// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /* ******************************************************************************* * Copyright (C) 1997-2015, International Business Machines Corporation and * * others. All Rights Reserved. * ******************************************************************************* * * File COMPACTDECIMALFORMATTEST.CPP * ******************************************************************************** */ #include #include #include "intltest.h" #if !UCONFIG_NO_FORMATTING #include "unicode/compactdecimalformat.h" #include "unicode/unum.h" #include "cmemory.h" typedef struct ExpectedResult { double value; // Invariant characters, will be converted to UTF-16 and then unescaped. const char *expected; } ExpectedResult; static const char *kShortStr = "Short"; static const char *kLongStr = "Long"; static ExpectedResult kEnglishShort[] = { {0.0, "0"}, {0.17, "0.17"}, {1.0, "1"}, {1234.0, "1.2K"}, {12345.0, "12K"}, {123456.0, "120K"}, {1234567.0, "1.2M"}, {12345678.0, "12M"}, {123456789.0, "120M"}, {1.23456789E9, "1.2B"}, {1.23456789E10, "12B"}, {1.23456789E11, "120B"}, {1.23456789E12, "1.2T"}, {1.23456789E13, "12T"}, {1.23456789E14, "120T"}, {1.23456789E15, "1200T"}}; static ExpectedResult kSerbianShort[] = { {1234.0, "1,2\\u00a0\\u0445\\u0438\\u0459."}, {12345.0, "12\\u00a0\\u0445\\u0438\\u0459."}, {20789.0, "21\\u00a0\\u0445\\u0438\\u0459."}, {123456.0, "120\\u00a0\\u0445\\u0438\\u0459."}, {1234567.0, "1,2\\u00A0\\u043C\\u0438\\u043B."}, {12345678.0, "12\\u00A0\\u043C\\u0438\\u043B."}, {123456789.0, "120\\u00A0\\u043C\\u0438\\u043B."}, {1.23456789E9, "1,2\\u00A0\\u043C\\u043B\\u0440\\u0434."}, {1.23456789E10, "12\\u00A0\\u043C\\u043B\\u0440\\u0434."}, {1.23456789E11, "120\\u00A0\\u043C\\u043B\\u0440\\u0434."}, {1.23456789E12, "1,2\\u00A0\\u0431\\u0438\\u043B."}, {1.23456789E13, "12\\u00A0\\u0431\\u0438\\u043B."}, {1.23456789E14, "120\\u00A0\\u0431\\u0438\\u043B."}, {1.23456789E15, "1200\\u00A0\\u0431\\u0438\\u043B."}}; static ExpectedResult kSerbianLong[] = { {1234.0, "1,2 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0435"}, // 10^3 few {12345.0, "12 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0430"}, // 10^3 other {21789.0, "22 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0435"}, // 10^3 few {123456.0, "120 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0430"}, // 10^3 other {999999.0, "1 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D"}, // 10^6 one {1234567.0, "1,2 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, // 10^6 few {12345678.0, "12 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, // 10^6 other {123456789.0, "120 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, // 10^6 other {1.23456789E9, "1,2 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0435"}, // 10^9 few {1.23456789E10, "12 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0438"}, // 10^9 other {2.08901234E10, "21 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0430"}, // 10^9 one {2.18901234E10, "22 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0435"}, // 10^9 few {1.23456789E11, "120 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0438"}, // 10^9 other {1.23456789E12, "1,2 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, // 10^12 few {1.23456789E13, "12 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, // 10^12 other {1.23456789E14, "120 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, // 10^12 other {1.23456789E15, "1200 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}}; // 10^12 other static ExpectedResult kSerbianLongNegative[] = { {-1234.0, "-1,2 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0435"}, {-12345.0, "-12 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0430"}, {-21789.0, "-22 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0435"}, {-123456.0, "-120 \\u0445\\u0438\\u0459\\u0430\\u0434\\u0430"}, {-999999.0, "-1 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D"}, {-1234567.0, "-1,2 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, {-12345678.0, "-12 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, {-123456789.0, "-120 \\u043C\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, {-1.23456789E9, "-1,2 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0435"}, {-1.23456789E10, "-12 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0438"}, {-2.08901234E10, "-21 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0430"}, {-2.18901234E10, "-22 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0435"}, {-1.23456789E11, "-120 \\u043C\\u0438\\u043B\\u0438\\u0458\\u0430\\u0440\\u0434\\u0438"}, {-1.23456789E12, "-1,2 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, {-1.23456789E13, "-12 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, {-1.23456789E14, "-120 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}, {-1.23456789E15, "-1200 \\u0431\\u0438\\u043B\\u0438\\u043E\\u043D\\u0430"}}; static ExpectedResult kJapaneseShort[] = { {1234.0, "1200"}, {12345.0, "1.2\\u4E07"}, {123456.0, "12\\u4E07"}, {1234567.0, "120\\u4E07"}, {12345678.0, "1200\\u4E07"}, {123456789.0, "1.2\\u5104"}, {1.23456789E9, "12\\u5104"}, {1.23456789E10, "120\\u5104"}, {1.23456789E11, "1200\\u5104"}, {1.23456789E12, "1.2\\u5146"}, {1.23456789E13, "12\\u5146"}, {1.23456789E14, "120\\u5146"}}; static ExpectedResult kSwahiliShort[] = { {1234.0, "elfu\\u00a01.2"}, {12345.0, "elfu\\u00a012"}, {123456.0, "elfu\\u00a0120"}, {1234567.0, "1.2M"}, {12345678.0, "12M"}, {123456789.0, "120M"}, {1.23456789E9, "1.2B"}, {1.23456789E10, "12B"}, {1.23456789E11, "120B"}, {1.23456789E12, "1.2T"}, {1.23456789E13, "12T"}, {1.23456789E15, "1200T"}}; static ExpectedResult kCsShort[] = { {1000.0, "1\\u00a0tis."}, {1500.0, "1,5\\u00a0tis."}, {5000.0, "5\\u00a0tis."}, {23000.0, "23\\u00a0tis."}, {127123.0, "130\\u00a0tis."}, {1271234.0, "1,3\\u00a0mil."}, {12712345.0, "13\\u00a0mil."}, {127123456.0, "130\\u00a0mil."}, {1.27123456E9, "1,3\\u00a0mld."}, {1.27123456E10, "13\\u00a0mld."}, {1.27123456E11, "130\\u00a0mld."}, {1.27123456E12, "1,3\\u00a0bil."}, {1.27123456E13, "13\\u00a0bil."}, {1.27123456E14, "130\\u00a0bil."}}; static ExpectedResult kSkLong[] = { {1000.0, "1 tis\\u00edc"}, {1572.0, "1,6 tis\\u00edca"}, {5184.0, "5,2 tis\\u00edca"}}; static ExpectedResult kSwahiliShortNegative[] = { {-1234.0, "elfu\\u00a0-1.2"}, {-12345.0, "elfu\\u00a0-12"}, {-123456.0, "elfu\\u00a0-120"}, {-1234567.0, "-1.2M"}, {-12345678.0, "-12M"}, {-123456789.0, "-120M"}, {-1.23456789E9, "-1.2B"}, {-1.23456789E10, "-12B"}, {-1.23456789E11, "-120B"}, {-1.23456789E12, "-1.2T"}, {-1.23456789E13, "-12T"}, {-1.23456789E15, "-1200T"}}; static ExpectedResult kArabicLong[] = { {-5300.0, "\\u061C-\\u0665\\u066B\\u0663 \\u0623\\u0644\\u0641"}}; static ExpectedResult kChineseCurrencyTestData[] = { {1.0, "\\u00A51"}, {12.0, "\\u00A512"}, {123.0, "\\u00A5120"}, {1234.0, "\\u00A51200"}, {12345.0, "\\u00A51.2\\u4E07"}, {123456.0, "\\u00A512\\u4E07"}, {1234567.0, "\\u00A5120\\u4E07"}, {12345678.0, "\\u00A51200\\u4E07"}, {123456789.0, "\\u00A51.2\\u4EBF"}, {1234567890.0, "\\u00A512\\u4EBF"}, {12345678901.0, "\\u00A5120\\u4EBF"}, {123456789012.0, "\\u00A51200\\u4EBF"}, {1234567890123.0, "\\u00A51.2\\u4E07\\u4EBF"}, {12345678901234.0, "\\u00A512\\u4E07\\u4EBF"}, {123456789012345.0, "\\u00A5120\\u4E07\\u4EBF"}, }; static ExpectedResult kGermanCurrencyTestData[] = { {1.0, "1\\u00A0\\u20AC"}, {12.0, "12\\u00A0\\u20AC"}, {123.0, "120\\u00A0\\u20AC"}, {1234.0, "1200\\u00A0\\u20AC"}, {12345.0, "12.000\\u00A0\\u20AC"}, {123456.0, "120.000\\u00A0\\u20AC"}, {1234567.0, "1,2\\u00A0Mio.\\u00A0\\u20AC"}, {12345678.0, "12\\u00A0Mio.\\u00A0\\u20AC"}, {123456789.0, "120\\u00A0Mio.\\u00A0\\u20AC"}, {1234567890.0, "1,2\\u00A0Mrd.\\u00A0\\u20AC"}, {12345678901.0, "12\\u00A0Mrd.\\u00A0\\u20AC"}, {123456789012.0, "120\\u00A0Mrd.\\u00A0\\u20AC"}, {1234567890123.0, "1,2\\u00A0Bio.\\u00A0\\u20AC"}, {12345678901234.0, "12\\u00A0Bio.\\u00A0\\u20AC"}, {123456789012345.0, "120\\u00A0Bio.\\u00A0\\u20AC"}, }; static ExpectedResult kEnglishCurrencyTestData[] = { {1.0, "$1"}, {12.0, "$12"}, {123.0, "$120"}, {1234.0, "$1.2K"}, {12345.0, "$12K"}, {123456.0, "$120K"}, {1234567.0, "$1.2M"}, {12345678.0, "$12M"}, {123456789.0, "$120M"}, {1234567890.0, "$1.2B"}, {12345678901.0, "$12B"}, {123456789012.0, "$120B"}, {1234567890123.0, "$1.2T"}, {12345678901234.0, "$12T"}, {123456789012345.0, "$120T"}, }; class CompactDecimalFormatTest : public IntlTest { public: CompactDecimalFormatTest() { } void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=0); private: void TestEnglishShort(); void TestSerbianShort(); void TestSerbianLong(); void TestSerbianLongNegative(); void TestJapaneseShort(); void TestSwahiliShort(); void TestCsShort(); void TestSkLong(); void TestSwahiliShortNegative(); void TestEnglishCurrency(); void TestGermanCurrency(); void TestChineseCurrency(); void TestArabicLong(); void TestFieldPosition(); void TestDefaultSignificantDigits(); void TestAPIVariants(); void TestBug12975(); void CheckLocale( const Locale& locale, UNumberCompactStyle style, const ExpectedResult* expectedResults, int32_t expectedResultLength); void CheckLocaleWithCurrency(const Locale& locale, UNumberCompactStyle style, const UChar* currency, const ExpectedResult* expectedResults, int32_t expectedResultLength); void CheckExpectedResult( const CompactDecimalFormat* cdf, const ExpectedResult* expectedResult, const char* description); CompactDecimalFormat* createCDFInstance(const Locale& locale, UNumberCompactStyle style, UErrorCode& status); static const char *StyleStr(UNumberCompactStyle style); }; void CompactDecimalFormatTest::runIndexedTest( int32_t index, UBool exec, const char *&name, char *) { if (exec) { logln("TestSuite CompactDecimalFormatTest: "); } TESTCASE_AUTO_BEGIN; TESTCASE_AUTO(TestEnglishShort); TESTCASE_AUTO(TestSerbianShort); TESTCASE_AUTO(TestSerbianLong); TESTCASE_AUTO(TestSerbianLongNegative); TESTCASE_AUTO(TestJapaneseShort); TESTCASE_AUTO(TestSwahiliShort); TESTCASE_AUTO(TestEnglishCurrency); TESTCASE_AUTO(TestGermanCurrency); TESTCASE_AUTO(TestChineseCurrency); TESTCASE_AUTO(TestCsShort); TESTCASE_AUTO(TestSkLong); TESTCASE_AUTO(TestSwahiliShortNegative); TESTCASE_AUTO(TestArabicLong); TESTCASE_AUTO(TestFieldPosition); TESTCASE_AUTO(TestDefaultSignificantDigits); TESTCASE_AUTO(TestAPIVariants); TESTCASE_AUTO(TestBug12975); TESTCASE_AUTO_END; } void CompactDecimalFormatTest::TestEnglishShort() { CheckLocale("en", UNUM_SHORT, kEnglishShort, UPRV_LENGTHOF(kEnglishShort)); } void CompactDecimalFormatTest::TestSerbianShort() { CheckLocale("sr", UNUM_SHORT, kSerbianShort, UPRV_LENGTHOF(kSerbianShort)); } void CompactDecimalFormatTest::TestSerbianLong() { CheckLocale("sr", UNUM_LONG, kSerbianLong, UPRV_LENGTHOF(kSerbianLong)); } void CompactDecimalFormatTest::TestSerbianLongNegative() { CheckLocale("sr", UNUM_LONG, kSerbianLongNegative, UPRV_LENGTHOF(kSerbianLongNegative)); } void CompactDecimalFormatTest::TestJapaneseShort() { CheckLocale(Locale::getJapan(), UNUM_SHORT, kJapaneseShort, UPRV_LENGTHOF(kJapaneseShort)); } void CompactDecimalFormatTest::TestSwahiliShort() { CheckLocale("sw", UNUM_SHORT, kSwahiliShort, UPRV_LENGTHOF(kSwahiliShort)); } void CompactDecimalFormatTest::TestEnglishCurrency() { CheckLocaleWithCurrency( "en", UNUM_SHORT, u"USD", kEnglishCurrencyTestData, UPRV_LENGTHOF(kEnglishCurrencyTestData)); } void CompactDecimalFormatTest::TestGermanCurrency() { CheckLocaleWithCurrency( "de", UNUM_SHORT, u"EUR", kGermanCurrencyTestData, UPRV_LENGTHOF(kGermanCurrencyTestData)); } void CompactDecimalFormatTest::TestChineseCurrency() { CheckLocaleWithCurrency( "zh", UNUM_SHORT, u"CNY", kChineseCurrencyTestData, UPRV_LENGTHOF(kChineseCurrencyTestData)); } void CompactDecimalFormatTest::TestFieldPosition() { // Swahili uses prefixes which forces offsets in field position to change UErrorCode status = U_ZERO_ERROR; LocalPointer cdf(createCDFInstance("sw", UNUM_SHORT, status)); if (U_FAILURE(status)) { dataerrln("Unable to create format object - %s", u_errorName(status)); return; } FieldPosition fp(UNUM_INTEGER_FIELD); UnicodeString result; cdf->format(1234567.0, result, fp); UnicodeString subString = result.tempSubString(fp.getBeginIndex(), fp.getEndIndex() - fp.getBeginIndex()); if (subString != UnicodeString("1", -1, US_INV)) { errln(UnicodeString("Expected 1, got ") + subString); } } void CompactDecimalFormatTest::TestCsShort() { CheckLocale("cs", UNUM_SHORT, kCsShort, UPRV_LENGTHOF(kCsShort)); } void CompactDecimalFormatTest::TestSkLong() { // In CLDR we have: // 1000 { // few{"0"} // one{"0"} // other{"0"} CheckLocale("sk", UNUM_LONG, kSkLong, UPRV_LENGTHOF(kSkLong)); } void CompactDecimalFormatTest::TestSwahiliShortNegative() { CheckLocale("sw", UNUM_SHORT, kSwahiliShortNegative, UPRV_LENGTHOF(kSwahiliShortNegative)); } void CompactDecimalFormatTest::TestArabicLong() { CheckLocale("ar-EG", UNUM_LONG, kArabicLong, UPRV_LENGTHOF(kArabicLong)); } void CompactDecimalFormatTest::TestDefaultSignificantDigits() { UErrorCode status = U_ZERO_ERROR; LocalPointer cdf(CompactDecimalFormat::createInstance("en", UNUM_SHORT, status)); if (U_FAILURE(status)) { dataerrln("Unable to create format object - %s", u_errorName(status)); return; } // We are expecting two significant digits for compact formats with one or two zeros, // and rounded to the unit for compact formats with three or more zeros. UnicodeString actual; assertEquals("Default significant digits", u"123K", cdf->format(123456, actual.remove())); assertEquals("Default significant digits", u"12K", cdf->format(12345, actual.remove())); assertEquals("Default significant digits", u"1.2K", cdf->format(1234, actual.remove())); assertEquals("Default significant digits", u"123", cdf->format(123, actual.remove())); } void CompactDecimalFormatTest::TestAPIVariants() { UErrorCode status = U_ZERO_ERROR; LocalPointer cdf(CompactDecimalFormat::createInstance("en", UNUM_SHORT, status)); if (U_FAILURE(status)) { dataerrln("Unable to create format object - %s", u_errorName(status)); return; } UnicodeString actual; FieldPosition pos; FieldPositionIterator posIter; UnicodeString expected("123K", -1, US_INV); pos.setField(UNUM_INTEGER_FIELD); actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); cdf->format((double)123456.0, actual, pos); if (actual != expected || pos.getEndIndex() != 3) { errln(UnicodeString("Fail format(double,UnicodeString&,FieldPosition&): Expected: \"") + expected + "\", pos 3; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex()); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); status = U_ZERO_ERROR; cdf->format((double)123456.0, actual, pos, status); if (actual != expected || pos.getEndIndex() != 3 || status != U_ZERO_ERROR) { errln(UnicodeString("Fail format(double,UnicodeString&,FieldPosition&,UErrorCode&): Expected: \"") + expected + "\", pos 3, status U_ZERO_ERROR; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex() + ", status " + u_errorName(status)); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); status = U_ZERO_ERROR; cdf->format((double)123456.0, actual, &posIter, status); posIter.next(pos); if (actual != expected || pos.getEndIndex() != 3 || status != U_ZERO_ERROR) { errln(UnicodeString("Fail format(int32_t,UnicodeString&,FieldPosition&,UErrorCode&): Expected: \"") + expected + "\", first pos 3, status U_ZERO_ERROR; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex() + ", status " + u_errorName(status)); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); cdf->format((int32_t)123456, actual, pos); if (actual != expected || pos.getEndIndex() != 3) { errln(UnicodeString("Fail format(int32_t,UnicodeString&,FieldPosition&): Expected: \"") + expected + "\", pos 3; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex()); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); status = U_ZERO_ERROR; cdf->format((int32_t)123456, actual, pos, status); if (actual != expected || pos.getEndIndex() != 3 || status != U_ZERO_ERROR) { errln(UnicodeString("Fail format(int32_t,UnicodeString&,FieldPosition&,UErrorCode&): Expected: \"") + expected + "\", pos 3, status U_ZERO_ERROR; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex() + ", status " + u_errorName(status)); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); status = U_ZERO_ERROR; cdf->format((int32_t)123456, actual, &posIter, status); posIter.next(pos); if (actual != expected || pos.getEndIndex() != 3 || status != U_ZERO_ERROR) { errln(UnicodeString("Fail format(int32_t,UnicodeString&,FieldPosition&,UErrorCode&): Expected: \"") + expected + "\", first pos 3, status U_ZERO_ERROR; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex() + ", status " + u_errorName(status)); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); cdf->format((int64_t)123456, actual, pos); if (actual != expected || pos.getEndIndex() != 3) { errln(UnicodeString("Fail format(int64_t,UnicodeString&,FieldPosition&): Expected: \"") + expected + "\", pos 3; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex()); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); status = U_ZERO_ERROR; cdf->format((int64_t)123456, actual, pos, status); if (actual != expected || pos.getEndIndex() != 3 || status != U_ZERO_ERROR) { errln(UnicodeString("Fail format(int64_t,UnicodeString&,FieldPosition&,UErrorCode&): Expected: \"") + expected + "\", pos 3, status U_ZERO_ERROR; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex() + ", status " + u_errorName(status)); } actual.remove(); pos.setBeginIndex(0); pos.setEndIndex(0); status = U_ZERO_ERROR; cdf->format((int64_t)123456, actual, &posIter, status); posIter.next(pos); if (actual != expected || pos.getEndIndex() != 3 || status != U_ZERO_ERROR) { errln(UnicodeString("Fail format(int32_t,UnicodeString&,FieldPosition&,UErrorCode&): Expected: \"") + expected + "\", first pos 3, status U_ZERO_ERROR; " + "Got: \"" + actual + "\", pos " + pos.getEndIndex() + ", status " + u_errorName(status)); } } void CompactDecimalFormatTest::TestBug12975() { IcuTestErrorCode status(*this, "TestBug12975"); Locale locale("it"); LocalPointer cdf(CompactDecimalFormat::createInstance(locale, UNUM_SHORT, status)); if (assertSuccess("", status, true, __FILE__, __LINE__)) { UnicodeString resultCdf; cdf->format(12000, resultCdf); LocalPointer df((DecimalFormat*) DecimalFormat::createInstance(locale, status)); UnicodeString resultDefault; df->format(12000, resultDefault); assertEquals("CompactDecimalFormat should use default pattern when compact pattern is unavailable", resultDefault, resultCdf); } } // End test cases. Helpers: void CompactDecimalFormatTest::CheckLocale(const Locale& locale, UNumberCompactStyle style, const ExpectedResult* expectedResults, int32_t expectedResultLength) { UErrorCode status = U_ZERO_ERROR; LocalPointer cdf(createCDFInstance(locale, style, status)); if (U_FAILURE(status)) { dataerrln("Unable to create format object - %s", u_errorName(status)); return; } char description[256]; sprintf(description,"%s - %s", locale.getName(), StyleStr(style)); for (int32_t i = 0; i < expectedResultLength; i++) { CheckExpectedResult(cdf.getAlias(), &expectedResults[i], description); } } void CompactDecimalFormatTest::CheckLocaleWithCurrency(const Locale& locale, UNumberCompactStyle style, const UChar* currency, const ExpectedResult* expectedResults, int32_t expectedResultLength) { UErrorCode status = U_ZERO_ERROR; LocalPointer cdf(createCDFInstance(locale, style, status)); if (U_FAILURE(status)) { dataerrln("Unable to create format object - %s", u_errorName(status)); return; } cdf->setCurrency(currency, status); assertSuccess("Failed to set currency", status); char description[256]; sprintf(description,"%s - %s", locale.getName(), StyleStr(style)); for (int32_t i = 0; i < expectedResultLength; i++) { CheckExpectedResult(cdf.getAlias(), &expectedResults[i], description); } } void CompactDecimalFormatTest::CheckExpectedResult( const CompactDecimalFormat* cdf, const ExpectedResult* expectedResult, const char* description) { UnicodeString actual; cdf->format(expectedResult->value, actual); UnicodeString expected(expectedResult->expected, -1, US_INV); expected = expected.unescape(); if (actual != expected) { errln(UnicodeString("Fail: Expected: ") + expected + UnicodeString(" Got: ") + actual + UnicodeString(" for: ") + UnicodeString(description)); } } CompactDecimalFormat* CompactDecimalFormatTest::createCDFInstance(const Locale& locale, UNumberCompactStyle style, UErrorCode& status) { CompactDecimalFormat* result = CompactDecimalFormat::createInstance(locale, style, status); if (U_FAILURE(status)) { return NULL; } // All tests are written for two significant digits, so we explicitly set here // in case default significant digits change. result->setMaximumSignificantDigits(2); return result; } const char *CompactDecimalFormatTest::StyleStr(UNumberCompactStyle style) { if (style == UNUM_SHORT) { return kShortStr; } return kLongStr; } extern IntlTest *createCompactDecimalFormatTest() { return new CompactDecimalFormatTest(); } #endif