foundLatn = TRUE; if ( uprv_strcmp(numsys, "arab") ) foundArab = TRUE; unumsys_close(unumsys); } else { log_err("unumsys_openAvailableNames includes %s but unumsys_openByName on it fails with status %s\n", numsys, myErrorName(status)); } } uenum_close(uenum); if ( numsysCount < 40 || !foundLatn || !foundArab ) { log_err("unumsys_openAvailableNames results incomplete: numsysCount %d, foundLatn %d, foundArab %d\n", numsysCount, foundLatn, foundArab); } } else { log_data_err("unumsys_openAvailableNames fails with status %s\n", myErrorName(status)); } } } /* plain-C version of test in numfmtst.cpp */ enum { kUBufMax = 64 }; static void TestCurrencyIsoPluralFormat(void) { static const char* DATA[][8] = { // the data are: // locale, // currency amount to be formatted, // currency ISO code to be formatted, // format result using CURRENCYSTYLE, // format result using CURRENCY_STANDARD, // format result using CURRENCY_ACCOUNTING, // format result using ISOCURRENCYSTYLE, // format result using PLURALCURRENCYSTYLE, // locale amount ISOcode CURRENCYSTYLE CURRENCY_STANDARD CURRENCY_ACCOUNTING ISOCURRENCYSTYLE PLURALCURRENCYSTYLE {"en_US", "1", "USD", "$1.00", "$1.00", "$1.00", "USD\\u00A01.00", "1.00 US dollars"}, {"en_US", "1234.56", "USD", "$1,234.56", "$1,234.56", "$1,234.56", "USD\\u00A01,234.56", "1,234.56 US dollars"}, {"en_US@cf=account", "1234.56", "USD", "$1,234.56", "$1,234.56", "$1,234.56", "USD\\u00A01,234.56", "1,234.56 US dollars"}, {"en_US", "-1234.56", "USD", "-$1,234.56", "-$1,234.56", "($1,234.56)", "-USD\\u00A01,234.56", "-1,234.56 US dollars"}, {"en_US@cf=account", "-1234.56", "USD", "($1,234.56)", "-$1,234.56", "($1,234.56)", "-USD\\u00A01,234.56", "-1,234.56 US dollars"}, {"en_US@cf=standard", "-1234.56", "USD", "-$1,234.56", "-$1,234.56", "($1,234.56)", "-USD\\u00A01,234.56", "-1,234.56 US dollars"}, {"zh_CN", "1", "USD", "US$1.00", "US$1.00", "US$1.00", "USD\\u00A01.00", "1.00\\u00A0\\u7F8E\\u5143"}, {"zh_CN", "-1", "USD", "-US$1.00", "-US$1.00", "(US$1.00)", "-USD\\u00A01.00", "-1.00\\u00A0\\u7F8E\\u5143"}, {"zh_CN@cf=account", "-1", "USD", "(US$1.00)", "-US$1.00", "(US$1.00)", "-USD\\u00A01.00", "-1.00\\u00A0\\u7F8E\\u5143"}, {"zh_CN@cf=standard", "-1", "USD", "-US$1.00", "-US$1.00", "(US$1.00)", "-USD\\u00A01.00", "-1.00\\u00A0\\u7F8E\\u5143"}, {"zh_CN", "1234.56", "USD", "US$1,234.56", "US$1,234.56", "US$1,234.56", "USD\\u00A01,234.56", "1,234.56\\u00A0\\u7F8E\\u5143"}, // {"zh_CN", "1", "CHY", "CHY1.00", "CHY1.00", "CHY1.00", "CHY1.00", "1.00 CHY"}, // wrong ISO code // {"zh_CN", "1234.56", "CHY", "CHY1,234.56", "CHY1,234.56", "CHY1,234.56", "CHY1,234.56", "1,234.56 CHY"}, // wrong ISO code {"zh_CN", "1", "CNY", "\\u00A51.00", "\\u00A51.00", "\\u00A51.00", "CNY\\u00A01.00", "1.00\\u00A0\\u4EBA\\u6C11\\u5E01"}, {"zh_CN", "1234.56", "CNY", "\\u00A51,234.56", "\\u00A51,234.56", "\\u00A51,234.56", "CNY\\u00A01,234.56", "1,234.56\\u00A0\\u4EBA\\u6C11\\u5E01"}, {"ru_RU", "1", "RUB", "1,00\\u00A0\\u20BD", "1,00\\u00A0\\u20BD", "1,00\\u00A0\\u20BD", "1,00\\u00A0RUB", "1,00 \\u0440\\u043E\\u0441\\u0441\\u0438\\u0439\\u0441\\u043A\\u043E\\u0433\\u043E " "\\u0440\\u0443\\u0431\\u043B\\u044F"}, {"ru_RU", "2", "RUB", "2,00\\u00A0\\u20BD", "2,00\\u00A0\\u20BD", "2,00\\u00A0\\u20BD", "2,00\\u00A0RUB", "2,00 \\u0440\\u043E\\u0441\\u0441\\u0438\\u0439\\u0441\\u043A\\u043E\\u0433\\u043E " "\\u0440\\u0443\\u0431\\u043B\\u044F"}, {"ru_RU", "5", "RUB", "5,00\\u00A0\\u20BD", "5,00\\u00A0\\u20BD", "5,00\\u00A0\\u20BD", "5,00\\u00A0RUB", "5,00 \\u0440\\u043E\\u0441\\u0441\\u0438\\u0439\\u0441\\u043A\\u043E\\u0433\\u043E " "\\u0440\\u0443\\u0431\\u043B\\u044F"}, // test locale without currency information {"root", "-1.23", "USD", "-US$\\u00A01.23", "-US$\\u00A01.23", "-US$\\u00A01.23", "-USD\\u00A01.23", "-1.23 USD"}, {"root@cf=account", "-1.23", "USD", "-US$\\u00A01.23", "-US$\\u00A01.23", "-US$\\u00A01.23", "-USD\\u00A01.23", "-1.23 USD"}, // test choice format {"es_AR", "1", "INR", "INR\\u00A01,00", "INR\\u00A01,00", "INR\\u00A01,00", "INR\\u00A01,00", "1,00 rupia india"}, }; static const UNumberFormatStyle currencyStyles[] = { UNUM_CURRENCY, UNUM_CURRENCY_STANDARD, UNUM_CURRENCY_ACCOUNTING, UNUM_CURRENCY_ISO, UNUM_CURRENCY_PLURAL }; int32_t i, sIndex; for (i=0; ilocale != NULL; itemPtr++) { UChar ubufResult[kUBufMax]; int32_t ulenRes; status = U_ZERO_ERROR; unum = unum_open(itemPtr->style, NULL, 0, itemPtr->locale, NULL, &status); if (U_FAILURE(status)) { log_data_err("FAIL: unum_open, locale %s, style %d - %s\n", itemPtr->locale, (int)itemPtr->style, myErrorName(status)); continue; } unum_setContext(unum, itemPtr->context, &status); ulenRes = unum_formatDouble(unum, 123.45, ubufResult, kUBufMax, NULL, &status); if (U_FAILURE(status)) { log_err("FAIL: unum_formatDouble, locale %s, style %d, context %d - %s\n", itemPtr->locale, (int)itemPtr->style, (int)itemPtr->context, myErrorName(status)); } else { UChar ubufExpected[kUBufMax]; int32_t ulenExp = u_unescape(itemPtr->expectedResult, ubufExpected, kUBufMax); if (ulenRes != ulenExp || u_strncmp(ubufResult, ubufExpected, ulenExp) != 0) { char bbuf[kUBufMax*2]; u_austrncpy(bbuf, ubufResult, sizeof(bbuf)); log_err("FAIL: unum_formatDouble, locale %s, style %d, context %d, expected %d:\"%s\", got %d:\"%s\"\n", itemPtr->locale, (int)itemPtr->style, (int)itemPtr->context, ulenExp, itemPtr->expectedResult, ulenRes, bbuf); } } unum_close(unum); } #endif /* #if !UCONFIG_NO_NORMALIZATION && !UCONFIG_NO_BREAK_ITERATION */ } static void TestCurrencyUsage(void) { static const char* DATA[][2] = { /* the data are: * currency ISO code to be formatted, * format result using CURRENCYSTYLE with CASH purpose,- * Note that as of CLDR 26:- * - TWD switches from 0 decimals to 2; PKR still has 0, so change test to that * - CAD rounds to .05 */ {"PKR", "PKR\\u00A0124"}, {"CAD", "CA$123.55"}, {"USD", "$123.57"} }; // 1st time for getter/setter, 2nd for factory method int32_t i; for(i=0; i<2; i++){ const char* localeString = "en_US"; double numberToBeFormat = 123.567; UNumberFormat* unumFmt; UNumberFormatStyle style = UNUM_CURRENCY; UErrorCode status = U_ZERO_ERROR; int32_t j; if(i == 1){ // change for factory method style = UNUM_CASH_CURRENCY; } unumFmt = unum_open(style, NULL, 0, localeString, NULL, &status); if (U_FAILURE(status)) { log_data_err("FAIL: unum_open, locale %s, style %d - %s\n", localeString, (int)style, myErrorName(status)); continue; } if(i == 0){ // this is for the getter/setter if(unum_getAttribute(unumFmt, UNUM_CURRENCY_USAGE) != UCURR_USAGE_STANDARD) { log_err("FAIL: currency usage attribute is not UNUM_CURRENCY_STANDARD\n"); } unum_setAttribute(unumFmt, UNUM_CURRENCY_USAGE, UCURR_USAGE_CASH); } if(unum_getAttribute(unumFmt, UNUM_CURRENCY_USAGE) != UCURR_USAGE_CASH) { log_err("FAIL: currency usage attribute is not UNUM_CURRENCY_CASH\n"); } for (j=0; jlocale != NULL; lsaTestPtr++) { UErrorCode status = U_ZERO_ERROR; UNumberFormat * unum = unum_open(lsaTestPtr->style, NULL, 0, lsaTestPtr->locale, NULL, &status); if ( U_FAILURE(status) ) { log_data_err("FAIL: unum_open style %d, locale %s: error %s\n", (int)lsaTestPtr->style, lsaTestPtr->locale, u_errorName(status)); } else { const ValueAndExpectedString * veItemPtr; if (lsaTestPtr->attribute >= 0) { unum_setAttribute(unum, (UNumberFormatAttribute)lsaTestPtr->attribute, lsaTestPtr->attrValue); } // ICU 62: should call minSignificantDigits in tandem with maxSignificantDigits. if (lsaTestPtr->attribute == UNUM_MIN_SIGNIFICANT_DIGITS) { unum_setAttribute(unum, UNUM_MAX_SIGNIFICANT_DIGITS, lsaTestPtr->attrValue); } for (veItemPtr = lsaTestPtr->veItems; veItemPtr->expected != NULL; veItemPtr++) { UChar uexp[kUBufSize]; UChar uget[kUBufSize]; int32_t uexplen, ugetlen; status = U_ZERO_ERROR; uexplen = u_unescape(veItemPtr->expected, uexp, kUBufSize); ugetlen = unum_formatDouble(unum, veItemPtr->value, uget, kUBufSize, NULL, &status); if ( U_FAILURE(status) ) { log_err("FAIL: unum_formatDouble style %d, locale %s, attr %d, value %.2f: error %s\n", (int)lsaTestPtr->style, lsaTestPtr->locale, lsaTestPtr->attribute, veItemPtr->value, u_errorName(status)); } else if (ugetlen != uexplen || u_strncmp(uget, uexp, uexplen) != 0) { char bexp[kBBufSize]; char bget[kBBufSize]; u_strToUTF8(bexp, kBBufSize, NULL, uexp, uexplen, &status); u_strToUTF8(bget, kBBufSize, NULL, uget, ugetlen, &status); log_err("FAIL: unum_formatDouble style %d, locale %s, attr %d, value %.2f: expect \"%s\", get \"%s\"\n", (int)lsaTestPtr->style, lsaTestPtr->locale, lsaTestPtr->attribute, veItemPtr->value, bexp, bget); } } unum_close(unum); } } } static const UChar currpat[] = { 0xA4,0x23,0x2C,0x23,0x23,0x30,0x2E,0x30,0x30,0}; static const UChar parsetxt[] = { 0x78,0x30,0x79,0x24,0 }; /* x0y$ */ static void TestParseCurrPatternWithDecStyle() { UErrorCode status = U_ZERO_ERROR; UNumberFormat *unumfmt = unum_open(UNUM_DECIMAL, NULL, 0, "en_US", NULL, &status); if (U_FAILURE(status)) { log_data_err("unum_open DECIMAL failed for en_US: %s (Are you missing data?)\n", u_errorName(status)); } else { unum_applyPattern(unumfmt, FALSE, currpat, -1, NULL, &status); if (U_FAILURE(status)) { log_err_status(status, "unum_applyPattern failed: %s\n", u_errorName(status)); } else { int32_t pos = 0; double value = unum_parseDouble(unumfmt, parsetxt, -1, &pos, &status); if (U_SUCCESS(status)) { log_err_status(status, "unum_parseDouble expected to fail but got status %s, value %f\n", u_errorName(status), value); } } unum_close(unumfmt); } } /* * Ticket #12684 * Test unum_formatDoubleForFields (and UFieldPositionIterator) */ typedef struct { int32_t field; int32_t beginPos; int32_t endPos; } FieldsData; typedef struct { const char * locale; UNumberFormatStyle style; double value; const FieldsData * expectedFields; } FormatForFieldsItem; static const UChar patNoFields[] = { 0x0027, 0x0078, 0x0027, 0 }; /* "'x'", for UNUM_PATTERN_DECIMAL */ /* "en_US", UNUM_CURRENCY, 123456.0 : "¤#,##0.00" => "$123,456.00" */ static const FieldsData fields_en_CURR[] = { { UNUM_CURRENCY_FIELD /*7*/, 0, 1 }, { UNUM_GROUPING_SEPARATOR_FIELD /*6*/, 4, 5 }, { UNUM_INTEGER_FIELD /*0*/, 1, 8 }, { UNUM_DECIMAL_SEPARATOR_FIELD /*2*/, 8, 9 }, { UNUM_FRACTION_FIELD /*1*/, 9, 11 }, { -1, -1, -1 }, }; /* "en_US", UNUM_PERCENT, -34 : "#,##0%" => "-34%" */ static const FieldsData fields_en_PRCT[] = { { UNUM_SIGN_FIELD /*10*/, 0, 1 }, { UNUM_INTEGER_FIELD /*0*/, 1, 3 }, { UNUM_PERCENT_FIELD /*8*/, 3, 4 }, { -1, -1, -1 }, }; /* "fr_FR", UNUM_CURRENCY, 123456.0 : "#,##0.00 ¤" => "123,456.00 €" */ static const FieldsData fields_fr_CURR[] = { { UNUM_GROUPING_SEPARATOR_FIELD /*6*/, 3, 4 }, { UNUM_INTEGER_FIELD /*0*/, 0, 7 }, { UNUM_DECIMAL_SEPARATOR_FIELD /*2*/, 7, 8 }, { UNUM_FRACTION_FIELD /*1*/, 8, 10 }, { UNUM_CURRENCY_FIELD /*7*/, 11, 12 }, { -1, -1, -1 }, }; /* "en_US", UNUM_PATTERN_DECIMAL, 12.0 : "'x'" => "x12" */ static const FieldsData fields_en_PATN[] = { { UNUM_INTEGER_FIELD /*0*/, 1, 3 }, { -1, -1, -1 }, }; static const FormatForFieldsItem fffItems[] = { { "en_US", UNUM_CURRENCY_STANDARD, 123456.0, fields_en_CURR }, { "en_US", UNUM_PERCENT, -0.34, fields_en_PRCT }, { "fr_FR", UNUM_CURRENCY_STANDARD, 123456.0, fields_fr_CURR }, { "en_US", UNUM_PATTERN_DECIMAL, 12.0, fields_en_PATN }, { NULL, (UNumberFormatStyle)0, 0, NULL }, }; static void TestFormatForFields(void) { UErrorCode status = U_ZERO_ERROR; UFieldPositionIterator* fpositer = ufieldpositer_open(&status); if ( U_FAILURE(status) ) { log_err("ufieldpositer_open fails, status %s\n", u_errorName(status)); } else { const FormatForFieldsItem * itemPtr; for (itemPtr = fffItems; itemPtr->locale != NULL; itemPtr++) { UNumberFormat* unum; status = U_ZERO_ERROR; unum = (itemPtr->style == UNUM_PATTERN_DECIMAL)? unum_open(itemPtr->style, patNoFields, -1, itemPtr->locale, NULL, &status): unum_open(itemPtr->style, NULL, 0, itemPtr->locale, NULL, &status); if ( U_FAILURE(status) ) { log_data_err("unum_open fails for locale %s, style %d: status %s (Are you missing data?)\n", itemPtr->locale, itemPtr->style, u_errorName(status)); } else { UChar ubuf[kUBufSize]; int32_t ulen = unum_formatDoubleForFields(unum, itemPtr->value, ubuf, kUBufSize, fpositer, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDoubleForFields fails for locale %s, style %d: status %s\n", itemPtr->locale, itemPtr->style, u_errorName(status)); } else { const FieldsData * fptr; int32_t field, beginPos, endPos; for (fptr = itemPtr->expectedFields; TRUE; fptr++) { field = ufieldpositer_next(fpositer, &beginPos, &endPos); if (field != fptr->field || (field >= 0 && (beginPos != fptr->beginPos || endPos != fptr->endPos))) { if (fptr->field >= 0) { log_err("unum_formatDoubleForFields for locale %s as \"%s\"; expect field %d range %d-%d, get field %d range %d-%d\n", itemPtr->locale, aescstrdup(ubuf, ulen), fptr->field, fptr->beginPos, fptr->endPos, field, beginPos, endPos); } else { log_err("unum_formatDoubleForFields for locale %s as \"%s\"; expect field < 0, get field %d range %d-%d\n", itemPtr->locale, aescstrdup(ubuf, ulen), field, beginPos, endPos); } break; } if (field < 0) { break; } } } unum_close(unum); } } ufieldpositer_close(fpositer); } } static void Test12052_NullPointer() { UErrorCode status = U_ZERO_ERROR; static const UChar input[] = u"199a"; UChar currency[200] = {0}; UNumberFormat *theFormatter = unum_open(UNUM_CURRENCY, NULL, 0, "en_US", NULL, &status); if (!assertSuccessCheck("unum_open() failed", &status, TRUE)) { return; } status = U_ZERO_ERROR; unum_setAttribute(theFormatter, UNUM_LENIENT_PARSE, 1); int32_t pos = 1; unum_parseDoubleCurrency(theFormatter, input, -1, &pos, currency, &status); assertEquals("should fail gracefully", "U_PARSE_ERROR", u_errorName(status)); unum_close(theFormatter); } typedef struct { const char* locale; const UChar* text; // text to parse UBool lenient; // leniency to use UBool intOnly; // whether to set PARSE_INT_ONLY UErrorCode intStatus; // expected status from parse int32_t intPos; // expected final pos from parse int32_t intValue; // expected value from parse UErrorCode doubStatus; // expected status from parseDouble int32_t doubPos; // expected final pos from parseDouble double doubValue; // expected value from parseDouble UErrorCode decStatus; // expected status from parseDecimal int32_t decPos; // expected final pos from parseDecimal const char* decString; // expected output string from parseDecimal } ParseCaseItem; static const ParseCaseItem parseCaseItems[] = { { "en", u"0,000", FALSE, FALSE, U_ZERO_ERROR, 5, 0, U_ZERO_ERROR, 5, 0.0, U_ZERO_ERROR, 5, "0" }, { "en", u"0,000", TRUE, FALSE, U_ZERO_ERROR, 5, 0, U_ZERO_ERROR, 5, 0.0, U_ZERO_ERROR, 5, "0" }, { "en", u"1000,000", FALSE, FALSE, U_PARSE_ERROR, 0, 0, U_PARSE_ERROR, 0, 0.0, U_PARSE_ERROR, 0, "" }, { "en", u"1000,000", TRUE, FALSE, U_ZERO_ERROR, 8, 1000000, U_ZERO_ERROR, 8, 1000000.0, U_ZERO_ERROR, 8, "1000000" }, { "en", u"", FALSE, FALSE, U_PARSE_ERROR, 0, 0, U_PARSE_ERROR, 0, 0.0, U_PARSE_ERROR, 0, "" }, { "en", u"", TRUE, FALSE, U_PARSE_ERROR, 0, 0, U_PARSE_ERROR, 0, 0.0, U_PARSE_ERROR, 0, "" }, { "en", u"9999990000503021", FALSE, FALSE, U_INVALID_FORMAT_ERROR, 16, 2147483647, U_ZERO_ERROR, 16, 9999990000503020.0, U_ZERO_ERROR, 16, "9999990000503021" }, { "en", u"9999990000503021", FALSE, TRUE, U_INVALID_FORMAT_ERROR, 16, 2147483647, U_ZERO_ERROR, 16, 9999990000503020.0, U_ZERO_ERROR, 16, "9999990000503021" }, { "en", u"1000000.5", FALSE, FALSE, U_ZERO_ERROR, 9, 1000000, U_ZERO_ERROR, 9, 1000000.5, U_ZERO_ERROR, 9, "1.0000005E+6"}, { "en", u"1000000.5", FALSE, TRUE, U_ZERO_ERROR, 7, 1000000, U_ZERO_ERROR, 7, 1000000.0, U_ZERO_ERROR, 7, "1000000" }, { "en", u"123.5", FALSE, FALSE, U_ZERO_ERROR, 5, 123, U_ZERO_ERROR, 5, 123.5, U_ZERO_ERROR, 5, "123.5" }, { "en", u"123.5", FALSE, TRUE, U_ZERO_ERROR, 3, 123, U_ZERO_ERROR, 3, 123.0, U_ZERO_ERROR, 3, "123" }, { NULL, NULL, 0, 0, 0, 0, 0, 0, 0, 0.0, 0, 0, NULL } }; static void TestParseCases(void) { const ParseCaseItem* itemPtr; for (itemPtr = parseCaseItems; itemPtr->locale != NULL; itemPtr++) { UErrorCode status = U_ZERO_ERROR; UNumberFormat* unumDec = unum_open(UNUM_DECIMAL, NULL, 0, itemPtr->locale, NULL, &status); if (U_FAILURE(status)) { log_data_err("unum_open UNUM_DECIMAL fails for locale %s: %s\n", itemPtr->locale, u_errorName(status)); continue; } int32_t intValue, parsePos, dclen; double doubValue; char decstr[32]; unum_setAttribute(unumDec, UNUM_LENIENT_PARSE, itemPtr->lenient); unum_setAttribute(unumDec, UNUM_PARSE_INT_ONLY, itemPtr->intOnly); parsePos = 0; status = U_ZERO_ERROR; intValue = unum_parse(unumDec, itemPtr->text, -1, &parsePos, &status); if (status != itemPtr->intStatus || parsePos != itemPtr->intPos || intValue != itemPtr->intValue) { char btext[32]; u_austrcpy(btext, itemPtr->text); log_err("locale %s, text \"%s\", lenient %d, intOnly %d;\n parse expected status %s, pos %d, value %d;\n got %s, %d, %d\n", itemPtr->locale, btext, itemPtr->lenient, itemPtr->intOnly, u_errorName(itemPtr->intStatus), itemPtr->intPos, itemPtr->intValue, u_errorName(status), parsePos, intValue); } parsePos = 0; status = U_ZERO_ERROR; doubValue = unum_parseDouble(unumDec, itemPtr->text, -1, &parsePos, &status); if (status != itemPtr->doubStatus || parsePos != itemPtr->doubPos || doubValue != itemPtr->doubValue) { char btext[32]; u_austrcpy(btext, itemPtr->text); log_err("locale %s, text \"%s\", lenient %d, intOnly %d;\n parseDouble expected status %s, pos %d, value %.1f;\n got %s, %d, %.1f\n", itemPtr->locale, btext, itemPtr->lenient, itemPtr->intOnly, u_errorName(itemPtr->doubStatus), itemPtr->doubPos, itemPtr->doubValue, u_errorName(status), parsePos, doubValue); } parsePos = 0; status = U_ZERO_ERROR; decstr[0] = 0; dclen = unum_parseDecimal(unumDec, itemPtr->text, -1, &parsePos, decstr, 32, &status); (void)dclen; if (status != itemPtr->decStatus || parsePos != itemPtr->decPos || uprv_strcmp(decstr,itemPtr->decString) != 0) { char btext[32]; u_austrcpy(btext, itemPtr->text); log_err("locale %s, text \"%s\", lenient %d, intOnly %d;\n parseDecimal expected status %s, pos %d, str \"%s\";\n got %s, %d, \"%s\"\n", itemPtr->locale, btext, itemPtr->lenient, itemPtr->intOnly, u_errorName(itemPtr->decStatus), itemPtr->decPos, itemPtr->decString, u_errorName(status), parsePos, decstr); } unum_close(unumDec); } } typedef struct { const char* descrip; const char* locale; UNumberFormatStyle style; int32_t minInt; int32_t minFrac; int32_t maxFrac; double roundIncr; const UChar* expPattern; double valueToFmt; const UChar* expFormat; } SetMaxFracAndRoundIncrItem; static const SetMaxFracAndRoundIncrItem maxFracAndRoundIncrItems[] = { // descrip locale style mnI mnF mxF rdInc expPat value expFmt { "01 en_US DEC 1/0/3/0.0", "en_US", UNUM_DECIMAL, 1, 0, 3, 0.0, u"#,##0.###", 0.128, u"0.128" }, { "02 en_US DEC 1/0/1/0.0", "en_US", UNUM_DECIMAL, 1, 0, 1, 0.0, u"#,##0.#", 0.128, u"0.1" }, { "03 en_US DEC 1/0/1/0.01", "en_US", UNUM_DECIMAL, 1, 0, 1, 0.01, u"#,##0.#", 0.128, u"0.1" }, { "04 en_US DEC 1/1/1/0.01", "en_US", UNUM_DECIMAL, 1, 1, 1, 0.01, u"#,##0.0", 0.128, u"0.1" }, { "05 en_US DEC 1/0/1/0.1", "en_US", UNUM_DECIMAL, 1, 0, 1, 0.1, u"#,##0.1", 0.128, u"0.1" }, // use incr { "06 en_US DEC 1/1/1/0.1", "en_US", UNUM_DECIMAL, 1, 1, 1, 0.1, u"#,##0.1", 0.128, u"0.1" }, // use incr { "10 en_US DEC 1/0/1/0.02", "en_US", UNUM_DECIMAL, 1, 0, 1, 0.02, u"#,##0.#", 0.128, u"0.1" }, { "11 en_US DEC 1/0/2/0.02", "en_US", UNUM_DECIMAL, 1, 0, 2, 0.02, u"#,##0.02", 0.128, u"0.12" }, // use incr { "12 en_US DEC 1/0/3/0.02", "en_US", UNUM_DECIMAL, 1, 0, 3, 0.02, u"#,##0.02#", 0.128, u"0.12" }, // use incr { "13 en_US DEC 1/1/1/0.02", "en_US", UNUM_DECIMAL, 1, 1, 1, 0.02, u"#,##0.0", 0.128, u"0.1" }, { "14 en_US DEC 1/1/2/0.02", "en_US", UNUM_DECIMAL, 1, 1, 2, 0.02, u"#,##0.02", 0.128, u"0.12" }, // use incr { "15 en_US DEC 1/1/3/0.02", "en_US", UNUM_DECIMAL, 1, 1, 3, 0.02, u"#,##0.02#", 0.128, u"0.12" }, // use incr { "16 en_US DEC 1/2/2/0.02", "en_US", UNUM_DECIMAL, 1, 2, 2, 0.02, u"#,##0.02", 0.128, u"0.12" }, // use incr { "17 en_US DEC 1/2/3/0.02", "en_US", UNUM_DECIMAL, 1, 2, 3, 0.02, u"#,##0.02#", 0.128, u"0.12" }, // use incr { "18 en_US DEC 1/3/3/0.02", "en_US", UNUM_DECIMAL, 1, 3, 3, 0.02, u"#,##0.020", 0.128, u"0.120" }, // use incr { "20 en_US DEC 1/1/1/0.0075", "en_US", UNUM_DECIMAL, 1, 1, 1, 0.0075, u"#,##0.0", 0.019, u"0.0" }, { "21 en_US DEC 1/1/2/0.0075", "en_US", UNUM_DECIMAL, 1, 1, 2, 0.0075, u"#,##0.0075", 0.004, u"0.0075" }, // use incr { "22 en_US DEC 1/1/2/0.0075", "en_US", UNUM_DECIMAL, 1, 1, 2, 0.0075, u"#,##0.0075", 0.019, u"0.0225" }, // use incr { "23 en_US DEC 1/1/3/0.0075", "en_US", UNUM_DECIMAL, 1, 1, 3, 0.0075, u"#,##0.0075", 0.004, u"0.0075" }, // use incr { "24 en_US DEC 1/1/3/0.0075", "en_US", UNUM_DECIMAL, 1, 1, 3, 0.0075, u"#,##0.0075", 0.019, u"0.0225" }, // use incr { "25 en_US DEC 1/2/2/0.0075", "en_US", UNUM_DECIMAL, 1, 2, 2, 0.0075, u"#,##0.0075", 0.004, u"0.0075" }, // use incr { "26 en_US DEC 1/2/2/0.0075", "en_US", UNUM_DECIMAL, 1, 2, 2, 0.0075, u"#,##0.0075", 0.019, u"0.0225" }, // use incr { "27 en_US DEC 1/2/3/0.0075", "en_US", UNUM_DECIMAL, 1, 2, 3, 0.0075, u"#,##0.0075", 0.004, u"0.0075" }, // use incr { "28 en_US DEC 1/2/3/0.0075", "en_US", UNUM_DECIMAL, 1, 2, 3, 0.0075, u"#,##0.0075", 0.019, u"0.0225" }, // use incr { "29 en_US DEC 1/3/3/0.0075", "en_US", UNUM_DECIMAL, 1, 3, 3, 0.0075, u"#,##0.0075", 0.004, u"0.0075" }, // use incr { "2A en_US DEC 1/3/3/0.0075", "en_US", UNUM_DECIMAL, 1, 3, 3, 0.0075, u"#,##0.0075", 0.019, u"0.0225" }, // use incr { NULL, NULL, UNUM_IGNORE, 0, 0, 0, 0.0, NULL, 0.0, NULL } }; // The following is copied from C++ number_patternstring.cpp for this C test. // // Determine whether a given roundingIncrement should be ignored for formatting // based on the current maxFrac value (maximum fraction digits). For example a // roundingIncrement of 0.01 should be ignored if maxFrac is 1, but not if maxFrac // is 2 or more. Note that roundingIncrements are rounded in significance, so // a roundingIncrement of 0.006 is treated like 0.01 for this determination, i.e. // it should not be ignored if maxFrac is 2 or more (but a roundingIncrement of // 0.005 is treated like 0.001 for significance). This is the reason for the // initial doubling below. // roundIncr must be non-zero static UBool ignoreRoundingIncrement(double roundIncr, int32_t maxFrac) { if (maxFrac < 0) { return FALSE; } int32_t frac = 0; roundIncr *= 2.0; for (frac = 0; frac <= maxFrac && roundIncr <= 1.0; frac++, roundIncr *= 10.0); return (frac > maxFrac); } enum { kBBufMax = 128 }; static void TestSetMaxFracAndRoundIncr(void) { const SetMaxFracAndRoundIncrItem* itemPtr; for (itemPtr = maxFracAndRoundIncrItems; itemPtr->descrip != NULL; itemPtr++) { UChar ubuf[kUBufMax]; char bbufe[kBBufMax]; char bbufg[kBBufMax]; int32_t ulen; UErrorCode status = U_ZERO_ERROR; UNumberFormat* unf = unum_open(itemPtr->style, NULL, 0, itemPtr->locale, NULL, &status); if (U_FAILURE(status)) { log_data_err("locale %s: unum_open style %d fails with %s\n", itemPtr->locale, itemPtr->style, u_errorName(status)); continue; } unum_setAttribute(unf, UNUM_MIN_INTEGER_DIGITS, itemPtr->minInt); unum_setAttribute(unf, UNUM_MIN_FRACTION_DIGITS, itemPtr->minFrac); unum_setAttribute(unf, UNUM_MAX_FRACTION_DIGITS, itemPtr->maxFrac); unum_setDoubleAttribute(unf, UNUM_ROUNDING_INCREMENT, itemPtr->roundIncr); UBool roundIncrUsed = (itemPtr->roundIncr != 0.0 && !ignoreRoundingIncrement(itemPtr->roundIncr, itemPtr->maxFrac)); int32_t minInt = unum_getAttribute(unf, UNUM_MIN_INTEGER_DIGITS); if (minInt != itemPtr->minInt) { log_err("test %s: unum_getAttribute UNUM_MIN_INTEGER_DIGITS, expected %d, got %d\n", itemPtr->descrip, itemPtr->minInt, minInt); } int32_t minFrac = unum_getAttribute(unf, UNUM_MIN_FRACTION_DIGITS); if (minFrac != itemPtr->minFrac) { log_err("test %s: unum_getAttribute UNUM_MIN_FRACTION_DIGITS, expected %d, got %d\n", itemPtr->descrip, itemPtr->minFrac, minFrac); } // If incrementRounding is used, maxFrac is set equal to minFrac int32_t maxFrac = unum_getAttribute(unf, UNUM_MAX_FRACTION_DIGITS); // If incrementRounding is used, maxFrac is set equal to minFrac int32_t expMaxFrac = (roundIncrUsed)? itemPtr->minFrac: itemPtr->maxFrac; if (maxFrac != expMaxFrac) { log_err("test %s: unum_getAttribute UNUM_MAX_FRACTION_DIGITS, expected %d, got %d\n", itemPtr->descrip, expMaxFrac, maxFrac); } double roundIncr = unum_getDoubleAttribute(unf, UNUM_ROUNDING_INCREMENT); // If incrementRounding is not used, roundIncr is set to 0.0 double expRoundIncr = (roundIncrUsed)? itemPtr->roundIncr: 0.0; if (roundIncr != expRoundIncr) { log_err("test %s: unum_getDoubleAttribute UNUM_ROUNDING_INCREMENT, expected %f, got %f\n", itemPtr->descrip, expRoundIncr, roundIncr); } status = U_ZERO_ERROR; ulen = unum_toPattern(unf, FALSE, ubuf, kUBufMax, &status); (void)ulen; if ( U_FAILURE(status) ) { log_err("test %s: unum_toPattern fails with %s\n", itemPtr->descrip, u_errorName(status)); } else if (u_strcmp(ubuf,itemPtr->expPattern)!=0) { u_austrcpy(bbufe, itemPtr->expPattern); u_austrcpy(bbufg, ubuf); log_err("test %s: unum_toPattern expect \"%s\", get \"%s\"\n", itemPtr->descrip, bbufe, bbufg); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unf, itemPtr->valueToFmt, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("test %s: unum_formatDouble fails with %s\n", itemPtr->descrip, u_errorName(status)); } else if (u_strcmp(ubuf,itemPtr->expFormat)!=0) { u_austrcpy(bbufe, itemPtr->expFormat); u_austrcpy(bbufg, ubuf); log_err("test %s: unum_formatDouble expect \"%s\", get \"%s\"\n", itemPtr->descrip, bbufe, bbufg); } unum_close(unf); } } static void TestIgnorePadding(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat* unum = unum_open(UNUM_PATTERN_DECIMAL, NULL, 0, "en_US", NULL, &status); if (U_FAILURE(status)) { log_data_err("unum_open UNUM_PATTERN_DECIMAL for en_US and NULL pattern fails:%s\n", u_errorName(status)); } else { unum_setAttribute(unum, UNUM_GROUPING_USED, 0); unum_setAttribute(unum, UNUM_FORMAT_WIDTH, 0); unum_setTextAttribute(unum, UNUM_PADDING_CHARACTER, u"*", 1, &status); if (U_FAILURE(status)) { log_err("unum_setTextAttribute UNUM_PADDING_CHARACTER to '*' fails: %s\n", u_errorName(status)); } else { unum_setAttribute(unum, UNUM_PADDING_POSITION, 0); unum_setAttribute(unum, UNUM_MIN_INTEGER_DIGITS, 0); unum_setAttribute(unum, UNUM_MAX_INTEGER_DIGITS, 8); unum_setAttribute(unum, UNUM_MIN_FRACTION_DIGITS, 0); unum_setAttribute(unum, UNUM_MAX_FRACTION_DIGITS, 0); UChar ubuf[kUBufMax]; int32_t ulen = unum_toPattern(unum, FALSE, ubuf, kUBufMax, &status); if (U_FAILURE(status)) { log_err("unum_toPattern fails: %s\n", u_errorName(status)); } else { char bbuf[kBBufMax]; if (ulen > 0 && ubuf[0]==u'*') { ubuf[kUBufMax-1] = 0; // ensure zero termination u_austrncpy(bbuf, ubuf, kBBufMax); log_err("unum_toPattern result should ignore padding but get %s\n", bbuf); } unum_applyPattern(unum, FALSE, ubuf, ulen, NULL, &status); if (U_FAILURE(status)) { log_err("unum_applyPattern fails: %s\n", u_errorName(status)); } else { ulen = unum_formatDecimal(unum, "24", -1, ubuf, kUBufMax, NULL, &status); if (U_FAILURE(status)) { log_err("unum_formatDecimal fails: %s\n", u_errorName(status)); } else if (u_strcmp(ubuf, u"24") != 0) { ubuf[kUBufMax-1] = 0; // ensure zero termination u_austrncpy(bbuf, ubuf, kBBufMax); log_err("unum_formatDecimal result expect 24 but get %s\n", bbuf); } } } } unum_close(unum); } } static void TestSciNotationMaxFracCap(void) { static const UChar* pat1 = u"#.##E+00;-#.##E+00"; UErrorCode status = U_ZERO_ERROR; UNumberFormat* unum = unum_open(UNUM_PATTERN_DECIMAL, pat1, -1, "en_US", NULL, &status); if ( U_FAILURE(status) ) { log_data_err("unum_open UNUM_PATTERN_DECIMAL with scientific pattern for \"en_US\" fails with %s\n", u_errorName(status)); } else { double value; UChar ubuf[kUBufMax]; char bbuf[kBBufMax]; int32_t ulen; unum_setAttribute(unum, UNUM_MIN_FRACTION_DIGITS, 0); unum_setAttribute(unum, UNUM_MAX_FRACTION_DIGITS, 2147483647); ulen = unum_toPattern(unum, FALSE, ubuf, kUBufMax, &status); if ( U_SUCCESS(status) ) { u_austrncpy(bbuf, ubuf, kUBufMax); log_info("unum_toPattern (%d): %s\n", ulen, bbuf); } for (value = 10.0; value < 1000000000.0; value *= 10.0) { status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, value, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble value %.1f status %s\n", value, u_errorName(status)); } else if (u_strncmp(ubuf,u"1E+0",4) != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble value %.1f expected result to begin with 1E+0, got %s\n", value, bbuf); } } unum_close(unum); } } static void TestMinIntMinFracZero(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat* unum = unum_open(UNUM_DECIMAL, NULL, 0, "en_US", NULL, &status); if ( U_FAILURE(status) ) { log_data_err("unum_open UNUM_DECIMAL for en_US fails with %s\n", u_errorName(status)); } else { UChar ubuf[kUBufMax]; char bbuf[kBBufMax]; int minInt, minFrac, ulen; unum_setAttribute(unum, UNUM_MIN_INTEGER_DIGITS, 0); unum_setAttribute(unum, UNUM_MIN_FRACTION_DIGITS, 0); minInt = unum_getAttribute(unum, UNUM_MIN_INTEGER_DIGITS); minFrac = unum_getAttribute(unum, UNUM_MIN_FRACTION_DIGITS); if (minInt != 0 || minFrac != 0) { log_err("after setting minInt=minFrac=0, get minInt %d, minFrac %d\n", minInt, minFrac); } ulen = unum_toPattern(unum, FALSE, ubuf, kUBufMax, &status); if ( U_FAILURE(status) ) { log_err("unum_toPattern fails with %s\n", u_errorName(status)); } else if (ulen < 3 || u_strstr(ubuf, u"#.#")==NULL) { u_austrncpy(bbuf, ubuf, kUBufMax); log_info("after setting minInt=minFrac=0, expect pattern to contain \"#.#\", but get (%d): \"%s\"\n", ulen, bbuf); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, 10.0, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble 10.0 ulen %d fails with %s\n", ulen, u_errorName(status)); } else if (u_strcmp(ubuf, u"10") != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble 10.0 expected \"10\", got \"%s\"\n", bbuf); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, 0.9, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble 0.9 ulen %d fails with %s\n", ulen, u_errorName(status)); } else if (u_strcmp(ubuf, u".9") != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble 0.9 expected \".9\", got \"%s\"\n", bbuf); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, 0.0, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble 0.0 ulen %d fails with %s\n", ulen, u_errorName(status)); } else if (u_strcmp(ubuf, u"0") != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble 0.0 expected \"0\", got \"%s\"\n", bbuf); } unum_close(unum); status = U_ZERO_ERROR; unum = unum_open(UNUM_CURRENCY, NULL, 0, "en_US", NULL, &status); if ( U_FAILURE(status) ) { log_data_err("unum_open UNUM_CURRENCY for en_US fails with %s\n", u_errorName(status)); } else { unum_setAttribute(unum, UNUM_MIN_INTEGER_DIGITS, 0); unum_setAttribute(unum, UNUM_MIN_FRACTION_DIGITS, 0); minInt = unum_getAttribute(unum, UNUM_MIN_INTEGER_DIGITS); minFrac = unum_getAttribute(unum, UNUM_MIN_FRACTION_DIGITS); if (minInt != 0 || minFrac != 0) { log_err("after setting CURRENCY minInt=minFrac=0, get minInt %d, minFrac %d\n", minInt, minFrac); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, 10.0, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble (CURRRENCY) 10.0 ulen %d fails with %s\n", ulen, u_errorName(status)); } else if (u_strcmp(ubuf, u"$10") != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble (CURRRENCY) 10.0 expected \"$10\", got \"%s\"\n", bbuf); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, 0.9, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble (CURRRENCY) 0.9 ulen %d fails with %s\n", ulen, u_errorName(status)); } else if (u_strcmp(ubuf, u"$.9") != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble (CURRRENCY) 0.9 expected \"$.9\", got \"%s\"\n", bbuf); } status = U_ZERO_ERROR; ulen = unum_formatDouble(unum, 0.0, ubuf, kUBufMax, NULL, &status); if ( U_FAILURE(status) ) { log_err("unum_formatDouble (CURRRENCY) 0.0 ulen %d fails with %s\n", ulen, u_errorName(status)); } else if (u_strcmp(ubuf, u"$0") != 0) { u_austrncpy(bbuf, ubuf, kUBufMax); log_err("unum_formatDouble (CURRRENCY) 0.0 expected \"$0\", got \"%s\"\n", bbuf); } unum_close(unum); } } } static void Test21479_ExactCurrency(void) { UErrorCode status = U_ZERO_ERROR; UNumberFormat* nf = unum_open(UNUM_CURRENCY, NULL, 0, "en_US", NULL, &status); if ( U_FAILURE(status) ) { log_data_err("unum_open UNUM_CURRENCY for en_US fails with %s\n", u_errorName(status)); goto cleanup; } unum_setTextAttribute(nf, UNUM_CURRENCY_CODE, u"EUR", -1, &status); UChar result[40]; unum_formatDecimal(nf, "987654321000000000000001", -1, result, 40, NULL, &status); if (!assertSuccess("Formatting currency decimal", &status)) { goto cleanup; } assertUEquals("", u"€987,654,321,000,000,000,000,001.00", result); cleanup: unum_close(nf); } #endif /* #if !UCONFIG_NO_FORMATTING */