X-Git-Url: https://git.saurik.com/apple/icu.git/blobdiff_plain/f3c0d7a59d99c2a94c6b8822291f0e42be3773c9..HEAD:/icuSources/test/cintltst/cnumtst.c diff --git a/icuSources/test/cintltst/cnumtst.c b/icuSources/test/cintltst/cnumtst.c index 0d29b810..c5826c53 100644 --- a/icuSources/test/cintltst/cnumtst.c +++ b/icuSources/test/cintltst/cnumtst.c @@ -31,15 +31,20 @@ #include "unicode/unumsys.h" #include "unicode/ustring.h" #include "unicode/udisplaycontext.h" +#include "unicode/uchar.h" +#include "unicode/ures.h" // TAKE ME OUT!!! #include "cintltst.h" #include "cnumtst.h" #include "cmemory.h" #include "cstring.h" #include "putilimp.h" +#include "uassert.h" #include #include +#define APPLE_ADDITIONS 1 + 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); @@ -55,6 +60,9 @@ 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); @@ -64,8 +72,30 @@ 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 TestParseAltNum(void); static void TestParseCurrPatternWithDecStyle(void); +static void TestFormatPrecision(void); +static void TestSetSigDigAndRoundIncr(void); // Apple +static void TestSetAffixOnCurrFmt(void); // Apple +static void TestParseWithEmptyCurr(void); // Apple +static void TestSciNotationNumbers(void); // Apple +static void TestSciNotationPrecision(void); // Apple +static void TestMinimumGrouping(void); // Apple +static void TestNumberSystemsMultiplier(void); // Apple +static void TestParseScientific(void); // Apple +static void TestCurrForUnkRegion(void); // Apple +static void TestMinIntMinFracZero(void); // Apple +#if APPLE_ADDITIONS +static void TestFormatDecPerf(void); // Apple +static void TestCountryFallback(void); // Apple +#endif #define TESTCASE(x) addTest(root, &x, "tsformat/cnumtst/" #x) @@ -81,6 +111,7 @@ void addNumForTest(TestNode** root) TESTCASE(TestCurrencyRegression); TESTCASE(TestTextAttributeCrash); TESTCASE(TestRBNFFormat); + TESTCASE(TestRBNFRounding); TESTCASE(TestNBSPInPattern); TESTCASE(TestInt64Parse); TESTCASE(TestParseZero); @@ -88,6 +119,9 @@ void addNumForTest(TestNode** root) TESTCASE(TestCloneWithRBNF); TESTCASE(TestMaxInt); TESTCASE(TestNoExponent); + TESTCASE(TestSignAlwaysShown); + TESTCASE(TestMinimumGroupingDigits); + TESTCASE(TestParseCaseSensitive); TESTCASE(TestUFormattable); TESTCASE(TestUNumberingSystem); TESTCASE(TestCurrencyIsoPluralFormat); @@ -97,8 +131,29 @@ void addNumForTest(TestNode** root) TESTCASE(TestVariousStylesAndAttributes); TESTCASE(TestParseCurrPatternWithDecStyle); TESTCASE(TestFormatForFields); + TESTCASE(Test12052_NullPointer); + TESTCASE(TestParseCases); + TESTCASE(TestSetMaxFracAndRoundIncr); + TESTCASE(TestIgnorePadding); + TESTCASE(TestSciNotationMaxFracCap); + TESTCASE(TestParseAltNum); TESTCASE(TestParseCurrPatternWithDecStyle); + TESTCASE(TestFormatPrecision); + TESTCASE(TestSetSigDigAndRoundIncr); // Apple + TESTCASE(TestSetAffixOnCurrFmt); // Apple + TESTCASE(TestParseWithEmptyCurr); // Apple + TESTCASE(TestSciNotationNumbers); // Apple + TESTCASE(TestSciNotationPrecision); // Apple + TESTCASE(TestMinimumGrouping); // Apple + TESTCASE(TestNumberSystemsMultiplier); // Apple + TESTCASE(TestParseScientific); // Apple + TESTCASE(TestCurrForUnkRegion); // Apple + TESTCASE(TestMinIntMinFracZero); // Apple +#if APPLE_ADDITIONS + TESTCASE(TestFormatDecPerf); // Apple + TESTCASE(TestCountryFallback); // Apple +#endif } /* test Parse int 64 */ @@ -485,7 +540,7 @@ free(result); pattern=unum_open(UNUM_IGNORE,temp1, u_strlen(temp1), NULL, NULL,&status); if(U_FAILURE(status)) { - log_err("error in unum_openPattern(): %s\n", myErrorName(status) );; + log_err("error in unum_openPattern(): %s\n", myErrorName(status) ); } else log_verbose("Pass: unum_openPattern() works fine\n"); @@ -767,7 +822,8 @@ free(result); newvalue=2; unum_setAttribute(def, attr, newvalue); if(unum_getAttribute(def,attr) != 2) - log_err("error in setting and getting attributes for UNUM_SECONDARY_GROUPING_SIZE\n"); + log_err("error in setting and getting attributes for UNUM_SECONDARY_GROUPING_SIZE: got %d\n", + unum_getAttribute(def,attr)); else log_verbose("Pass:setting and getting attributes for UNUM_SECONDARY_GROUPING_SIZE works fine\n"); @@ -842,7 +898,8 @@ free(result); const char *bdpattern = "#,##0.#########"; const char *numInitial = "12345678900987654321.1234567896"; const char *numFormatted = "12,345,678,900,987,654,321.12345679"; - const char *parseExpected = "12345678900987654321.12345679"; + const char *parseExpected = "1.234567890098765432112345679E+19"; + const char *parseExpected2 = "3.4567890098765432112345679E+17"; int32_t resultSize = 0; int32_t parsePos = 0; /* Output parameter for Parse operations. */ #define DESTCAPACITY 100 @@ -866,9 +923,9 @@ free(result); log_err("File %s, Line %d, (expected, acutal) = (\"%s\", \"%s\")\n", __FILE__, __LINE__, numFormatted, desta); } - if (strlen(numFormatted) != resultSize) { + if ((int32_t)strlen(numFormatted) != resultSize) { log_err("File %s, Line %d, (expected, actual) = (%d, %d)\n", - __FILE__, __LINE__, strlen(numFormatted), resultSize); + __FILE__, __LINE__, (int32_t)strlen(numFormatted), resultSize); } /* Format with a FieldPosition parameter */ @@ -900,13 +957,16 @@ free(result); if (U_FAILURE(status)) { log_err("File %s, Line %d, status = %s\n", __FILE__, __LINE__, u_errorName(status)); } - if (strcmp(parseExpected, desta) != 0) { + if (uprv_strcmp(parseExpected, desta) != 0) { log_err("File %s, Line %d, (expected, actual) = (\"%s\", \"%s\")\n", __FILE__, __LINE__, parseExpected, desta); + } else { + log_verbose("File %s, Line %d, got expected = \"%s\"\n", + __FILE__, __LINE__, desta); } - if (strlen(parseExpected) != resultSize) { + if ((int32_t)strlen(parseExpected) != resultSize) { log_err("File %s, Line %d, (expected, actual) = (%d, %d)\n", - __FILE__, __LINE__, strlen(parseExpected), resultSize); + __FILE__, __LINE__, (int32_t)strlen(parseExpected), resultSize); } /* Parse with a parsePos parameter */ @@ -919,13 +979,16 @@ free(result); if (U_FAILURE(status)) { log_err("File %s, Line %d, status = %s\n", __FILE__, __LINE__, u_errorName(status)); } - if (strcmp(parseExpected+2, desta) != 0) { /* "345678900987654321.12345679" */ + if (strcmp(parseExpected2, desta) != 0) { /* "3.4567890098765432112345679E+17" */ log_err("File %s, Line %d, (expected, actual) = (\"%s\", \"%s\")\n", - __FILE__, __LINE__, parseExpected+2, desta); + __FILE__, __LINE__, parseExpected2, desta); + } else { + log_verbose("File %s, Line %d, got expected = \"%s\"\n", + __FILE__, __LINE__, desta); } - if (strlen(numFormatted) != parsePos) { + if ((int32_t)strlen(numFormatted) != parsePos) { log_err("File %s, Line %d, parsePos (expected, actual) = (\"%d\", \"%d\")\n", - __FILE__, __LINE__, strlen(parseExpected), parsePos); + __FILE__, __LINE__, (int32_t)strlen(parseExpected), parsePos); } unum_close(fmt); @@ -1028,29 +1091,29 @@ typedef struct { } 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, 4, 0.0, U_PARSE_ERROR, 4, 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, 0, 0.0, U_PARSE_ERROR, 0, 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 } + { "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() @@ -1067,9 +1130,10 @@ static void TestParseCurrency() 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, itemPtr->currStr, -1, &parsePos, &status); + 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, @@ -1079,7 +1143,7 @@ static void TestParseCurrency() status = U_ZERO_ERROR; parsePos = 0; parseCurr[0] = 0; - parseVal = unum_parseDoubleCurrency(unum, itemPtr->currStr, -1, &parsePos, parseCurr, &status); + 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) { @@ -1101,7 +1165,7 @@ static void TestParseCurrency() parsePos = 0; parseVal = unum_parseDouble(unum, itemPtr->plurStr, -1, &parsePos, &status); if (status != itemPtr->parsDoubExpectErr || parseVal != itemPtr->parsDoubExpectVal) { - log_err("UNUM_CURRENCY parseDouble %s/%s, expect %s val %.1f, get %s val %.1f\n", + 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 ); @@ -1113,7 +1177,7 @@ static void TestParseCurrency() u_austrncpy(parseCurrB, parseCurr, 4); if (status != itemPtr->parsCurrExpectErr || parseVal != itemPtr->parsCurrExpectVal || strncmp(parseCurrB, itemPtr->parsCurrExpectCurr, 4) != 0) { - log_err("UNUM_CURRENCY parseDoubleCurrency %s/%s, expect %s val %.1f cur %s, get %s val %.1f cur %s\n", + 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 ); @@ -1256,7 +1320,7 @@ static void TestSignificantDigits() double d = 123456.789; u_uastrcpy(temp, "###0.0#"); - fmt=unum_open(UNUM_IGNORE, temp, -1, NULL, NULL,&status); + 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; @@ -1297,7 +1361,7 @@ static void TestSigDigRounding() UNumberFormat* fmt; double d = 123.4; - fmt=unum_open(UNUM_DECIMAL, NULL, 0, NULL /* "en_US"*/, NULL, &status); + 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; @@ -1328,6 +1392,7 @@ static void TestNumberFormatPadding() { UChar *result=NULL; UChar temp1[512]; + UChar temp2[512]; UErrorCode status=U_ZERO_ERROR; int32_t resultlength; @@ -1353,12 +1418,13 @@ static void TestNumberFormatPadding() } /* u_uastrcpy(temp1, "*x#,###,###,##0.0#;(*x#,###,###,##0.0#)"); */ - 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) );; + 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"); @@ -1380,12 +1446,17 @@ static void TestNumberFormatPadding() } else { - if(u_strcmp(result, temp1)!=0) - log_err("FAIL: Error in extracting the padding pattern using unum_toPattern()\n"); - 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); + } } + free(result); /* u_uastrcpy(temp1, "(xxxxxxx10,456.37)"); */ u_uastrcpy(temp1, "xxxxx(10,456.37)"); resultlength=0; @@ -1655,7 +1726,7 @@ static void test_fmt(UNumberFormat* fmt, UBool isDecimal) { /* set the default ruleset to the first one found, and retry */ if (len > 0) { - for (i = 0; i < len && temp[i] != ';'; ++i){}; + for (i = 0; i < len && temp[i] != ';'; ++i){} if (i < len) { buffer[i] = 0; unum_setTextAttribute(fmt, UNUM_DEFAULT_RULESET, buffer, -1, &status); @@ -1854,6 +1925,51 @@ static void TestRBNFFormat() { } } +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 @@ -2029,7 +2145,7 @@ static void TestNBSPInPattern(void) { } -static void TestCloneWithRBNF(void) { +static void TestCloneWithRBNF(void) { UChar pattern[1024]; UChar pat2[512]; UErrorCode status = U_ZERO_ERROR; @@ -2170,7 +2286,7 @@ static void TestNoExponent(void) { 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; @@ -2198,7 +2314,7 @@ static void TestMaxInt(void) { UNUM_PATTERN_DECIMAL, /* style */ &pattern_hash[0], /* pattern */ u_strlen(pattern_hash), /* patternLength */ - 0, + "en", 0, /* parseErr */ &status); if(U_FAILURE(status) || fmt == NULL) { @@ -2260,6 +2376,67 @@ static void TestMaxInt(void) { 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 @@ -2389,7 +2566,7 @@ static const NumSysTestItem numSysTestItems[] = { { "en", "latn", 10, FALSE, latnDesc }, { "en@numbers=roman", "roman", 10, TRUE, romanDesc }, { "en@numbers=finance", "latn", 10, FALSE, latnDesc }, - { "ar", "arab", 10, FALSE, arabDesc }, + { "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 }, @@ -2403,7 +2580,7 @@ static void TestUNumberingSystem(void) { UEnumeration * uenum; const char * numsys; UErrorCode status; - + for (itemPtr = numSysTestItems; itemPtr->locale != NULL; itemPtr++) { status = U_ZERO_ERROR; unumsys = unumsys_open(itemPtr->locale, &status); @@ -2426,39 +2603,43 @@ static void TestUNumberingSystem(void) { log_data_err("unumsys_open for locale %s fails with status %s\n", itemPtr->locale, myErrorName(status)); } } - - 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)); + + 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)); } - 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 }; +enum { kUBufMax = 64, kBBufMax = 128 }; static void TestCurrencyIsoPluralFormat(void) { static const char* DATA[][8] = { // the data are: @@ -2471,34 +2652,41 @@ static void TestCurrencyIsoPluralFormat(void) { // 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", "USD1.00", "1.00 US dollars"}, - {"en_US", "1234.56", "USD", "$1,234.56", "$1,234.56", "$1,234.56", "USD1,234.56", "1,234.56 US dollars"}, - {"en_US@cf=account", "1234.56", "USD", "$1,234.56", "$1,234.56", "$1,234.56", "USD1,234.56", "1,234.56 US dollars"}, - {"en_US", "-1234.56", "USD", "-$1,234.56", "-$1,234.56", "($1,234.56)", "-USD1,234.56", "-1,234.56 US dollars"}, - {"en_US@cf=account", "-1234.56", "USD", "($1,234.56)", "-$1,234.56", "($1,234.56)", "-USD1,234.56", "-1,234.56 US dollars"}, - {"en_US@cf=standard", "-1234.56", "USD", "-$1,234.56", "-$1,234.56", "($1,234.56)", "-USD1,234.56", "-1,234.56 US dollars"}, - {"zh_CN", "1", "USD", "US$1.00", "US$1.00", "US$1.00", "USD1.00", "1.00\\u7F8E\\u5143"}, - {"zh_CN", "-1", "USD", "-US$1.00", "-US$1.00", "(US$1.00)", "-USD1.00", "-1.00\\u7F8E\\u5143"}, - {"zh_CN@cf=account", "-1", "USD", "(US$1.00)", "-US$1.00", "(US$1.00)", "-USD1.00", "-1.00\\u7F8E\\u5143"}, - {"zh_CN@cf=standard", "-1", "USD", "-US$1.00", "-US$1.00", "(US$1.00)", "-USD1.00", "-1.00\\u7F8E\\u5143"}, - {"zh_CN", "1234.56", "USD", "US$1,234.56", "US$1,234.56", "US$1,234.56", "USD1,234.56", "1,234.56\\u7F8E\\u5143"}, + // 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", "CNY1.00", "1.00\\u4EBA\\u6C11\\u5E01"}, - {"zh_CN", "1234.56", "CNY", "\\u00A51,234.56", "\\u00A51,234.56", "\\u00A51,234.56", "CNY1,234.56", "1,234.56\\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"}, + {"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"}, + {"ja_JP", "42", NULL, "\\u00A542", "\\u00A542", "\\u00A542", "JPY\\u00A042", "42\\u00A0\\u5186"}, + {"ja_JP@currency=USD", "42", NULL, "$42.00", "$42.00", "$42.00", "USD\\u00A042.00", "42.00\\u00A0\\u7C73\\u30C9\\u30EB"}, + {"ms_MY", "1234.56", "MYR", "RM1,234.56", "RM1,234.56", "RM1,234.56", "MYR1,234.56", "1,234.56 Ringgit Malaysia"}, + {"id_ID", "1234.56", "IDR", "Rp1.235", "Rp1.235", "Rp1.235", "IDR\\u00A01.235", "1.235 Rupiah Indonesia"}, // test locale without currency information {"root", "-1.23", "USD", "-US$\\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"}, - }; + // test EUR format for some now-redundant locale data removed in rdar://62544359 + {"en_NO", "1234.56", "EUR", "\\u20AC\\u00A01\\u00A0234,56", "\\u20AC\\u00A01\\u00A0234,56", "\\u20AC\\u00A01\\u00A0234,56", "EUR\\u00A01\\u00A0234,56", "1\\u00A0234,56 euros"}, + {"en_PL", "1234.56", "EUR", "1\\u00A0234,56\\u00A0\\u20AC", "1\\u00A0234,56\\u00A0\\u20AC", "1\\u00A0234,56\\u00A0\\u20AC", "1\\u00A0234,56\\u00A0EUR", "1\\u00A0234,56 euros"}, + }; static const UNumberFormatStyle currencyStyles[] = { UNUM_CURRENCY, UNUM_CURRENCY_STANDARD, @@ -2508,42 +2696,52 @@ static void TestCurrencyIsoPluralFormat(void) { }; 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)) { @@ -2608,7 +2806,7 @@ static void TestContext(void) { 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)); + 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); @@ -2629,7 +2827,7 @@ static void TestCurrencyUsage(void) { * - CAD rounds to .05 */ - {"PKR", "PKR124"}, + {"PKR", "PKR\\u00A0124"}, {"CAD", "CA$123.55"}, {"USD", "$123.57"} }; @@ -2667,7 +2865,7 @@ static void TestCurrencyUsage(void) { log_err("FAIL: currency usage attribute is not UNUM_CURRENCY_CASH\n"); } - for (j=0; jattribute >= 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); @@ -2923,6 +3163,19 @@ static void TestVariousStylesAndAttributes(void) { 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); } + status = U_ZERO_ERROR; + ugetlen = unum_formatDecimal(unum, veItemPtr->valueStr, -1, uget, kUBufSize, NULL, &status); + if ( U_FAILURE(status) ) { + log_err("FAIL: unum_formatDecimal style %d, locale %s, attr %d, valueStr %s: error %s\n", + (int)lsaTestPtr->style, lsaTestPtr->locale, lsaTestPtr->attribute, veItemPtr->valueStr, 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_formatDecimal style %d, locale %s, attr %d, valueStr %s: expect \"%s\", get \"%s\"\n", + (int)lsaTestPtr->style, lsaTestPtr->locale, lsaTestPtr->attribute, veItemPtr->valueStr, bexp, bget); + } } unum_close(unum); } @@ -2982,7 +3235,7 @@ static const FieldsData fields_en_CURR[] = { { UNUM_FRACTION_FIELD /*1*/, 9, 11 }, { -1, -1, -1 }, }; -/* "en_US", UNUM_PERCENT, -34 : "#,##0%" => "-34%" */ +/* "en_US"/"es_US/MX" , UNUM_PERCENT, -34 : "#,##0%" => "-34%" */ static const FieldsData fields_en_PRCT[] = { { UNUM_SIGN_FIELD /*10*/, 0, 1 }, { UNUM_INTEGER_FIELD /*0*/, 1, 3 }, @@ -3007,6 +3260,8 @@ static const FieldsData fields_en_PATN[] = { static const FormatForFieldsItem fffItems[] = { { "en_US", UNUM_CURRENCY_STANDARD, 123456.0, fields_en_CURR }, { "en_US", UNUM_PERCENT, -0.34, fields_en_PRCT }, + { "es_US", UNUM_PERCENT, -0.34, fields_en_PRCT }, // rdar://57000745 + { "es_MX", UNUM_PERCENT, -0.34, fields_en_PRCT }, // rdar://42948387 { "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 }, @@ -3059,4 +3314,1470 @@ static void TestFormatForFields(void) { } } +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",024", FALSE, FALSE, U_ZERO_ERROR, 4, 24, U_ZERO_ERROR, 4, 24.0, U_ZERO_ERROR, 4, "24" }, + { "en", u",024", TRUE, FALSE, U_ZERO_ERROR, 4, 24, U_ZERO_ERROR, 4, 24.0, U_ZERO_ERROR, 4, "24" }, + { "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" /* change from ICU-62nnn */}, + { "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 + + // Additions for rdar://51452216 + { "30 en_US DEC 1/0/1/0.01", "en_US", UNUM_DECIMAL, 1, 1, 3, 0.001, u"#,##0.001", 1.23456789, u"1.235" }, + { "31 en_US DEC 1/1/1/0.01", "en_US", UNUM_DECIMAL, 1, 1, 3, 0.001f, u"#,##0.001", 1.23456789, u"1.235" }, + + { 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); +} + +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); + } +} + +typedef struct { + const char* locale; + double value; + const UChar* formatLimitPrecision; + const UChar* formatFullPrecision; +} FormatPrecisionItem; + +static const FormatPrecisionItem formatPrecisionItems[] = { + { "en_US", 0.33333333 - 0.00333333, u"0.33", u"0.32999999999999996" }, + { "en_US", 0.07 * 100.0, u"7", u"7.000000000000001" }, + { NULL, 0.0, NULL, NULL } +}; + +static const UChar* patternTestPrecision = u"#0.################################################################################"; // 80 fraction places + +// Currently Apple only +static void TestFormatPrecision(void) { + const FormatPrecisionItem* itemPtr; + for (itemPtr = formatPrecisionItems; itemPtr->locale != NULL; itemPtr++) { + UErrorCode status = U_ZERO_ERROR; + UParseError perr; + UNumberFormat *unum = unum_open(UNUM_PATTERN_DECIMAL, patternTestPrecision, -1, itemPtr->locale, &perr, &status); + if (U_FAILURE(status)) { + log_data_err("unum_open UNUM_PATTERN_DECIMAL fails for locale %s: %s\n", itemPtr->locale, u_errorName(status)); + continue; + } + UChar ubuf[kUBufSize]; + int32_t ulen; + UFieldPosition fpos; + UBool formatFullPrecision; + + formatFullPrecision = (UBool)unum_getAttribute(unum, UNUM_FORMAT_WITH_FULL_PRECISION); + if (formatFullPrecision) { + log_err("unum_getAttribute, default for UNUM_FORMAT_WITH_FULL_PRECISION is not FALSE\n"); + } else { + fpos.field = UNUM_DECIMAL_SEPARATOR_FIELD; + fpos.beginIndex = 0; + fpos.endIndex = 0; + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, itemPtr->value, ubuf, kUBufSize, &fpos, &status); + if (U_FAILURE(status)) { + log_err("unum_formatDouble locale %s val %.20f limit precision fails with %s\n", itemPtr->locale, itemPtr->value, u_errorName(status)); + } else if (ulen != u_strlen(itemPtr->formatLimitPrecision) || u_strcmp(ubuf, itemPtr->formatLimitPrecision) != 0) { + char bbufe[kBBufSize]; + char bbufg[kBBufSize]; + u_strToUTF8(bbufe, kBBufSize, NULL, itemPtr->formatLimitPrecision, -1, &status); + u_strToUTF8(bbufg, kBBufSize, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble locale %s val %.20f limit precision, expect %s, get %s\n", itemPtr->locale, itemPtr->value, bbufe, bbufg); + } + } + + unum_setAttribute(unum, UNUM_FORMAT_WITH_FULL_PRECISION, TRUE); + formatFullPrecision = (UBool)unum_getAttribute(unum, UNUM_FORMAT_WITH_FULL_PRECISION); + if (!formatFullPrecision) { + log_err("unum_getAttribute, after set UNUM_FORMAT_WITH_FULL_PRECISION is not TRUE\n"); + } else { + fpos.field = UNUM_DECIMAL_SEPARATOR_FIELD; + fpos.beginIndex = 0; + fpos.endIndex = 0; + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, itemPtr->value, ubuf, kUBufSize, &fpos, &status); + if (U_FAILURE(status)) { + log_err("unum_formatDouble locale %s val %.20f full precision fails with %s\n", itemPtr->locale, itemPtr->value, u_errorName(status)); + } else if (ulen != u_strlen(itemPtr->formatFullPrecision) || u_strcmp(ubuf, itemPtr->formatFullPrecision) != 0) { + char bbufe[kBBufSize]; + char bbufg[kBBufSize]; + u_strToUTF8(bbufe, kBBufSize, NULL, itemPtr->formatFullPrecision, -1, &status); + u_strToUTF8(bbufg, kBBufSize, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble locale %s val %.20f full precision, expect %s, get %s\n", itemPtr->locale, itemPtr->value, bbufe, bbufg); + } + } + + unum_close(unum); + } +} + +// Apple only for +static void TestSetSigDigAndRoundIncr(void) { + UErrorCode status = U_ZERO_ERROR; + UNumberFormat* unum = unum_open(UNUM_PATTERN_DECIMAL, u"#", 1, "en_US", NULL, &status); + if ( U_FAILURE(status) ) { + log_data_err("unum_open UNUM_PATTERN_DECIMAL # for \"en_US\" fails with %s\n", u_errorName(status)); + } else { + static const double value = 1.034000; + UChar ubuf[kUBufMax]; + char bbuf[kBBufMax]; + int32_t ulen; + + unum_setAttribute(unum, UNUM_MAX_INTEGER_DIGITS, 42); + unum_setAttribute(unum, UNUM_MAX_FRACTION_DIGITS, 0); + unum_setAttribute(unum, UNUM_ROUNDING_MODE, UNUM_ROUND_HALFUP); // =6 + unum_setDoubleAttribute(unum, UNUM_ROUNDING_INCREMENT, 0.01); + unum_setAttribute(unum, UNUM_SIGNIFICANT_DIGITS_USED, 1); + unum_setAttribute(unum, UNUM_MAX_SIGNIFICANT_DIGITS, 5); + unum_setAttribute(unum, UNUM_MIN_SIGNIFICANT_DIGITS, 1); + + log_info("unum_getAttribute minSig %d maxSig %d sigUsed %d\n", + unum_getAttribute(unum,UNUM_MIN_SIGNIFICANT_DIGITS), unum_getAttribute(unum,UNUM_MAX_SIGNIFICANT_DIGITS), + unum_getAttribute(unum,UNUM_SIGNIFICANT_DIGITS_USED)); + log_info("unum_getDoubleAttribute UNUM_ROUNDING_INCREMENT %f\n", unum_getDoubleAttribute(unum,UNUM_SIGNIFICANT_DIGITS_USED)); + ulen = unum_toPattern(unum, FALSE, ubuf, kUBufMax, &status); + u_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + if ( U_SUCCESS(status) ) { + log_info("unum_toPattern (%d): %s\n", ulen, bbuf); + } + + 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_strcmp(ubuf,u"1.03") != 0) { + u_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble value %.1f expected 1.03, got %s\n", value, bbuf); + } + unum_close(unum); + } +} + +// Apple for +typedef struct { + const char* descrip; + const char* locale; + const UChar* setPosPrefix; + const UChar* setPosSuffix; + const UChar* setNegPrefix; + const UChar* setNegSuffix; + const UChar* expPosPrefix; + const UChar* expPosSuffix; + const UChar* expNegPrefix; + const UChar* expNegSuffix; + const UChar* expPattern; + double value; + const UChar* expPosFormat; + const UChar* expNegFormat; +} SetAffixOnCurrFmtItem; + +static const SetAffixOnCurrFmtItem affixOnCurrFmtItems[] = { + // descrip loc sPP sPS sNP sNS ePP ePS eNP eNS ePattern value ePosFmt eNegFmt + { "01 en set no affix ", "en", NULL, NULL, NULL, NULL, u"¤", u"", u"-¤", u"", u"¤#,##0.00", 123.4, u"¤123.40", u"-¤123.40" }, + { "02 en set + prefix", "en", u"$", NULL, NULL, NULL, u"$", u"", u"-¤", u"", u"$#,##0.00;-¤#,##0.00", 123.4, u"$123.40", u"-¤123.40" }, + { "03 en set +- prefix", "en", u"$", NULL, u"-$", NULL, u"$", u"", u"-$", u"", u"$#,##0.00;'-'$#,##0.00", 123.4, u"$123.40", u"-$123.40" }, + { NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,NULL,0.0,NULL,NULL } +}; + +// Apple only for +static void TestSetAffixOnCurrFmt(void) { + const SetAffixOnCurrFmtItem* itemPtr; + for (itemPtr = affixOnCurrFmtItems; 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(UNUM_CURRENCY, NULL, 0, itemPtr->locale, NULL, &status); + if (U_FAILURE(status)) { + log_data_err("locale %s: unum_open UNUM_CURRENCY fails with %s\n", itemPtr->locale, u_errorName(status)); + continue; + } + + if (itemPtr->setPosPrefix) { + status = U_ZERO_ERROR; + unum_setTextAttribute(unf, UNUM_POSITIVE_PREFIX, itemPtr->setPosPrefix, -1, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_setTextAttribute UNUM_POSITIVE_PREFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } + } + if (itemPtr->setPosSuffix) { + status = U_ZERO_ERROR; + unum_setTextAttribute(unf, UNUM_POSITIVE_SUFFIX, itemPtr->setPosSuffix, -1, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_setTextAttribute UNUM_POSITIVE_SUFFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } + } + if (itemPtr->setNegPrefix) { + status = U_ZERO_ERROR; + unum_setTextAttribute(unf, UNUM_NEGATIVE_PREFIX, itemPtr->setNegPrefix, -1, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_setTextAttribute UNUM_NEGATIVE_PREFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } + } + if (itemPtr->setNegSuffix) { + status = U_ZERO_ERROR; + unum_setTextAttribute(unf, UNUM_NEGATIVE_SUFFIX, itemPtr->setNegSuffix, -1, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_setTextAttribute UNUM_NEGATIVE_SUFFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } + } + + status = U_ZERO_ERROR; + ulen = unum_getTextAttribute(unf, UNUM_POSITIVE_PREFIX, ubuf, kUBufMax, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_getTextAttribute UNUM_POSITIVE_PREFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expPosPrefix)!=0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expPosPrefix, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_getTextAttribute UNUM_POSITIVE_PREFIX expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + status = U_ZERO_ERROR; + ulen = unum_getTextAttribute(unf, UNUM_POSITIVE_SUFFIX, ubuf, kUBufMax, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_getTextAttribute UNUM_POSITIVE_SUFFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expPosSuffix)!=0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expPosSuffix, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_getTextAttribute UNUM_POSITIVE_SUFFIX expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + status = U_ZERO_ERROR; + ulen = unum_getTextAttribute(unf, UNUM_NEGATIVE_PREFIX, ubuf, kUBufMax, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_getTextAttribute UNUM_NEGATIVE_PREFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expNegPrefix)!=0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expNegPrefix, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_getTextAttribute UNUM_NEGATIVE_PREFIX expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + status = U_ZERO_ERROR; + ulen = unum_getTextAttribute(unf, UNUM_NEGATIVE_SUFFIX, ubuf, kUBufMax, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_getTextAttribute UNUM_NEGATIVE_SUFFIX fails with %s\n", itemPtr->descrip, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expNegSuffix)!=0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expNegSuffix, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_getTextAttribute UNUM_NEGATIVE_SUFFIX expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + status = U_ZERO_ERROR; + ulen = unum_toPattern(unf, FALSE, ubuf, kUBufMax, &status); + 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_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expPattern, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_toPattern expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unf, itemPtr->value, ubuf, kUBufMax, NULL, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_formatDouble positive fails with %s\n", itemPtr->descrip, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expPosFormat)!=0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expPosFormat, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_formatDouble positive expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unf, -1.0*itemPtr->value, ubuf, kUBufMax, NULL, &status); + if (U_FAILURE(status)) { + log_err("test %s: unum_formatDouble negative fails with %s\n", itemPtr->descrip, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expNegFormat)!=0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expNegFormat, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("test %s: unum_formatDouble negative expect %s, get %s\n", itemPtr->descrip, bbufe, bbufg); + } + + unum_close(unf); + } +} + +// Apple only for +static void TestParseWithEmptyCurr(void) { + UErrorCode status = U_ZERO_ERROR; + UNumberFormat* 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_setSymbol(unum, UNUM_CURRENCY_SYMBOL, u"", 0, &status); + if (U_FAILURE(status)) { + log_err("unum_setSymbol UNUM_CURRENCY_SYMBOL u\"\" fails with %s\n", u_errorName(status)); + } else { + char bbuf[kBBufMax] = { 0 }; + UChar curr[4] = { 0 }; + int32_t ppos, blen; + double val; + const UChar* text = u"3"; + + status = U_ZERO_ERROR; + ppos = 0; + blen = unum_parseDecimal(unum, text, -1, &ppos, bbuf, kBBufMax, &status); + if (U_FAILURE(status)) { + log_err("unum_parseDecimal u\"3\" with empty curr symbol fails with %s, ppos %d\n", u_errorName(status), ppos); + } else if (ppos != 1 || blen != 1 || bbuf[0] != '3') { + log_err("unum_parseDecimal expect ppos 1, blen 1, str 3; get %d, %d, %s\n", ppos, blen, bbuf); + } + + status = U_ZERO_ERROR; + ppos = 0; + val = unum_parseDouble(unum, text, -1, &ppos, &status); + if (U_FAILURE(status)) { + log_err("unum_parseDouble u\"3\" with empty curr symbol fails with %s, ppos %d\n", u_errorName(status), ppos); + } else if (ppos != 1 || val != 3.0) { + log_err("unum_parseDouble expect ppos 1, val 3.0; get %d, %.2f\n", ppos, val); + } + + status = U_ZERO_ERROR; + ppos = 0; + val = unum_parseDoubleCurrency(unum, text, -1, &ppos, curr, &status); + if (U_SUCCESS(status)) { + log_err("unum_parseDoubleCurrency u\"3\" with empty curr symbol succeeds, get ppos %d, val %.2f\n", ppos, val); + } + } + unum_close(unum); + } + + // Additions for + // "¤#,##0.00" "¤ #,##0.00" "#,##0.00 ¤" "#,##,##0.00¤" + static const char* locales[] = {"en_US", "en_NO", "en_CZ", "en_BD", NULL }; + const char ** localesPtr = locales; + const char* locale; + while ((locale = *localesPtr++) != NULL) { + status = U_ZERO_ERROR; + unum = unum_open(UNUM_CURRENCY, NULL, 0, locale, NULL, &status); + if (U_FAILURE(status)) { + log_data_err("locale %s unum_open UNUM_CURRENCY fails with %s\n", locale, u_errorName(status)); + } else { + char bbuf[kBBufMax] = { 0 }; + UChar curr[4] = { 0 }; + UChar ubuf[kUBufMax]; + int32_t ppos, blen, ulen; + const double posValToUse = 37.0; + const double negValToUse = -3.0; + double val; + + status = U_ZERO_ERROR; + unum_setSymbol(unum, UNUM_CURRENCY_SYMBOL, u"", 0, &status); + if (U_FAILURE(status)) { + log_err("locale %s unum_setSymbol UNUM_CURRENCY_SYMBOL u\"\" fails with %s, skipping\n", locale, u_errorName(status)); + continue; + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, posValToUse, ubuf, kUBufMax, NULL, &status); + if (U_FAILURE(status)) { + log_err("locale %s unum_formatDouble %.1f fails with %s, skipping\n", locale, posValToUse, u_errorName(status)); + continue; + } + + status = U_ZERO_ERROR; + ppos = 0; + val = unum_parseDouble(unum, ubuf, ulen, &ppos, &status); + if (U_FAILURE(status)) { + log_err("locale %s unum_parseDouble fails with %s, ppos %d, expect %.1f\n", locale, u_errorName(status), ppos, posValToUse); + } else if (ppos != ulen || val != posValToUse) { + log_err("locale %s unum_parseDouble expect ppos %d, val %.1f; get %d, %.2f\n", locale, ulen, posValToUse, ppos, val); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, negValToUse, ubuf, kUBufMax, NULL, &status); + if (U_FAILURE(status)) { + log_err("locale %s unum_formatDouble %.1f fails with %s, skipping\n", locale, negValToUse, u_errorName(status)); + continue; + } + + status = U_ZERO_ERROR; + ppos = 0; + val = unum_parseDouble(unum, ubuf, ulen, &ppos, &status); + if (U_FAILURE(status)) { + log_err("locale %s unum_parseDouble fails with %s, ppos %d, expect %.1f\n", locale, u_errorName(status), ppos, negValToUse); + } else if (ppos != ulen || val != negValToUse) { + log_err("locale %s unum_parseDouble expect ppos %d, val %.1f; get %d, %.2f\n", locale, ulen, negValToUse, ppos, val); + } + + status = U_ZERO_ERROR; + unum_applyPattern(unum, FALSE, u"#,##0.00¤", -1, NULL, &status); + if (U_FAILURE(status)) { + log_err("locale %s unum_applyPattern \"#,##0.00¤\" fails with %s, skipping\n", locale, u_errorName(status)); + continue; + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, posValToUse, ubuf, kUBufMax, NULL, &status); + if (U_FAILURE(status)) { + log_err("locale %s with \"#,##0.00¤\" unum_formatDouble %.1f fails with %s, skipping\n", locale, posValToUse, u_errorName(status)); + continue; + } + + status = U_ZERO_ERROR; + ppos = 0; + val = unum_parseDouble(unum, ubuf, ulen, &ppos, &status); + if (U_FAILURE(status)) { + log_err("locale %s with \"#,##0.00¤\" unum_parseDouble fails with %s, ppos %d, expect %.1f\n", locale, u_errorName(status), ppos, posValToUse); + } else if (ppos != ulen || val != posValToUse) { + log_err("locale %s with \"#,##0.00¤\" unum_parseDouble expect ppos %d, val %.1f; get %d, %.2f\n", locale, ulen, posValToUse, ppos, val); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, negValToUse, ubuf, kUBufMax, NULL, &status); + if (U_FAILURE(status)) { + log_err("locale %s with \"#,##0.00¤\" unum_formatDouble %.1f fails with %s, skipping\n", locale, negValToUse, u_errorName(status)); + continue; + } + + status = U_ZERO_ERROR; + ppos = 0; + val = unum_parseDouble(unum, ubuf, ulen, &ppos, &status); + if (U_FAILURE(status)) { + log_err("locale %s with \"#,##0.00¤\" unum_parseDouble fails with %s, ppos %d, expect %.1f\n", locale, u_errorName(status), ppos, negValToUse); + } else if (ppos != ulen || val != negValToUse) { + log_err("locale %s with \"#,##0.00¤\" unum_parseDouble expect ppos %d, val %.1f; get %d, %.2f\n", locale, ulen, negValToUse, ppos, val); + } + + unum_close(unum); + } + } +} + +// Apple only for +static const UChar* pat1 = u"#.##E+00;-#.##E+00"; +static void TestSciNotationNumbers(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 with null pattern for \"en_US\" fails with %s\n", u_errorName(status)); + } else { + unum_applyPattern(unum, FALSE, pat1, u_strlen(pat1), NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_applyPattern 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); + log_info("unum_getAttribute minInt %d maxInt %d minFrac %d maxFrac %d\n", + unum_getAttribute(unum,UNUM_MIN_INTEGER_DIGITS), unum_getAttribute(unum,UNUM_MAX_INTEGER_DIGITS), + unum_getAttribute(unum,UNUM_MIN_FRACTION_DIGITS), unum_getAttribute(unum,UNUM_MAX_FRACTION_DIGITS)); + ulen = unum_toPattern(unum, FALSE, ubuf, kUBufMax, &status); + u_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + if ( U_SUCCESS(status) ) { + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble value %.1f expected result to begin with 1E+0, got %s\n", value, bbuf); + } + } + } + unum_close(unum); + } +} + +// Apple only for +static const UChar* patFmt3Exp = u"0.000E+00"; +static void TestSciNotationPrecision(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 with null pattern for \"en_US\" fails with %s\n", u_errorName(status)); + } else { + unum_applyPattern(unum, FALSE, pat1, u_strlen(pat1), NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_applyPattern fails with %s\n", u_errorName(status)); + } else { + double value; + UChar ubuf[kUBufMax]; + char bexp[kBBufMax]; + char bget[kBBufMax]; + int32_t ulen; + + unum_setAttribute(unum, UNUM_MIN_FRACTION_DIGITS, 3); + unum_setAttribute(unum, UNUM_MAX_FRACTION_DIGITS, 3); + unum_setAttribute(unum, UNUM_GROUPING_USED, 0); + + status = U_ZERO_ERROR; + 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 (u_strcmp(ubuf,patFmt3Exp) != 0) { + u_strToUTF8(bget, kBBufMax, NULL, ubuf, ulen, &status); + log_info("unum_toPattern, get \"%s\"\n", bget); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, 0.0, ubuf, ulen, NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_formatDouble fails with %s\n", u_errorName(status)); + } else if (u_strcmp(ubuf,patFmt3Exp) != 0) { + u_strToUTF8(bexp, kBBufMax, NULL, patFmt3Exp, -1, &status); + u_strToUTF8(bget, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble error, expect \"%s\", get \"%s\"\n", bexp, bget); + } + } + unum_close(unum); + } +} + +// Apple only for +static const char* minGroupLocale = "pt_PT"; // has minimumGroupingDigits{"2"} +typedef struct { + double value; + const char* string; + const UChar* expectDecimal; + const UChar* expectCurrency; +} TestMinGroupItem; +static const TestMinGroupItem minGroupItems[] = { + { 123.0, "123.0", u"123,00", u"123,00 €" }, + { 1234.0, "1234.0", u"1234,00", u"1234,00 €" }, + { 12345.0, "12345.0", u"12 345,00", u"12 345,00 €" }, + { 123456.0, "123456.0", u"123 456,00", u"123 456,00 €" }, + { 1234567.0, "1234567.0", u"1 234 567,00", u"1 234 567,00 €" }, + { 12345678.0, "12345678.0", u"12 345 678,00", u"12 345 678,00 €" }, + { 0.0, NULL, NULL, NULL } // terminator +}; +static void TestMinimumGrouping(void) { + UErrorCode status = U_ZERO_ERROR; + UNumberFormat* unumd = unum_open(UNUM_DECIMAL, NULL, 0, minGroupLocale, NULL, &status); + UNumberFormat* unumc = unum_open(UNUM_CURRENCY, NULL, 0, minGroupLocale, NULL, &status); + if ( U_FAILURE(status) ) { + log_data_err("unum_open UNUM_PATTERN_DECIMAL/CURRENCY for %s fails with %s\n", minGroupLocale, u_errorName(status)); + } else { + const TestMinGroupItem* itemPtr; + unum_setAttribute(unumd, UNUM_MIN_FRACTION_DIGITS, 2); + for (itemPtr = minGroupItems; itemPtr->value != 0.0; itemPtr++) { + UChar ubuf[kUBufMax]; + char bbufe[kBBufMax]; + char bbufg[kBBufMax]; + int32_t ulen; + + status = U_ZERO_ERROR; + ulen = unum_formatDecimal(unumd, itemPtr->string, -1, ubuf, kUBufMax, NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_formatDecimal DEC for locale %s, value %.1f fails with %s\n", minGroupLocale, itemPtr->value, u_errorName(status)); + } else if (u_strcmp(ubuf, itemPtr->expectDecimal) != 0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expectDecimal, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDecimal DEC for locale %s, value %.1f, expected \"%s\" but got \"%s\"\n", + minGroupLocale, itemPtr->value, bbufe, bbufg); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unumd, itemPtr->value, ubuf, kUBufMax, NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_formatDouble DEC for locale %s, value %.1f fails with %s\n", minGroupLocale, itemPtr->value, u_errorName(status)); + } else if (u_strcmp(ubuf, itemPtr->expectDecimal) != 0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expectDecimal, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble DEC for locale %s, value %.1f, expected \"%s\" but got \"%s\"\n", + minGroupLocale, itemPtr->value, bbufe, bbufg); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unumc, itemPtr->value, ubuf, kUBufMax, NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_formatDouble CUR for locale %s, value %.1f fails with %s\n", minGroupLocale, itemPtr->value, u_errorName(status)); + } else if (u_strcmp(ubuf, itemPtr->expectCurrency) != 0) { + u_strToUTF8(bbufe, kBBufMax, NULL, itemPtr->expectCurrency, -1, &status); + u_strToUTF8(bbufg, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble CUR for locale %s, value %.1f, expected \"%s\" but got \"%s\"\n", + minGroupLocale, itemPtr->value, bbufe, bbufg); + } + } + unum_close(unumc); + unum_close(unumd); + } +} + +// Apple only for +static const char* const numSysLocales[] = { + "en_US", "en_US@numbers=arab", "en_US@numbers=roman", "en_US@numbers=grek", "en_US@numbers=hebr", + "zh@numbers=hanidec", "zh_Hant@numbers=traditional", "en@numbers=finance", NULL +}; +static void TestNumberSystemsMultiplier(void) { + const char* const* localesPtr = numSysLocales; + const char* locale; + while ((locale = *localesPtr++) != NULL) { + UErrorCode status = U_ZERO_ERROR; + UNumberFormat *unum = unum_open(UNUM_DECIMAL, NULL, 0, locale, NULL, &status); + if ( U_FAILURE(status) ) { + log_data_err("unum_open UNUM_DECIMAL for %s fails with %s\n", locale, u_errorName(status)); + } else { + int32_t multiplier = unum_getAttribute(unum, UNUM_MULTIPLIER); + log_info("for locale %s with UNUM_DECIMAL, UNUM_MULTIPLIER is %d\n", locale, multiplier); + unum_close(unum); + } + } +} + +// Apple only for +typedef struct { + const char* locale; + const UChar* stringToParse; + double expectValue; + int32_t expectPos; +} ParseScientificItem; +static const ParseScientificItem parseSciItems[] = { + { "en_US", u"4E\u200E+05", 400000.0, 6 }, + { "en_US", u"4E+05", 400000.0, 5 }, + { "en_US", u"4E\u200E-02", 0.04, 6 }, + { "en_US", u"4E-02", 0.04, 5 }, + { "he_IL", u"4E\u200E+05", 400000.0, 6 }, + { "he_IL", u"4E+05", 400000.0, 5 }, + { "he_IL", u"4E\u200E-02", 0.04, 6 }, + { "he_IL", u"4E-02", 0.04, 5 }, + { "en@numbers=arabext", u"\u06F4\u00D7\u06F1\u06F0^\u200E+\u200E\u06F0\u06F5", 400000.0, 10 }, + { "en@numbers=arabext", u"\u06F4\u00D7\u06F1\u06F0^+\u06F0\u06F5", 400000.0, 8 }, + { NULL,NULL, 0.0, 0 } // terminator +}; +static void TestParseScientific(void) { + const ParseScientificItem* itemPtr; + for (itemPtr = parseSciItems; itemPtr->locale != NULL; itemPtr++) { + UErrorCode status = U_ZERO_ERROR; + UNumberFormat *unum = unum_open(UNUM_SCIENTIFIC, NULL, 0, itemPtr->locale, NULL, &status); + if ( U_FAILURE(status) ) { + log_data_err("unum_open UNUM_SCIENTIFIC for %s fails with %s\n", itemPtr->locale, u_errorName(status)); + } else { + int32_t parsePos = 0; + double result = unum_parseDouble(unum, itemPtr->stringToParse, -1, &parsePos, &status); + if ( U_FAILURE(status) ) { + log_err("unum_parseDouble for %s fails with %s\n", itemPtr->locale, u_errorName(status)); + } else if (result != itemPtr->expectValue || parsePos != itemPtr->expectPos) { + log_err("unum_parseDouble for %s, expected result %.1f pos %d, got %.1f %d\n", + itemPtr->locale, itemPtr->expectValue, itemPtr->expectPos, result, parsePos); + } + unum_close(unum); + } + } +} + +// Apple only for +typedef struct { + const char* locale; + const UChar* expCurrCode; +} LocaleCurrCodeItem; +static const LocaleCurrCodeItem currCodeItems[] = { + { "en", u"" }, // curr ICU has "XXX" + { "en@currency=EUR", u"EUR" }, + { "en_US", u"USD" }, + { "en_ZZ", u"XAG" }, + { "_US", u"USD" }, + { "_ZZ", u"XAG" }, + { "us", u"" }, // curr ICU has "XXX" + { "", u"" }, // curr ICU has "XXX" + { NULL, NULL } +}; +static void TestCurrForUnkRegion(void) { + const LocaleCurrCodeItem* itemPtr; + for (itemPtr = currCodeItems; itemPtr->locale != NULL; itemPtr++) { + UErrorCode status = U_ZERO_ERROR; + UNumberFormat* unum = unum_open(UNUM_CURRENCY, NULL, 0, itemPtr->locale, NULL, &status); + if ( U_FAILURE(status) ) { + log_data_err("unum_open UNUM_CURRENCY for %s fails with %s\n", itemPtr->locale, u_errorName(status)); + } else { + UChar ubuf[kUBufMax]; + int32_t ulen = unum_getTextAttribute(unum, UNUM_CURRENCY_CODE, ubuf, kUBufMax, &status); + if ( U_FAILURE(status) ) { + log_err("unum_getTextAttribute UNUM_CURRENCY_CODE for %s fails with %s\n", itemPtr->locale, u_errorName(status)); + } else if (u_strcmp(ubuf,itemPtr->expCurrCode)!=0) { + char bexp[kBBufMax]; + char bget[kBBufMax]; + u_strToUTF8(bexp, kBBufMax, NULL, itemPtr->expCurrCode, -1, &status); + u_strToUTF8(bget, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_getTextAttribute UNUM_CURRENCY_CODE error for %s, expect \"%s\" but get \"%s\"\n", itemPtr->locale, bexp, bget); + } + status = U_ZERO_ERROR; + unum_setTextAttribute(unum, UNUM_CURRENCY_CODE, u"XXX", 3, &status); + if ( U_FAILURE(status) ) { + log_err("unum_setTextAttribute UNUM_CURRENCY_CODE for %s fails with %s\n", itemPtr->locale, u_errorName(status)); + } else { + ulen = unum_getTextAttribute(unum, UNUM_CURRENCY_CODE, ubuf, kUBufMax, &status); + if ( U_FAILURE(status) ) { + log_err("unum_getTextAttribute UNUM_CURRENCY_CODE XXX for %s fails with %s\n", itemPtr->locale, u_errorName(status)); + } else if (u_strcmp(ubuf,u"XXX")!=0) { + char bget[kBBufMax]; + u_strToUTF8(bget, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_getTextAttribute UNUM_CURRENCY_CODE error for %s, expect XXX but get \"%s\"\n", itemPtr->locale, bget); + } + } + unum_close(unum); + } + } +} + +static void TestMinIntMinFracZero(void) { + UChar ubuf[kUBufMax]; + char bbuf[kBBufMax]; + int minInt, minFrac, maxFrac, ulen; + + 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 { + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + log_err("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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + 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_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble (CURRRENCY) 0.0 expected \"$0\", got \"%s\"\n", bbuf); + } + + unum_close(unum); + } + + // addition for rdar://57291456 + status = U_ZERO_ERROR; + unum = unum_open(UNUM_PATTERN_DECIMAL, NULL, 0, "en_IE", NULL, &status); + if ( U_FAILURE(status) ) { + log_data_err("unum_open UNUM_DECIMAL for en_US fails with %s\n", u_errorName(status)); + } else { + unum_setAttribute(unum, UNUM_MIN_INTEGER_DIGITS, 0); + unum_setAttribute(unum, UNUM_MAX_FRACTION_DIGITS, 1); + minInt = unum_getAttribute(unum, UNUM_MIN_INTEGER_DIGITS); + maxFrac = unum_getAttribute(unum, UNUM_MAX_FRACTION_DIGITS); + if (minInt != 0 || maxFrac != 1) { + log_err("after setting minInt=0, maxFrac=1, get minInt %d, maxFrac %d\n", minInt, maxFrac); + } + + status = U_ZERO_ERROR; + ulen = unum_formatDouble(unum, 0.0, ubuf, kUBufMax, NULL, &status); + if ( U_FAILURE(status) ) { + log_err("unum_formatDouble (maxFrac 1) 0.0 ulen %d fails with %s\n", ulen, u_errorName(status)); + } else if (u_strcmp(ubuf, u".0") != 0) { + u_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + log_err("unum_formatDouble (maxFrac 1) 0.0 expected \".0\", got \"%s\"\n", bbuf); + } + + unum_close(unum); + } +} + +#if APPLE_ADDITIONS +#include +#if U_PLATFORM_IS_DARWIN_BASED +#include +#include +#define GET_START() mach_absolute_time() +#define GET_DURATION(start, info) ((mach_absolute_time() - start) * info.numer)/info.denom +#elif !U_PLATFORM_HAS_WIN32_API +#include +#include "putilimp.h" +#define GET_START() (uint64_t)uprv_getUTCtime() +#define GET_DURATION(start, info) ((uint64_t)uprv_getUTCtime() - start) +#else +#include "putilimp.h" +#define GET_START() (unsigned long long)uprv_getUTCtime() +#define GET_DURATION(start, info) ((unsigned long long)uprv_getUTCtime() - start) +#endif + +// Apple only for + +static void TestFormatDecPerf(void) { + static const char* locales[] = + { "en_US", "ar_EG", "ar_EG@numbers=latn", "zh_CN@numbers=traditional", NULL }; + static const UNumberFormatStyle styles[] = + { UNUM_DECIMAL, UNUM_CURRENCY, UNUM_PATTERN_DECIMAL, UNUM_FORMAT_STYLE_COUNT }; + static const char* values[] = + { "123.4", "234.5", "345.6", "456.7", NULL }; + static const UChar* pattern = u"#"; +#if U_PLATFORM_IS_DARWIN_BASED + mach_timebase_info_data_t info; + mach_timebase_info(&info); +#endif + const char** localesPtr = locales; + const char* locale; + while ((locale = *localesPtr++) != NULL) { + const UNumberFormatStyle* stylesPtr = styles; + UNumberFormatStyle style; + while ((style = *stylesPtr++) < UNUM_FORMAT_STYLE_COUNT) { +#if !U_PLATFORM_HAS_WIN32_API + uint64_t start, duration; +#else + unsigned long long start, duration; +#endif + UErrorCode status = U_ZERO_ERROR; + const UChar* patternPtr = (style == UNUM_PATTERN_DECIMAL)? pattern: NULL; + int32_t patternLen = (style == UNUM_PATTERN_DECIMAL)? u_strlen(pattern): 0; + UNumberFormat *unum; + + start = GET_START(); + unum = unum_open(style, patternPtr, patternLen, locale, NULL, &status); + duration = GET_DURATION(start, info); + log_info("== start locale %s, style %d\n", locale, (int)style); + if ( U_FAILURE(status) ) { + log_data_err("unum_open fails with %s\n", u_errorName(status)); + } else { + log_info("unum_open nsec %5llu\n", duration); + const char** valuesPtr = values; + const char* value; + while ((value = *valuesPtr++) != NULL) { + UChar ubuf[kUBufMax]; + char bbuf[kBBufMax]; + int32_t ulen; + + status = U_ZERO_ERROR; + start = GET_START(); + ulen = unum_formatDecimal(unum, value, strlen(value), ubuf, kUBufMax, NULL, &status); + duration = GET_DURATION(start, info); + u_strToUTF8(bbuf, kBBufMax, NULL, ubuf, ulen, &status); + if ( U_FAILURE(status) ) { + log_err("unum_formatDecimal %s fails with %s\n", value, u_errorName(status)); + } else { + log_info("unum_formatDecimal %s, nsec %5llu, result %s\n", value, duration, bbuf); + } + } + unum_close(unum); + } + } + } +} + +// Apple only for and + +static void TestCountryFallback(void) { + // Locales to check fallback behavior for-- the first column (subscript % 3 == 0) + // is the locale to test with; the second column (subscript % 3 == 1) is the locale + // whose number-formatting properties we should be matching when we use the test locale, + // and the third column (subscript % 3 == 2) is the locale we should be inheriting + // certain language-dependent symbols from (generally, the locale you'd normally get + // as a fallback). + // NOTE: The currency format always follows the country locale, except for the Euro in a handful + // of countries, where it follows the US English currency format. If the country-fallback locale + // ID begins with a *, that's a signal that the currency format comes from the language locale + // instead of the country locale. + char* testLocales[] = { + // locales we still have synthetic resources for that were working okay to begin with + "en_BG", "bg_BG", "en_150", + "en_CN", "zh_CN", "en_001", + "en_CZ", "cs_CZ", "en_CZ", + "en_JP", "ja_JP", "en_001", + "en_KR", "ko_KR", "en_001", + "en_TH", "th_TH", "en_001", + "en_TW", "zh_TW", "en_001", + + // locales that were okay except for currency-pattern issues + // (note that we have to specify the language locale as en, not en_150-- the en_150 currency format is wrong too) + "en_EE", "*et_EE", "en", + "en_LT", "*lt_LT", "en_LT", + "en_LV", "*lv_LV", "en", + "en_PT", "*pt_PT", "en", + "en_SK", "*sk_SK", "en_SK", + "en_FR", "*fr_FR", "en_FR", + + // locales we still have synthetic resources for that we had to modify to match the country-fallback results + "en_AL", "sq_AL", "en_150", + "en_AR", "es_AR", "en_AR", + "en_BD", "bn_BD@numbers=latn", "en_BD", + "en_BR", "pt_BR", "en_001", + "en_CL", "es_CL", "en_CL", + "en_CO", "es_CO", "en_CO", + "en_GR", "el_GR", "en_150", + "en_HU", "hu_HU", "en_150", + "en_ID", "id_ID", "en_001", + "en_MM", "my_MM@numbers=latn", "en_001", + "en_MV", "dv_MV", "en_001", + "en_MX", "es_MX", "en_001", + "en_RU", "ru_RU", "en_RU", + "en_TR", "tr_TR", "en_TR", + "en_UA", "uk_UA", "en_150", + "es_AG", "en_AG", "es_AG", + "es_BB", "en_BB", "es_BB", + "es_BM", "en_BM", "es_BM", + "es_BQ", "nl_BQ", "es_BQ", + "es_BS", "en_BS", "es_BS", + "es_CA", "en_CA", "es_CA", + "es_CW", "nl_CW", "es_CW", + "es_DM", "en_DM", "es_DM", + "es_GD", "en_GD", "es_GD", + "es_GY", "en_GY", "es_GY", + "es_HT", "fr_HT", "es_HT", + "es_KN", "en_KN", "es_KN", + "es_KY", "en_KY", "es_KY", + "es_LC", "en_LC", "es_LC", + "es_TC", "en_TC", "es_TC", + "es_TT", "en_TT", "es_TT", + "es_VC", "en_VC", "es_VC", + "es_VG", "en_VG", "es_VG", + "es_VI", "en_VI", "es_VI", + + // locales we used to have synthetic resources for but don't anymore + "en_AD", "ca_AD", "en_150", + "en_BA", "bs_BA", "en_150", + "en_ES", "es_ES", "en_150", + "en_HR", "hr_HR", "en_150", + "en_IS", "is_IS", "en_150", + "en_IT", "it_IT", "en_150", + "en_LU", "fr_LU", "en_150", + "en_ME", "sr_ME", "en_150", + "en_NO", "nb_NO", "en_NO", + "en_PL", "pl_PL", "en_150", + "en_RO", "ro_RO", "en_150", + "en_RS", "sr_RS", "en_150", + "en_SA", "ar_SA@numbers=latn", "en", + "es_AI", "en_AI", "es_419", + "es_AW", "nl_AW", "es_419", + "es_BL", "fr_BL", "es_419", + "es_FK", "en_FK", "es_419", + "es_GF", "fr_GF", "es_419", + "es_GL", "kl_GL", "es", + "es_GP", "fr_GP", "es_419", + "es_MF", "fr_MF", "es_419", + "es_MQ", "fr_MQ", "es_419", + "es_MS", "en_MS", "es_419", + "es_PM", "fr_PM", "es_419", + "es_SR", "nl_SR", "es_419", + "es_SX", "en_SX", "es_419", + + // locales we have synthetic resources for, but they come from open-source ICU + "en_DE", "de_DE", "en_DE", + "en_ER", "ti_ER", "en_001", + "en_GH", "ak_GH", "en_001", + "en_HK", "zh_HK", "en_001", + "en_ME", "sr_ME", "en_150", + "en_MO", "zh_MO", "en_001", + "en_MT", "mt_MT", "en_150", + "en_MY", "ms_MY", "en_001", + "en_NL", "nl_NL", "en_150", + "en_PH", "fil_PH", "en_001", + "en_ZW", "sn_ZW", "en_001", + "es_US", "en_US", "es_US", + + // locales where we're adding a NEW synthetic resource bundle, to PREVENT us from falling back by country + "en_BN", "en_001", "en_001", // rdar://69272236 + + // locales specifically mentioned in Radars + "fr_US", "en_US", "fr", // rdar://problem/54886964 +// "en_TH", "th_TH", "en", // rdar://problem/29299919 (listed above) +// "en_BG", "bg_BG", "en", // rdar://problem/29299919 (listed above) + "en_LI", "de_LI", "en", // rdar://problem/29299919 + "en_MC", "fr_MC", "en", // rdar://problem/29299919 + "en_MD", "ro_MD", "en", // rdar://problem/29299919 + "en_VA", "it_VA", "en", // rdar://problem/29299919 + "fr_GB", "en_GB", "fr", // rdar://problem/36020946 + "fr_CN", "zh_CN", "fr", // rdar://problem/50083902 + "es_IE", "en_IE", "es", // rdar://problem/58733843 + "en_LB", "ar_LB@numbers=latn", "en_001", // rdar://66609948 + + // tests for situations where the default number system is different depending on whether you + // fall back by language or by country: +// "en_SA", "ar_SA@numbers=latn", "en", // (listed above) + "ar_US", "en_US@numbers=arab", "ar", + "en_SA@numbers=arab", "ar_SA", "en@numbers=arab", + "ar_US@numbers=latn", "en_US", "ar@numbers=latn", + + // tests for situations where the original locale ID specifies a script: + "sr_Cyrl_SA", "ar_SA@numbers=latn", "sr_Cyrl", + "ru_Cyrl_BA", "bs_Cyrl_BA", "ru", + + // a few additional arbitrary combinations: + "ja_US", "en_US", "ja", + "fr_DE", "de_DE", "fr", + "de_FR", "fr_FR", "de", + "es_TW", "zh_TW", "es", + + // not in the resources, but to exercise the new ures_openWithCountryFallback() logic (AQ's default language is "und") + "fr_AQ", "en", "fr", + + // test to make sure that nothing goes wrong if language and country fallback both lead to the same resource + // (This won't happen for any "real" locales, because ICU has resources for all of them, but we can fake it with + // a nonexistent country code such as QQ.) + "en_QQ", "en", "en" + }; + + for (int32_t i = 0; i < (sizeof(testLocales) / sizeof(char*)); i += 3) { + const char* testLocale = testLocales[i]; + const char* fallbackLocale = testLocales[i + 1]; + const char* languageLocale = testLocales[i + 2]; + char errorMessage[200]; + UBool currencyFollowsLanguage = FALSE; + UErrorCode err = U_ZERO_ERROR; + + if (fallbackLocale[0] == '*') { + currencyFollowsLanguage = TRUE; + ++fallbackLocale; + } + + // Check that the decimal, percentage, currency, and scientific formatting patterns + // for the test locale are the same as those for the fallback locale. + for (UNumberFormatStyle style = UNUM_DECIMAL; style <= UNUM_SCIENTIFIC; ++style) { + err = U_ZERO_ERROR; + UNumberFormat* testFormatter = unum_open(style, NULL, -1, testLocale, NULL, &err); + UNumberFormat* fallbackFormatter = unum_open(style, NULL, -1, fallbackLocale, NULL, &err); + UNumberFormat* languageLocaleFormatter = unum_open(style, NULL, -1, languageLocale, NULL, &err); + + sprintf(errorMessage, "Error creating formatters for %s and %s", testLocale, fallbackLocale); + if (assertSuccess(errorMessage, &err)) { + UChar testPattern[100]; + UChar fallbackPattern[100]; + + unum_toPattern(testFormatter, FALSE, testPattern, 100, &err); + if (style == UNUM_PERCENT || (style == UNUM_CURRENCY && currencyFollowsLanguage)) { + unum_toPattern(languageLocaleFormatter, FALSE, fallbackPattern, 100, &err); + } else { + unum_toPattern(fallbackFormatter, FALSE, fallbackPattern, 100, &err); + } + + if (assertSuccess("Error getting number format patterns", &err)) { + sprintf(errorMessage, "In %s, formatting pattern for style %d doesn't match", testLocale, style); + assertUEquals(errorMessage, fallbackPattern, testPattern); + } + } + unum_close(testFormatter); + unum_close(fallbackFormatter); + unum_close(languageLocaleFormatter); + } + + // Check that all of the number formatting symbols for the test locale (except for the + // currency, exponential, infinity, and NaN symbols) are the same as those for the fallback locale. + UNumberFormat* testFormatter = unum_open(UNUM_DECIMAL, NULL, -1, testLocale, NULL, &err); + UNumberFormat* fallbackFormatter = unum_open(UNUM_DECIMAL, NULL, -1, fallbackLocale, NULL, &err); + UNumberFormat* languageLocaleFormatter = unum_open(UNUM_DECIMAL, NULL, -1, languageLocale, NULL, &err); + if (assertSuccess("Error creating formatters", &err)) { + for (UNumberFormatSymbol symbol = UNUM_DECIMAL_SEPARATOR_SYMBOL; symbol < UNUM_FORMAT_SYMBOL_COUNT; ++symbol) { + UBool compareToFallbackLocale = TRUE; + switch (symbol) { + case UNUM_CURRENCY_SYMBOL: + case UNUM_INTL_CURRENCY_SYMBOL: + case UNUM_MONETARY_SEPARATOR_SYMBOL: + case UNUM_MONETARY_GROUPING_SEPARATOR_SYMBOL: + // we don't do anything special with currency here + continue; + case UNUM_PLUS_SIGN_SYMBOL: + case UNUM_MINUS_SIGN_SYMBOL: + case UNUM_PERCENT_SYMBOL: + case UNUM_EXPONENTIAL_SYMBOL: + case UNUM_INFINITY_SYMBOL: + case UNUM_NAN_SYMBOL: + // unlike most number symbols, these should follow the language + compareToFallbackLocale = FALSE; + break; + default: + // everything else follows the country + compareToFallbackLocale = TRUE; + break; + } + + UChar testSymbol[50]; + UChar fallbackSymbol[50]; + + err = U_ZERO_ERROR; + unum_getSymbol(testFormatter, symbol, testSymbol, 50, &err); + if (compareToFallbackLocale) { + unum_getSymbol(fallbackFormatter, symbol, fallbackSymbol, 50, &err); + } else { + unum_getSymbol(languageLocaleFormatter, symbol, fallbackSymbol, 50, &err); + } + + if (assertSuccess("Error getting number format symbol", &err)) { + sprintf(errorMessage, "In %s, formatting symbol #%d doesn't match the fallback", testLocale, symbol); + assertUEquals(errorMessage, fallbackSymbol, testSymbol); + } + } + } + unum_close(testFormatter); + unum_close(fallbackFormatter); + unum_close(languageLocaleFormatter); + } +} + +#endif /* APPLE_ADDITIONS */ + #endif /* #if !UCONFIG_NO_FORMATTING */