/* ******************************************************************************* * Copyright (C) 2014, International Business Machines Corporation and * * others. All Rights Reserved. * ******************************************************************************* * * File MEASFMTTEST.CPP * ******************************************************************************* */ #include #include #include "intltest.h" #if !UCONFIG_NO_FORMATTING #include "unicode/decimfmt.h" #include "unicode/measfmt.h" #include "unicode/measure.h" #include "unicode/measunit.h" #include "unicode/tmunit.h" #include "unicode/plurrule.h" #include "charstr.h" #include "unicode/reldatefmt.h" struct ExpectedResult { const Measure *measures; int32_t count; const char *expected; }; class MeasureFormatTest : public IntlTest { public: MeasureFormatTest() { } void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=0); private: void TestBasic(); void TestCompatible53_1(); void TestCompatible54_1(); void TestGetAvailable(); void TestExamplesInDocs(); void TestFormatPeriodEn(); void Test10219FractionalPlurals(); void TestGreek(); void TestFormatSingleArg(); void TestFormatMeasuresZeroArg(); void TestMultiplesWithPer(); void TestSimplePer(); void TestNumeratorPlurals(); void TestMultiples(); void TestGram(); void TestCurrencies(); void TestFieldPosition(); void TestFieldPositionMultiple(); void TestFieldPositionMultipleWithPer(); void TestBadArg(); void TestEquality(); void TestGroupingSeparator(); void TestDoubleZero(); void verifyFormat( const char *description, const MeasureFormat &fmt, const Measure *measures, int32_t measureCount, const char *expected); void verifyFormatWithPrefix( const char *description, const MeasureFormat &fmt, const UnicodeString &prefix, const Measure *measures, int32_t measureCount, const char *expected); void verifyFormat( const char *description, const MeasureFormat &fmt, const ExpectedResult *expectedResults, int32_t count); void helperTestSimplePer( const Locale &locale, UMeasureFormatWidth width, double value, const MeasureUnit &unit, const MeasureUnit &perUnit, const char *expected); void helperTestMultiplesWithPer( const Locale &locale, UMeasureFormatWidth width, const MeasureUnit &unit, const char *expected); void helperTestMultiples( const Locale &locale, UMeasureFormatWidth width, const char *expected); void verifyFieldPosition( const char *description, const MeasureFormat &fmt, const UnicodeString &prefix, const Measure *measures, int32_t measureCount, NumberFormat::EAlignmentFields field, int32_t start, int32_t end); void verifyFieldPositionWithPer( const char *description, const MeasureFormat &fmt, const UnicodeString &prefix, const Measure *measures, int32_t measureCount, const MeasureUnit &perUnit, NumberFormat::EAlignmentFields field, int32_t start, int32_t end); }; void MeasureFormatTest::runIndexedTest( int32_t index, UBool exec, const char *&name, char *) { if (exec) { logln("TestSuite MeasureFormatTest: "); } TESTCASE_AUTO_BEGIN; TESTCASE_AUTO(TestBasic); TESTCASE_AUTO(TestCompatible53_1); TESTCASE_AUTO(TestCompatible54_1); TESTCASE_AUTO(TestGetAvailable); TESTCASE_AUTO(TestExamplesInDocs); TESTCASE_AUTO(TestFormatPeriodEn); TESTCASE_AUTO(Test10219FractionalPlurals); TESTCASE_AUTO(TestGreek); TESTCASE_AUTO(TestFormatSingleArg); TESTCASE_AUTO(TestFormatMeasuresZeroArg); TESTCASE_AUTO(TestMultiplesWithPer); TESTCASE_AUTO(TestSimplePer); TESTCASE_AUTO(TestNumeratorPlurals); TESTCASE_AUTO(TestMultiples); TESTCASE_AUTO(TestGram); TESTCASE_AUTO(TestCurrencies); TESTCASE_AUTO(TestFieldPosition); TESTCASE_AUTO(TestFieldPositionMultiple); TESTCASE_AUTO(TestFieldPositionMultipleWithPer); TESTCASE_AUTO(TestBadArg); TESTCASE_AUTO(TestEquality); TESTCASE_AUTO(TestGroupingSeparator); TESTCASE_AUTO(TestDoubleZero); TESTCASE_AUTO_END; } void MeasureFormatTest::TestCompatible53_1() { UErrorCode status = U_ZERO_ERROR; LocalPointer measureUnit; measureUnit.adoptInstead(MeasureUnit::createGForce(status)); measureUnit.adoptInstead(MeasureUnit::createArcMinute(status)); measureUnit.adoptInstead(MeasureUnit::createArcSecond(status)); measureUnit.adoptInstead(MeasureUnit::createDegree(status)); measureUnit.adoptInstead(MeasureUnit::createAcre(status)); measureUnit.adoptInstead(MeasureUnit::createHectare(status)); measureUnit.adoptInstead(MeasureUnit::createSquareFoot(status)); measureUnit.adoptInstead(MeasureUnit::createSquareKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createSquareMeter(status)); measureUnit.adoptInstead(MeasureUnit::createSquareMile(status)); measureUnit.adoptInstead(MeasureUnit::createDay(status)); measureUnit.adoptInstead(MeasureUnit::createHour(status)); measureUnit.adoptInstead(MeasureUnit::createMillisecond(status)); measureUnit.adoptInstead(MeasureUnit::createMinute(status)); measureUnit.adoptInstead(MeasureUnit::createMonth(status)); measureUnit.adoptInstead(MeasureUnit::createSecond(status)); measureUnit.adoptInstead(MeasureUnit::createWeek(status)); measureUnit.adoptInstead(MeasureUnit::createYear(status)); measureUnit.adoptInstead(MeasureUnit::createCentimeter(status)); measureUnit.adoptInstead(MeasureUnit::createFoot(status)); measureUnit.adoptInstead(MeasureUnit::createInch(status)); measureUnit.adoptInstead(MeasureUnit::createKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createLightYear(status)); measureUnit.adoptInstead(MeasureUnit::createMeter(status)); measureUnit.adoptInstead(MeasureUnit::createMile(status)); measureUnit.adoptInstead(MeasureUnit::createMillimeter(status)); measureUnit.adoptInstead(MeasureUnit::createPicometer(status)); measureUnit.adoptInstead(MeasureUnit::createYard(status)); measureUnit.adoptInstead(MeasureUnit::createGram(status)); measureUnit.adoptInstead(MeasureUnit::createKilogram(status)); measureUnit.adoptInstead(MeasureUnit::createOunce(status)); measureUnit.adoptInstead(MeasureUnit::createPound(status)); measureUnit.adoptInstead(MeasureUnit::createHorsepower(status)); measureUnit.adoptInstead(MeasureUnit::createKilowatt(status)); measureUnit.adoptInstead(MeasureUnit::createWatt(status)); measureUnit.adoptInstead(MeasureUnit::createHectopascal(status)); measureUnit.adoptInstead(MeasureUnit::createInchHg(status)); measureUnit.adoptInstead(MeasureUnit::createMillibar(status)); measureUnit.adoptInstead(MeasureUnit::createKilometerPerHour(status)); measureUnit.adoptInstead(MeasureUnit::createMeterPerSecond(status)); measureUnit.adoptInstead(MeasureUnit::createMilePerHour(status)); measureUnit.adoptInstead(MeasureUnit::createCelsius(status)); measureUnit.adoptInstead(MeasureUnit::createFahrenheit(status)); measureUnit.adoptInstead(MeasureUnit::createCubicKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createCubicMile(status)); measureUnit.adoptInstead(MeasureUnit::createLiter(status)); assertSuccess("", status); } void MeasureFormatTest::TestCompatible54_1() { UErrorCode status = U_ZERO_ERROR; LocalPointer measureUnit; measureUnit.adoptInstead(MeasureUnit::createGForce(status)); measureUnit.adoptInstead(MeasureUnit::createMeterPerSecondSquared(status)); measureUnit.adoptInstead(MeasureUnit::createArcMinute(status)); measureUnit.adoptInstead(MeasureUnit::createArcSecond(status)); measureUnit.adoptInstead(MeasureUnit::createDegree(status)); measureUnit.adoptInstead(MeasureUnit::createRadian(status)); measureUnit.adoptInstead(MeasureUnit::createAcre(status)); measureUnit.adoptInstead(MeasureUnit::createHectare(status)); measureUnit.adoptInstead(MeasureUnit::createSquareCentimeter(status)); measureUnit.adoptInstead(MeasureUnit::createSquareFoot(status)); measureUnit.adoptInstead(MeasureUnit::createSquareInch(status)); measureUnit.adoptInstead(MeasureUnit::createSquareKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createSquareMeter(status)); measureUnit.adoptInstead(MeasureUnit::createSquareMile(status)); measureUnit.adoptInstead(MeasureUnit::createSquareYard(status)); measureUnit.adoptInstead(MeasureUnit::createLiterPerKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createMilePerGallon(status)); measureUnit.adoptInstead(MeasureUnit::createBit(status)); measureUnit.adoptInstead(MeasureUnit::createByte(status)); measureUnit.adoptInstead(MeasureUnit::createGigabit(status)); measureUnit.adoptInstead(MeasureUnit::createGigabyte(status)); measureUnit.adoptInstead(MeasureUnit::createKilobit(status)); measureUnit.adoptInstead(MeasureUnit::createKilobyte(status)); measureUnit.adoptInstead(MeasureUnit::createMegabit(status)); measureUnit.adoptInstead(MeasureUnit::createMegabyte(status)); measureUnit.adoptInstead(MeasureUnit::createTerabit(status)); measureUnit.adoptInstead(MeasureUnit::createTerabyte(status)); measureUnit.adoptInstead(MeasureUnit::createDay(status)); measureUnit.adoptInstead(MeasureUnit::createHour(status)); measureUnit.adoptInstead(MeasureUnit::createMicrosecond(status)); measureUnit.adoptInstead(MeasureUnit::createMillisecond(status)); measureUnit.adoptInstead(MeasureUnit::createMinute(status)); measureUnit.adoptInstead(MeasureUnit::createMonth(status)); measureUnit.adoptInstead(MeasureUnit::createNanosecond(status)); measureUnit.adoptInstead(MeasureUnit::createSecond(status)); measureUnit.adoptInstead(MeasureUnit::createWeek(status)); measureUnit.adoptInstead(MeasureUnit::createYear(status)); measureUnit.adoptInstead(MeasureUnit::createAmpere(status)); measureUnit.adoptInstead(MeasureUnit::createMilliampere(status)); measureUnit.adoptInstead(MeasureUnit::createOhm(status)); measureUnit.adoptInstead(MeasureUnit::createVolt(status)); measureUnit.adoptInstead(MeasureUnit::createCalorie(status)); measureUnit.adoptInstead(MeasureUnit::createFoodcalorie(status)); measureUnit.adoptInstead(MeasureUnit::createJoule(status)); measureUnit.adoptInstead(MeasureUnit::createKilocalorie(status)); measureUnit.adoptInstead(MeasureUnit::createKilojoule(status)); measureUnit.adoptInstead(MeasureUnit::createKilowattHour(status)); measureUnit.adoptInstead(MeasureUnit::createGigahertz(status)); measureUnit.adoptInstead(MeasureUnit::createHertz(status)); measureUnit.adoptInstead(MeasureUnit::createKilohertz(status)); measureUnit.adoptInstead(MeasureUnit::createMegahertz(status)); measureUnit.adoptInstead(MeasureUnit::createAstronomicalUnit(status)); measureUnit.adoptInstead(MeasureUnit::createCentimeter(status)); measureUnit.adoptInstead(MeasureUnit::createDecimeter(status)); measureUnit.adoptInstead(MeasureUnit::createFathom(status)); measureUnit.adoptInstead(MeasureUnit::createFoot(status)); measureUnit.adoptInstead(MeasureUnit::createFurlong(status)); measureUnit.adoptInstead(MeasureUnit::createInch(status)); measureUnit.adoptInstead(MeasureUnit::createKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createLightYear(status)); measureUnit.adoptInstead(MeasureUnit::createMeter(status)); measureUnit.adoptInstead(MeasureUnit::createMicrometer(status)); measureUnit.adoptInstead(MeasureUnit::createMile(status)); measureUnit.adoptInstead(MeasureUnit::createMillimeter(status)); measureUnit.adoptInstead(MeasureUnit::createNanometer(status)); measureUnit.adoptInstead(MeasureUnit::createNauticalMile(status)); measureUnit.adoptInstead(MeasureUnit::createParsec(status)); measureUnit.adoptInstead(MeasureUnit::createPicometer(status)); measureUnit.adoptInstead(MeasureUnit::createYard(status)); measureUnit.adoptInstead(MeasureUnit::createLux(status)); measureUnit.adoptInstead(MeasureUnit::createCarat(status)); measureUnit.adoptInstead(MeasureUnit::createGram(status)); measureUnit.adoptInstead(MeasureUnit::createKilogram(status)); measureUnit.adoptInstead(MeasureUnit::createMetricTon(status)); measureUnit.adoptInstead(MeasureUnit::createMicrogram(status)); measureUnit.adoptInstead(MeasureUnit::createMilligram(status)); measureUnit.adoptInstead(MeasureUnit::createOunce(status)); measureUnit.adoptInstead(MeasureUnit::createOunceTroy(status)); measureUnit.adoptInstead(MeasureUnit::createPound(status)); measureUnit.adoptInstead(MeasureUnit::createStone(status)); measureUnit.adoptInstead(MeasureUnit::createTon(status)); measureUnit.adoptInstead(MeasureUnit::createGigawatt(status)); measureUnit.adoptInstead(MeasureUnit::createHorsepower(status)); measureUnit.adoptInstead(MeasureUnit::createKilowatt(status)); measureUnit.adoptInstead(MeasureUnit::createMegawatt(status)); measureUnit.adoptInstead(MeasureUnit::createMilliwatt(status)); measureUnit.adoptInstead(MeasureUnit::createWatt(status)); measureUnit.adoptInstead(MeasureUnit::createHectopascal(status)); measureUnit.adoptInstead(MeasureUnit::createInchHg(status)); measureUnit.adoptInstead(MeasureUnit::createMillibar(status)); measureUnit.adoptInstead(MeasureUnit::createMillimeterOfMercury(status)); measureUnit.adoptInstead(MeasureUnit::createPoundPerSquareInch(status)); measureUnit.adoptInstead(MeasureUnit::createKarat(status)); measureUnit.adoptInstead(MeasureUnit::createKilometerPerHour(status)); measureUnit.adoptInstead(MeasureUnit::createMeterPerSecond(status)); measureUnit.adoptInstead(MeasureUnit::createMilePerHour(status)); measureUnit.adoptInstead(MeasureUnit::createCelsius(status)); measureUnit.adoptInstead(MeasureUnit::createFahrenheit(status)); measureUnit.adoptInstead(MeasureUnit::createKelvin(status)); measureUnit.adoptInstead(MeasureUnit::createAcreFoot(status)); measureUnit.adoptInstead(MeasureUnit::createBushel(status)); measureUnit.adoptInstead(MeasureUnit::createCentiliter(status)); measureUnit.adoptInstead(MeasureUnit::createCubicCentimeter(status)); measureUnit.adoptInstead(MeasureUnit::createCubicFoot(status)); measureUnit.adoptInstead(MeasureUnit::createCubicInch(status)); measureUnit.adoptInstead(MeasureUnit::createCubicKilometer(status)); measureUnit.adoptInstead(MeasureUnit::createCubicMeter(status)); measureUnit.adoptInstead(MeasureUnit::createCubicMile(status)); measureUnit.adoptInstead(MeasureUnit::createCubicYard(status)); measureUnit.adoptInstead(MeasureUnit::createCup(status)); measureUnit.adoptInstead(MeasureUnit::createDeciliter(status)); measureUnit.adoptInstead(MeasureUnit::createFluidOunce(status)); measureUnit.adoptInstead(MeasureUnit::createGallon(status)); measureUnit.adoptInstead(MeasureUnit::createHectoliter(status)); measureUnit.adoptInstead(MeasureUnit::createLiter(status)); measureUnit.adoptInstead(MeasureUnit::createMegaliter(status)); measureUnit.adoptInstead(MeasureUnit::createMilliliter(status)); measureUnit.adoptInstead(MeasureUnit::createPint(status)); measureUnit.adoptInstead(MeasureUnit::createQuart(status)); measureUnit.adoptInstead(MeasureUnit::createTablespoon(status)); measureUnit.adoptInstead(MeasureUnit::createTeaspoon(status)); assertSuccess("", status); } void MeasureFormatTest::TestBasic() { UErrorCode status = U_ZERO_ERROR; MeasureUnit *ptr1 = MeasureUnit::createArcMinute(status); MeasureUnit *ptr2 = MeasureUnit::createArcMinute(status); if (!(*ptr1 == *ptr2)) { errln("Expect == to work."); } if (*ptr1 != *ptr2) { errln("Expect != to work."); } MeasureUnit *ptr3 = MeasureUnit::createMeter(status); if (*ptr1 == *ptr3) { errln("Expect == to work."); } if (!(*ptr1 != *ptr3)) { errln("Expect != to work."); } MeasureUnit *ptr4 = (MeasureUnit *) ptr1->clone(); if (*ptr1 != *ptr4) { errln("Expect clone to work."); } MeasureUnit stack; stack = *ptr1; if (*ptr1 != stack) { errln("Expect assignment to work."); } delete ptr1; delete ptr2; delete ptr3; delete ptr4; } void MeasureFormatTest::TestGetAvailable() { MeasureUnit *units = NULL; UErrorCode status = U_ZERO_ERROR; int32_t totalCount = MeasureUnit::getAvailable(units, 0, status); while (status == U_BUFFER_OVERFLOW_ERROR) { status = U_ZERO_ERROR; delete [] units; units = new MeasureUnit[totalCount]; totalCount = MeasureUnit::getAvailable(units, totalCount, status); } if (U_FAILURE(status)) { dataerrln("Failure creating format object - %s", u_errorName(status)); delete [] units; return; } if (totalCount < 200) { errln("Expect at least 200 measure units including currencies."); } delete [] units; StringEnumeration *types = MeasureUnit::getAvailableTypes(status); if (U_FAILURE(status)) { dataerrln("Failure getting types - %s", u_errorName(status)); delete types; return; } if (types->count(status) < 10) { errln("Expect at least 10 distinct unit types."); } units = NULL; int32_t unitCapacity = 0; int32_t unitCountSum = 0; for ( const char* type = types->next(NULL, status); type != NULL; type = types->next(NULL, status)) { int32_t unitCount = MeasureUnit::getAvailable(type, units, unitCapacity, status); while (status == U_BUFFER_OVERFLOW_ERROR) { status = U_ZERO_ERROR; delete [] units; units = new MeasureUnit[unitCount]; unitCapacity = unitCount; unitCount = MeasureUnit::getAvailable(type, units, unitCapacity, status); } if (U_FAILURE(status)) { dataerrln("Failure getting units - %s", u_errorName(status)); delete [] units; delete types; return; } if (unitCount < 1) { errln("Expect at least one unit count per type."); } unitCountSum += unitCount; } if (unitCountSum != totalCount) { errln("Expected total unit count to equal sum of unit counts by type."); } delete [] units; delete types; } void MeasureFormatTest::TestExamplesInDocs() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmtFr(Locale::getFrench(), UMEASFMT_WIDTH_SHORT, status); MeasureFormat fmtFrFull( Locale::getFrench(), UMEASFMT_WIDTH_WIDE, status); MeasureFormat fmtFrNarrow( Locale::getFrench(), UMEASFMT_WIDTH_NARROW, status); MeasureFormat fmtEn(Locale::getUS(), UMEASFMT_WIDTH_WIDE, status); if (!assertSuccess("Error creating formatters", status)) { return; } Measure measureC(23, MeasureUnit::createCelsius(status), status); Measure measureF(70, MeasureUnit::createFahrenheit(status), status); Measure feetAndInches[] = { Measure(70, MeasureUnit::createFoot(status), status), Measure(5.3, MeasureUnit::createInch(status), status)}; Measure footAndInch[] = { Measure(1, MeasureUnit::createFoot(status), status), Measure(1, MeasureUnit::createInch(status), status)}; Measure inchAndFeet[] = { Measure(1, MeasureUnit::createInch(status), status), Measure(2, MeasureUnit::createFoot(status), status)}; if (!assertSuccess("Error creating measurements.", status)) { return; } verifyFormat( "Celsius", fmtFr, &measureC, 1, "23 \\u00B0C"); verifyFormatWithPrefix( "Celsius", fmtFr, "Prefix: ", &measureC, 1, "Prefix: 23 \\u00B0C"); verifyFormat( "Fahrenheit", fmtFr, &measureF, 1, "70 \\u00B0F"); verifyFormat( "Feet and inches", fmtFrFull, feetAndInches, UPRV_LENGTHOF(feetAndInches), "70 pieds et 5,3 pouces"); verifyFormatWithPrefix( "Feet and inches", fmtFrFull, "Prefix: ", feetAndInches, UPRV_LENGTHOF(feetAndInches), "Prefix: 70 pieds et 5,3 pouces"); verifyFormat( "Foot and inch", fmtFrFull, footAndInch, UPRV_LENGTHOF(footAndInch), "1 pied et 1 pouce"); verifyFormat( "Foot and inch narrow", fmtFrNarrow, footAndInch, UPRV_LENGTHOF(footAndInch), "1\\u2032 1\\u2033"); verifyFormat( "Inch and feet", fmtEn, inchAndFeet, UPRV_LENGTHOF(inchAndFeet), "1 inch, 2 feet"); } void MeasureFormatTest::TestFormatPeriodEn() { UErrorCode status = U_ZERO_ERROR; Measure t_19m[] = {Measure(19, MeasureUnit::createMinute(status), status)}; Measure t_1h_23_5s[] = { Measure(1.0, MeasureUnit::createHour(status), status), Measure(23.5, MeasureUnit::createSecond(status), status) }; Measure t_1h_23_5m[] = { Measure(1.0, MeasureUnit::createHour(status), status), Measure(23.5, MeasureUnit::createMinute(status), status) }; Measure t_1h_0m_23s[] = { Measure( 1.0, TimeUnit::createInstance( TimeUnit::UTIMEUNIT_HOUR, status), status), Measure( 0.0, TimeUnit::createInstance( TimeUnit::UTIMEUNIT_MINUTE, status), status), Measure( 23, TimeUnit::createInstance( TimeUnit::UTIMEUNIT_SECOND, status), status) }; Measure t_2y_5M_3w_4d[] = { Measure(2.0, MeasureUnit::createYear(status), status), Measure(5.0, MeasureUnit::createMonth(status), status), Measure(3.0, MeasureUnit::createWeek(status), status), Measure(4.0, MeasureUnit::createDay(status), status) }; Measure t_1m_59_9996s[] = { Measure(1.0, MeasureUnit::createMinute(status), status), Measure(59.9996, MeasureUnit::createSecond(status), status) }; Measure t_5h_17m[] = { Measure(5.0, MeasureUnit::createHour(status), status), Measure(17.0, MeasureUnit::createMinute(status), status) }; Measure t_neg5h_17m[] = { Measure(-5.0, MeasureUnit::createHour(status), status), Measure(17.0, MeasureUnit::createMinute(status), status) }; Measure t_19m_28s[] = { Measure(19.0, MeasureUnit::createMinute(status), status), Measure(28.0, MeasureUnit::createSecond(status), status) }; Measure t_0h_0m_9s[] = { Measure(0.0, MeasureUnit::createHour(status), status), Measure(0.0, MeasureUnit::createMinute(status), status), Measure(9.0, MeasureUnit::createSecond(status), status) }; Measure t_0h_0m_17s[] = { Measure(0.0, MeasureUnit::createHour(status), status), Measure(0.0, MeasureUnit::createMinute(status), status), Measure(17.0, MeasureUnit::createSecond(status), status) }; Measure t_6h_56_92m[] = { Measure(6.0, MeasureUnit::createHour(status), status), Measure(56.92, MeasureUnit::createMinute(status), status) }; Measure t_3h_4s_5m[] = { Measure(3.0, MeasureUnit::createHour(status), status), Measure(4.0, MeasureUnit::createSecond(status), status), Measure(5.0, MeasureUnit::createMinute(status), status) }; Measure t_6_7h_56_92m[] = { Measure(6.7, MeasureUnit::createHour(status), status), Measure(56.92, MeasureUnit::createMinute(status), status) }; Measure t_3h_5h[] = { Measure(3.0, MeasureUnit::createHour(status), status), Measure(5.0, MeasureUnit::createHour(status), status) }; if (!assertSuccess("Error creating Measure objects", status)) { return; } ExpectedResult fullData[] = { {t_1m_59_9996s, UPRV_LENGTHOF(t_1m_59_9996s), "1 minute, 59.9996 seconds"}, {t_19m, UPRV_LENGTHOF(t_19m), "19 minutes"}, {t_1h_23_5s, UPRV_LENGTHOF(t_1h_23_5s), "1 hour, 23.5 seconds"}, {t_1h_23_5m, UPRV_LENGTHOF(t_1h_23_5m), "1 hour, 23.5 minutes"}, {t_1h_0m_23s, UPRV_LENGTHOF(t_1h_0m_23s), "1 hour, 0 minutes, 23 seconds"}, {t_2y_5M_3w_4d, UPRV_LENGTHOF(t_2y_5M_3w_4d), "2 years, 5 months, 3 weeks, 4 days"}}; ExpectedResult abbrevData[] = { {t_1m_59_9996s, UPRV_LENGTHOF(t_1m_59_9996s), "1 min, 59.9996 secs"}, {t_19m, UPRV_LENGTHOF(t_19m), "19 mins"}, {t_1h_23_5s, UPRV_LENGTHOF(t_1h_23_5s), "1 hr, 23.5 secs"}, {t_1h_23_5m, UPRV_LENGTHOF(t_1h_23_5m), "1 hr, 23.5 mins"}, {t_1h_0m_23s, UPRV_LENGTHOF(t_1h_0m_23s), "1 hr, 0 mins, 23 secs"}, {t_2y_5M_3w_4d, UPRV_LENGTHOF(t_2y_5M_3w_4d), "2 yrs, 5 mths, 3 wks, 4 days"}}; ExpectedResult narrowData[] = { {t_1m_59_9996s, UPRV_LENGTHOF(t_1m_59_9996s), "1m 59.9996s"}, {t_19m, UPRV_LENGTHOF(t_19m), "19m"}, {t_1h_23_5s, UPRV_LENGTHOF(t_1h_23_5s), "1h 23.5s"}, {t_1h_23_5m, UPRV_LENGTHOF(t_1h_23_5m), "1h 23.5m"}, {t_1h_0m_23s, UPRV_LENGTHOF(t_1h_0m_23s), "1h 0m 23s"}, {t_2y_5M_3w_4d, UPRV_LENGTHOF(t_2y_5M_3w_4d), "2y 5m 3w 4d"}}; ExpectedResult numericData[] = { {t_1m_59_9996s, UPRV_LENGTHOF(t_1m_59_9996s), "1:59.9996"}, {t_19m, UPRV_LENGTHOF(t_19m), "19m"}, {t_1h_23_5s, UPRV_LENGTHOF(t_1h_23_5s), "1:00:23.5"}, {t_1h_23_5m, UPRV_LENGTHOF(t_1h_23_5m), "1:23.5"}, {t_1h_0m_23s, UPRV_LENGTHOF(t_1h_0m_23s), "1:00:23"}, {t_5h_17m, UPRV_LENGTHOF(t_5h_17m), "5:17"}, {t_neg5h_17m, UPRV_LENGTHOF(t_neg5h_17m), "-5h 17m"}, {t_19m_28s, UPRV_LENGTHOF(t_19m_28s), "19:28"}, {t_2y_5M_3w_4d, UPRV_LENGTHOF(t_2y_5M_3w_4d), "2y 5m 3w 4d"}, {t_0h_0m_9s, UPRV_LENGTHOF(t_0h_0m_9s), "0:00:09"}, {t_6h_56_92m, UPRV_LENGTHOF(t_6h_56_92m), "6:56.92"}, {t_6_7h_56_92m, UPRV_LENGTHOF(t_6_7h_56_92m), "6:56.92"}, {t_3h_4s_5m, UPRV_LENGTHOF(t_3h_4s_5m), "3h 4s 5m"}, {t_3h_5h, UPRV_LENGTHOF(t_3h_5h), "3h 5h"}}; ExpectedResult fullDataDe[] = { {t_1m_59_9996s, UPRV_LENGTHOF(t_1m_59_9996s), "1 Minute und 59,9996 Sekunden"}, {t_19m, UPRV_LENGTHOF(t_19m), "19 Minuten"}, {t_1h_23_5s, UPRV_LENGTHOF(t_1h_23_5s), "1 Stunde und 23,5 Sekunden"}, {t_1h_23_5m, UPRV_LENGTHOF(t_1h_23_5m), "1 Stunde und 23,5 Minuten"}, {t_1h_0m_23s, UPRV_LENGTHOF(t_1h_0m_23s), "1 Stunde, 0 Minuten und 23 Sekunden"}, {t_2y_5M_3w_4d, UPRV_LENGTHOF(t_2y_5M_3w_4d), "2 Jahre, 5 Monate, 3 Wochen und 4 Tage"}}; ExpectedResult numericDataDe[] = { {t_1m_59_9996s, UPRV_LENGTHOF(t_1m_59_9996s), "1:59,9996"}, {t_19m, UPRV_LENGTHOF(t_19m), "19 Min."}, {t_1h_23_5s, UPRV_LENGTHOF(t_1h_23_5s), "1:00:23,5"}, {t_1h_23_5m, UPRV_LENGTHOF(t_1h_23_5m), "1:23,5"}, {t_1h_0m_23s, UPRV_LENGTHOF(t_1h_0m_23s), "1:00:23"}, {t_5h_17m, UPRV_LENGTHOF(t_5h_17m), "5:17"}, {t_19m_28s, UPRV_LENGTHOF(t_19m_28s), "19:28"}, {t_2y_5M_3w_4d, UPRV_LENGTHOF(t_2y_5M_3w_4d), "2 J, 5 M, 3 W und 4 T"}, {t_0h_0m_17s, UPRV_LENGTHOF(t_0h_0m_17s), "0:00:17"}, {t_6h_56_92m, UPRV_LENGTHOF(t_6h_56_92m), "6:56,92"}, {t_3h_5h, UPRV_LENGTHOF(t_3h_5h), "3 Std., 5 Std."}}; Locale en(Locale::getEnglish()); LocalPointer nf(NumberFormat::createInstance(en, status)); if (U_FAILURE(status)) { dataerrln("Error creating number format en object - %s", u_errorName(status)); return; } nf->setMaximumFractionDigits(4); MeasureFormat mf(en, UMEASFMT_WIDTH_WIDE, (NumberFormat *) nf->clone(), status); if (!assertSuccess("Error creating measure format en WIDE", status)) { return; } verifyFormat("en WIDE", mf, fullData, UPRV_LENGTHOF(fullData)); // exercise copy constructor { MeasureFormat mf2(mf); verifyFormat("en WIDE copy", mf2, fullData, UPRV_LENGTHOF(fullData)); } // exercise clone { MeasureFormat *mf3 = (MeasureFormat *) mf.clone(); verifyFormat("en WIDE copy", *mf3, fullData, UPRV_LENGTHOF(fullData)); delete mf3; } mf = MeasureFormat(en, UMEASFMT_WIDTH_SHORT, (NumberFormat *) nf->clone(), status); if (!assertSuccess("Error creating measure format en SHORT", status)) { return; } verifyFormat("en SHORT", mf, abbrevData, UPRV_LENGTHOF(abbrevData)); mf = MeasureFormat(en, UMEASFMT_WIDTH_NARROW, (NumberFormat *) nf->clone(), status); if (!assertSuccess("Error creating measure format en NARROW", status)) { return; } verifyFormat("en NARROW", mf, narrowData, UPRV_LENGTHOF(narrowData)); mf = MeasureFormat(en, UMEASFMT_WIDTH_NUMERIC, (NumberFormat *) nf->clone(), status); if (!assertSuccess("Error creating measure format en NUMERIC", status)) { return; } verifyFormat("en NUMERIC", mf, numericData, UPRV_LENGTHOF(numericData)); Locale de(Locale::getGerman()); nf.adoptInstead(NumberFormat::createInstance(de, status)); if (!assertSuccess("Error creating number format de object", status)) { return; } nf->setMaximumFractionDigits(4); mf = MeasureFormat(de, UMEASFMT_WIDTH_WIDE, (NumberFormat *) nf->clone(), status); if (!assertSuccess("Error creating measure format de WIDE", status)) { return; } verifyFormat("de WIDE", mf, fullDataDe, UPRV_LENGTHOF(fullDataDe)); mf = MeasureFormat(de, UMEASFMT_WIDTH_NUMERIC, (NumberFormat *) nf->clone(), status); if (!assertSuccess("Error creating measure format de NUMERIC", status)) { return; } verifyFormat("de NUMERIC", mf, numericDataDe, UPRV_LENGTHOF(numericDataDe)); } void MeasureFormatTest::Test10219FractionalPlurals() { Locale en(Locale::getEnglish()); double values[] = {1.588, 1.011}; const char *expected[2][3] = { {"1 minute", "1.5 minutes", "1.58 minutes"}, {"1 minute", "1.0 minutes", "1.01 minutes"} }; UErrorCode status = U_ZERO_ERROR; for (int j = 0; j < UPRV_LENGTHOF(values); j++) { for (int i = 0; i < UPRV_LENGTHOF(expected[j]); i++) { DecimalFormat *df = (DecimalFormat *) NumberFormat::createInstance(en, status); if (U_FAILURE(status)) { dataerrln("Error creating Number format - %s", u_errorName(status)); return; } df->setRoundingMode(DecimalFormat::kRoundDown); df->setMinimumFractionDigits(i); df->setMaximumFractionDigits(i); MeasureFormat mf(en, UMEASFMT_WIDTH_WIDE, df, status); if (!assertSuccess("Error creating Measure format", status)) { return; } Measure measure(values[j], MeasureUnit::createMinute(status), status); if (!assertSuccess("Error creating Measure unit", status)) { return; } verifyFormat("Test10219", mf, &measure, 1, expected[j][i]); } } } static MeasureUnit toMeasureUnit(MeasureUnit *adopted) { MeasureUnit result(*adopted); delete adopted; return result; } void MeasureFormatTest::TestGreek() { Locale locales[] = {Locale("el_GR"), Locale("el")}; UErrorCode status = U_ZERO_ERROR; MeasureUnit units[] = { toMeasureUnit(MeasureUnit::createSecond(status)), toMeasureUnit(MeasureUnit::createMinute(status)), toMeasureUnit(MeasureUnit::createHour(status)), toMeasureUnit(MeasureUnit::createDay(status)), toMeasureUnit(MeasureUnit::createWeek(status)), toMeasureUnit(MeasureUnit::createMonth(status)), toMeasureUnit(MeasureUnit::createYear(status))}; if (!assertSuccess("Error creating Measure units", status)) { return; } UMeasureFormatWidth styles[] = { UMEASFMT_WIDTH_WIDE, UMEASFMT_WIDTH_SHORT}; int32_t numbers[] = {1, 7}; const char *expected[] = { // "el_GR" 1 wide "1 \\u03B4\\u03B5\\u03C5\\u03C4\\u03B5\\u03C1\\u03CC\\u03BB\\u03B5\\u03C0\\u03C4\\u03BF", "1 \\u03BB\\u03B5\\u03C0\\u03C4\\u03CC", "1 \\u03CE\\u03C1\\u03B1", "1 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B1", "1 \\u03B5\\u03B2\\u03B4\\u03BF\\u03BC\\u03AC\\u03B4\\u03B1", "1 \\u03BC\\u03AE\\u03BD\\u03B1\\u03C2", "1 \\u03AD\\u03C4\\u03BF\\u03C2", // "el_GR" 1 short "1 \\u03B4\\u03B5\\u03C5\\u03C4.", "1 \\u03BB\\u03B5\\u03C0.", "1 \\u03CE\\u03C1\\u03B1", "1 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B1", "1 \\u03B5\\u03B2\\u03B4.", "1 \\u03BC\\u03AE\\u03BD.", "1 \\u03AD\\u03C4.", // year (one) // "el_GR" 7 wide "7 \\u03B4\\u03B5\\u03C5\\u03C4\\u03B5\\u03C1\\u03CC\\u03BB\\u03B5\\u03C0\\u03C4\\u03B1", "7 \\u03BB\\u03B5\\u03C0\\u03C4\\u03AC", "7 \\u03CE\\u03C1\\u03B5\\u03C2", "7 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B5\\u03C2", "7 \\u03B5\\u03B2\\u03B4\\u03BF\\u03BC\\u03AC\\u03B4\\u03B5\\u03C2", "7 \\u03BC\\u03AE\\u03BD\\u03B5\\u03C2", "7 \\u03AD\\u03C4\\u03B7", // "el_GR" 7 short "7 \\u03B4\\u03B5\\u03C5\\u03C4.", "7 \\u03BB\\u03B5\\u03C0.", "7 \\u03CE\\u03C1.", // hour (other) "7 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B5\\u03C2", "7 \\u03B5\\u03B2\\u03B4.", "7 \\u03BC\\u03AE\\u03BD.", "7 \\u03AD\\u03C4.", // year (other) // "el" 1 wide "1 \\u03B4\\u03B5\\u03C5\\u03C4\\u03B5\\u03C1\\u03CC\\u03BB\\u03B5\\u03C0\\u03C4\\u03BF", "1 \\u03BB\\u03B5\\u03C0\\u03C4\\u03CC", "1 \\u03CE\\u03C1\\u03B1", "1 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B1", "1 \\u03B5\\u03B2\\u03B4\\u03BF\\u03BC\\u03AC\\u03B4\\u03B1", "1 \\u03BC\\u03AE\\u03BD\\u03B1\\u03C2", "1 \\u03AD\\u03C4\\u03BF\\u03C2", // "el" 1 short "1 \\u03B4\\u03B5\\u03C5\\u03C4.", "1 \\u03BB\\u03B5\\u03C0.", "1 \\u03CE\\u03C1\\u03B1", "1 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B1", "1 \\u03B5\\u03B2\\u03B4.", "1 \\u03BC\\u03AE\\u03BD.", "1 \\u03AD\\u03C4.", // year (one) // "el" 7 wide "7 \\u03B4\\u03B5\\u03C5\\u03C4\\u03B5\\u03C1\\u03CC\\u03BB\\u03B5\\u03C0\\u03C4\\u03B1", "7 \\u03BB\\u03B5\\u03C0\\u03C4\\u03AC", "7 \\u03CE\\u03C1\\u03B5\\u03C2", "7 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B5\\u03C2", "7 \\u03B5\\u03B2\\u03B4\\u03BF\\u03BC\\u03AC\\u03B4\\u03B5\\u03C2", "7 \\u03BC\\u03AE\\u03BD\\u03B5\\u03C2", "7 \\u03AD\\u03C4\\u03B7", // "el" 7 short "7 \\u03B4\\u03B5\\u03C5\\u03C4.", "7 \\u03BB\\u03B5\\u03C0.", "7 \\u03CE\\u03C1.", // hour (other) "7 \\u03B7\\u03BC\\u03AD\\u03C1\\u03B5\\u03C2", "7 \\u03B5\\u03B2\\u03B4.", "7 \\u03BC\\u03AE\\u03BD.", "7 \\u03AD\\u03C4."}; // year (other) int32_t counter = 0; for (int32_t locIndex = 0; locIndex < UPRV_LENGTHOF(locales); ++locIndex ) { for( int32_t numIndex = 0; numIndex < UPRV_LENGTHOF(numbers); ++numIndex ) { for ( int32_t styleIndex = 0; styleIndex < UPRV_LENGTHOF(styles); ++styleIndex ) { for ( int32_t unitIndex = 0; unitIndex < UPRV_LENGTHOF(units); ++unitIndex ) { Measure measure(numbers[numIndex], new MeasureUnit(units[unitIndex]), status); if (!assertSuccess("Error creating Measure", status)) { return; } MeasureFormat fmt(locales[locIndex], styles[styleIndex], status); if (!assertSuccess("Error creating Measure format", status)) { return; } verifyFormat("TestGreek", fmt, &measure, 1, expected[counter]); ++counter; } } } } } void MeasureFormatTest::TestFormatSingleArg() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_WIDE, status); if (!assertSuccess("Error creating formatter", status)) { return; } UnicodeString buffer; FieldPosition pos(0); fmt.format( new Measure(3.5, MeasureUnit::createFoot(status), status), buffer, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals( "TestFormatSingleArg", UnicodeString("3.5 feet"), buffer); } void MeasureFormatTest::TestFormatMeasuresZeroArg() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_WIDE, status); verifyFormat("TestFormatMeasuresZeroArg", fmt, NULL, 0, ""); } void MeasureFormatTest::TestMultiplesWithPer() { Locale en("en"); UErrorCode status = U_ZERO_ERROR; LocalPointer second(MeasureUnit::createSecond(status)); LocalPointer minute(MeasureUnit::createMinute(status)); if (!assertSuccess("", status)) { return; } // Per unit test. helperTestMultiplesWithPer( en, UMEASFMT_WIDTH_WIDE, *second, "2 miles, 1 foot, 2.3 inches per second"); helperTestMultiplesWithPer( en, UMEASFMT_WIDTH_SHORT, *second, "2 mi, 1 ft, 2.3 inps"); helperTestMultiplesWithPer( en, UMEASFMT_WIDTH_NARROW, *second, "2mi 1\\u2032 2.3\\u2033/s"); // Fallback compound per test helperTestMultiplesWithPer( en, UMEASFMT_WIDTH_WIDE, *minute, "2 miles, 1 foot, 2.3 inches per minute"); helperTestMultiplesWithPer( en, UMEASFMT_WIDTH_SHORT, *minute, "2 mi, 1 ft, 2.3 in/min"); helperTestMultiplesWithPer( en, UMEASFMT_WIDTH_NARROW, *minute, "2mi 1\\u2032 2.3\\u2033/m"); } void MeasureFormatTest::TestSimplePer() { Locale en("en"); UErrorCode status = U_ZERO_ERROR; LocalPointer second(MeasureUnit::createSecond(status)); LocalPointer minute(MeasureUnit::createMinute(status)); LocalPointer pound(MeasureUnit::createPound(status)); if (!assertSuccess("", status)) { return; } helperTestSimplePer( en, UMEASFMT_WIDTH_SHORT, 1.0, *pound, *second, "1 lbps"); helperTestSimplePer( en, UMEASFMT_WIDTH_SHORT, 2.0, *pound, *second, "2 lbps"); helperTestSimplePer( en, UMEASFMT_WIDTH_SHORT, 1.0, *pound, *minute, "1 lb/min"); helperTestSimplePer( en, UMEASFMT_WIDTH_SHORT, 2.0, *pound, *minute, "2 lb/min"); } void MeasureFormatTest::TestNumeratorPlurals() { Locale pl("pl"); UErrorCode status = U_ZERO_ERROR; LocalPointer second(MeasureUnit::createSecond(status)); LocalPointer foot(MeasureUnit::createFoot(status)); if (!assertSuccess("", status)) { return; } helperTestSimplePer( pl, UMEASFMT_WIDTH_WIDE, 1.0, *foot, *second, "1 stopa na sekund\\u0119"); helperTestSimplePer( pl, UMEASFMT_WIDTH_WIDE, 2.0, *foot, *second, "2 stopy na sekund\\u0119"); helperTestSimplePer( pl, UMEASFMT_WIDTH_WIDE, 5.0, *foot, *second, "5 st\\u00f3p na sekund\\u0119"); helperTestSimplePer( pl, UMEASFMT_WIDTH_WIDE, 1.5, *foot, *second, "1,5 stopy na sekund\\u0119"); } void MeasureFormatTest::helperTestSimplePer( const Locale &locale, UMeasureFormatWidth width, double value, const MeasureUnit &unit, const MeasureUnit &perUnit, const char *expected) { UErrorCode status = U_ZERO_ERROR; FieldPosition pos(0); MeasureFormat fmt(locale, width, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure measure(value, (MeasureUnit *) unit.clone(), status); if (!assertSuccess("Error creating measure object", status)) { return; } UnicodeString buffer; fmt.formatMeasuresPer( &measure, 1, perUnit, buffer, pos, status); if (!assertSuccess("Error formatting measures with per", status)) { return; } assertEquals( "TestSimplePer", UnicodeString(expected).unescape(), buffer); } void MeasureFormatTest::helperTestMultiplesWithPer( const Locale &locale, UMeasureFormatWidth width, const MeasureUnit &perUnit, const char *expected) { UErrorCode status = U_ZERO_ERROR; FieldPosition pos(0); MeasureFormat fmt(locale, width, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure measures[] = { Measure(2, MeasureUnit::createMile(status), status), Measure(1, MeasureUnit::createFoot(status), status), Measure(2.3, MeasureUnit::createInch(status), status)}; if (!assertSuccess("Error creating measures", status)) { return; } UnicodeString buffer; fmt.formatMeasuresPer( measures, UPRV_LENGTHOF(measures), perUnit, buffer, pos, status); if (!assertSuccess("Error formatting measures with per", status)) { return; } assertEquals( "TestMultiplesWithPer", UnicodeString(expected).unescape(), buffer); } void MeasureFormatTest::TestMultiples() { Locale ru("ru"); Locale en("en"); helperTestMultiples(en, UMEASFMT_WIDTH_WIDE, "2 miles, 1 foot, 2.3 inches"); helperTestMultiples(en, UMEASFMT_WIDTH_SHORT, "2 mi, 1 ft, 2.3 in"); helperTestMultiples(en, UMEASFMT_WIDTH_NARROW, "2mi 1\\u2032 2.3\\u2033"); helperTestMultiples(ru, UMEASFMT_WIDTH_WIDE, "2 \\u043C\\u0438\\u043B\\u0438, 1 \\u0444\\u0443\\u0442 \\u0438 2,3 \\u0434\\u044E\\u0439\\u043C\\u0430"); helperTestMultiples(ru, UMEASFMT_WIDTH_SHORT, "2 \\u043C\\u0438\\u043B\\u0438, 1 \\u0444\\u0443\\u0442, 2,3 \\u0434\\u044E\\u0439\\u043C."); helperTestMultiples(ru, UMEASFMT_WIDTH_NARROW, "2 \\u043C\\u0438\\u043B\\u044C 1 \\u0444\\u0443\\u0442 2,3 \\u0434\\u044E\\u0439\\u043C\\u0430"); } void MeasureFormatTest::helperTestMultiples( const Locale &locale, UMeasureFormatWidth width, const char *expected) { UErrorCode status = U_ZERO_ERROR; FieldPosition pos(0); MeasureFormat fmt(locale, width, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure measures[] = { Measure(2, MeasureUnit::createMile(status), status), Measure(1, MeasureUnit::createFoot(status), status), Measure(2.3, MeasureUnit::createInch(status), status)}; if (!assertSuccess("Error creating measures", status)) { return; } UnicodeString buffer; fmt.formatMeasures(measures, UPRV_LENGTHOF(measures), buffer, pos, status); if (!assertSuccess("Error formatting measures", status)) { return; } assertEquals("TestMultiples", UnicodeString(expected).unescape(), buffer); } void MeasureFormatTest::TestGram() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure gram(1, MeasureUnit::createGram(status), status); Measure gforce(1, MeasureUnit::createGForce(status), status); if (!assertSuccess("Error creating measures", status)) { return; } verifyFormat("TestGram", fmt, &gram, 1, "1 g"); verifyFormat("TestGram", fmt, &gforce, 1, "1 G"); } void MeasureFormatTest::TestCurrencies() { UChar USD[] = {'U', 'S', 'D', 0}; UErrorCode status = U_ZERO_ERROR; CurrencyAmount USD_1(1.0, USD, status); CurrencyAmount USD_2(2.0, USD, status); CurrencyAmount USD_NEG_1(-1.0, USD, status); if (!assertSuccess("Error creating measures", status)) { return; } Locale en("en"); MeasureFormat fmt(en, UMEASFMT_WIDTH_WIDE, status); if (!assertSuccess("Error creating format object", status)) { return; } verifyFormat("TestCurrenciesWide", fmt, &USD_NEG_1, 1, "-1.00 US dollars"); verifyFormat("TestCurrenciesWide", fmt, &USD_1, 1, "1.00 US dollars"); verifyFormat("TestCurrenciesWide", fmt, &USD_2, 1, "2.00 US dollars"); fmt = MeasureFormat(en, UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } verifyFormat("TestCurrenciesShort", fmt, &USD_NEG_1, 1, "-USD1.00"); verifyFormat("TestCurrenciesShort", fmt, &USD_1, 1, "USD1.00"); verifyFormat("TestCurrenciesShort", fmt, &USD_2, 1, "USD2.00"); fmt = MeasureFormat(en, UMEASFMT_WIDTH_NARROW, status); if (!assertSuccess("Error creating format object", status)) { return; } verifyFormat("TestCurrenciesNarrow", fmt, &USD_NEG_1, 1, "-$1.00"); verifyFormat("TestCurrenciesNarrow", fmt, &USD_1, 1, "$1.00"); verifyFormat("TestCurrenciesNarrow", fmt, &USD_2, 1, "$2.00"); fmt = MeasureFormat(en, UMEASFMT_WIDTH_NUMERIC, status); if (!assertSuccess("Error creating format object", status)) { return; } verifyFormat("TestCurrenciesNumeric", fmt, &USD_NEG_1, 1, "-$1.00"); verifyFormat("TestCurrenciesNumeric", fmt, &USD_1, 1, "$1.00"); verifyFormat("TestCurrenciesNumeric", fmt, &USD_2, 1, "$2.00"); } void MeasureFormatTest::TestFieldPosition() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure measure(43.5, MeasureUnit::createFoot(status), status); if (!assertSuccess("Error creating measure object 1", status)) { return; } UnicodeString prefix("123456: "); verifyFieldPosition( "", fmt, prefix, &measure, 1, NumberFormat::kDecimalSeparatorField, 10, 11); measure = Measure(43, MeasureUnit::createFoot(status), status); if (!assertSuccess("Error creating measure object 2", status)) { return; } verifyFieldPosition( "", fmt, prefix, &measure, 1, NumberFormat::kDecimalSeparatorField, 0, 0); } void MeasureFormatTest::TestFieldPositionMultiple() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure first[] = { Measure(354, MeasureUnit::createMeter(status), status), Measure(23, MeasureUnit::createCentimeter(status), status)}; Measure second[] = { Measure(354, MeasureUnit::createMeter(status), status), Measure(23, MeasureUnit::createCentimeter(status), status), Measure(5.4, MeasureUnit::createMillimeter(status), status)}; Measure third[] = { Measure(3, MeasureUnit::createMeter(status), status), Measure(23, MeasureUnit::createCentimeter(status), status), Measure(5, MeasureUnit::createMillimeter(status), status)}; if (!assertSuccess("Error creating measure objects", status)) { return; } UnicodeString prefix("123456: "); verifyFieldPosition( "Integer", fmt, prefix, first, UPRV_LENGTHOF(first), NumberFormat::kIntegerField, 8, 11); verifyFieldPosition( "Decimal separator", fmt, prefix, second, UPRV_LENGTHOF(second), NumberFormat::kDecimalSeparatorField, 23, 24); verifyFieldPosition( "no decimal separator", fmt, prefix, third, UPRV_LENGTHOF(third), NumberFormat::kDecimalSeparatorField, 0, 0); } void MeasureFormatTest::TestFieldPositionMultipleWithPer() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure first[] = { Measure(354, MeasureUnit::createMeter(status), status), Measure(23, MeasureUnit::createCentimeter(status), status)}; Measure second[] = { Measure(354, MeasureUnit::createMeter(status), status), Measure(23, MeasureUnit::createCentimeter(status), status), Measure(5.4, MeasureUnit::createMillimeter(status), status)}; Measure third[] = { Measure(3, MeasureUnit::createMeter(status), status), Measure(23, MeasureUnit::createCentimeter(status), status), Measure(5, MeasureUnit::createMillimeter(status), status)}; if (!assertSuccess("Error creating measure objects", status)) { return; } UnicodeString prefix("123456: "); LocalPointer secondUnit(MeasureUnit::createSecond(status)); LocalPointer minuteUnit(MeasureUnit::createMinute(status)); if (!assertSuccess("Error creating format object", status)) { return; } // per unit test verifyFieldPositionWithPer( "Integer", fmt, prefix, first, UPRV_LENGTHOF(first), *secondUnit, NumberFormat::kIntegerField, 8, 11); verifyFieldPositionWithPer( "Decimal separator", fmt, prefix, second, UPRV_LENGTHOF(second), *secondUnit, NumberFormat::kDecimalSeparatorField, 23, 24); verifyFieldPositionWithPer( "no decimal separator", fmt, prefix, third, UPRV_LENGTHOF(third), *secondUnit, NumberFormat::kDecimalSeparatorField, 0, 0); // Fallback to compound per test verifyFieldPositionWithPer( "Integer", fmt, prefix, first, UPRV_LENGTHOF(first), *minuteUnit, NumberFormat::kIntegerField, 8, 11); verifyFieldPositionWithPer( "Decimal separator", fmt, prefix, second, UPRV_LENGTHOF(second), *minuteUnit, NumberFormat::kDecimalSeparatorField, 23, 24); verifyFieldPositionWithPer( "no decimal separator", fmt, prefix, third, UPRV_LENGTHOF(third), *minuteUnit, NumberFormat::kDecimalSeparatorField, 0, 0); } void MeasureFormatTest::TestBadArg() { UErrorCode status = U_ZERO_ERROR; MeasureFormat fmt("en", UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } FieldPosition pos(0); UnicodeString buffer; fmt.format( 9.3, buffer, pos, status); if (status != U_ILLEGAL_ARGUMENT_ERROR) { errln("Expected ILLEGAL_ARGUMENT_ERROR"); } } void MeasureFormatTest::TestEquality() { UErrorCode status = U_ZERO_ERROR; NumberFormat* nfeq = NumberFormat::createInstance("en", status); NumberFormat* nfne = NumberFormat::createInstance("fr", status); MeasureFormat fmt("en", UMEASFMT_WIDTH_SHORT, status); MeasureFormat fmtEq2("en", UMEASFMT_WIDTH_SHORT, nfeq, status); MeasureFormat fmtne1("en", UMEASFMT_WIDTH_WIDE, status); MeasureFormat fmtne2("fr", UMEASFMT_WIDTH_SHORT, status); MeasureFormat fmtne3("en", UMEASFMT_WIDTH_SHORT, nfne, status); if (U_FAILURE(status)) { dataerrln("Error creating MeasureFormats - %s", u_errorName(status)); return; } MeasureFormat fmtEq(fmt); assertTrue("Equal", fmt == fmtEq); assertTrue("Equal2", fmt == fmtEq2); assertFalse("Equal Neg", fmt != fmtEq); assertTrue("Not Equal 1", fmt != fmtne1); assertFalse("Not Equal Neg 1", fmt == fmtne1); assertTrue("Not Equal 2", fmt != fmtne2); assertTrue("Not Equal 3", fmt != fmtne3); } void MeasureFormatTest::TestGroupingSeparator() { UErrorCode status = U_ZERO_ERROR; Locale en("en"); MeasureFormat fmt(en, UMEASFMT_WIDTH_SHORT, status); if (!assertSuccess("Error creating format object", status)) { return; } Measure ms[] = { Measure(INT32_MAX, MeasureUnit::createYear(status), status), Measure(INT32_MIN, MeasureUnit::createMonth(status), status), Measure(-987, MeasureUnit::createDay(status), status), Measure(1362, MeasureUnit::createHour(status), status), Measure(987, MeasureUnit::createMinute(status), status)}; FieldPosition pos(NumberFormat::kGroupingSeparatorField); UnicodeString appendTo; fmt.formatMeasures(ms, 5, appendTo, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals( "grouping separator", "2,147,483,647 yrs, -2,147,483,648 mths, -987 days, 1,362 hrs, 987 mins", appendTo); assertEquals("begin index", 9, pos.getBeginIndex()); assertEquals("end index", 10, pos.getEndIndex()); } void MeasureFormatTest::TestDoubleZero() { UErrorCode status = U_ZERO_ERROR; Measure measures[] = { Measure(4.7, MeasureUnit::createHour(status), status), Measure(23, MeasureUnit::createMinute(status), status), Measure(16, MeasureUnit::createSecond(status), status)}; Locale en("en"); NumberFormat *nf = NumberFormat::createInstance(en, status); MeasureFormat fmt("en", UMEASFMT_WIDTH_WIDE, nf, status); UnicodeString appendTo; FieldPosition pos(FieldPosition::DONT_CARE); if (U_FAILURE(status)) { dataerrln("Error creating formatter - %s", u_errorName(status)); return; } nf->setMinimumFractionDigits(2); nf->setMaximumFractionDigits(2); fmt.formatMeasures(measures, UPRV_LENGTHOF(measures), appendTo, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals( "TestDoubleZero", UnicodeString("4 hours, 23 minutes, 16.00 seconds"), appendTo); measures[0] = Measure(-4.7, MeasureUnit::createHour(status), status); appendTo.remove(); fmt.formatMeasures(measures, UPRV_LENGTHOF(measures), appendTo, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals( "TestDoubleZero", UnicodeString("-4 hours, 23 minutes, 16.00 seconds"), appendTo); } void MeasureFormatTest::verifyFieldPosition( const char *description, const MeasureFormat &fmt, const UnicodeString &prefix, const Measure *measures, int32_t measureCount, NumberFormat::EAlignmentFields field, int32_t start, int32_t end) { // 8 char lead UnicodeString result(prefix); FieldPosition pos(field); UErrorCode status = U_ZERO_ERROR; CharString ch; const char *descPrefix = ch.append(description, status) .append(": ", status).data(); CharString beginIndex; beginIndex.append(descPrefix, status).append("beginIndex", status); CharString endIndex; endIndex.append(descPrefix, status).append("endIndex", status); fmt.formatMeasures(measures, measureCount, result, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals(beginIndex.data(), start, pos.getBeginIndex()); assertEquals(endIndex.data(), end, pos.getEndIndex()); } void MeasureFormatTest::verifyFieldPositionWithPer( const char *description, const MeasureFormat &fmt, const UnicodeString &prefix, const Measure *measures, int32_t measureCount, const MeasureUnit &perUnit, NumberFormat::EAlignmentFields field, int32_t start, int32_t end) { UnicodeString result(prefix); FieldPosition pos(field); UErrorCode status = U_ZERO_ERROR; CharString ch; const char *descPrefix = ch.append(description, status) .append(": ", status).data(); CharString beginIndex; beginIndex.append(descPrefix, status).append("beginIndex", status); CharString endIndex; endIndex.append(descPrefix, status).append("endIndex", status); fmt.formatMeasuresPer( measures, measureCount, perUnit, result, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals(beginIndex.data(), start, pos.getBeginIndex()); assertEquals(endIndex.data(), end, pos.getEndIndex()); } void MeasureFormatTest::verifyFormat( const char *description, const MeasureFormat &fmt, const Measure *measures, int32_t measureCount, const char *expected) { verifyFormatWithPrefix( description, fmt, "", measures, measureCount, expected); } void MeasureFormatTest::verifyFormatWithPrefix( const char *description, const MeasureFormat &fmt, const UnicodeString &prefix, const Measure *measures, int32_t measureCount, const char *expected) { UnicodeString result(prefix); FieldPosition pos(0); UErrorCode status = U_ZERO_ERROR; fmt.formatMeasures(measures, measureCount, result, pos, status); if (!assertSuccess("Error formatting", status)) { return; } assertEquals(description, UnicodeString(expected).unescape(), result); } void MeasureFormatTest::verifyFormat( const char *description, const MeasureFormat &fmt, const ExpectedResult *expectedResults, int32_t count) { for (int32_t i = 0; i < count; ++i) { verifyFormat(description, fmt, expectedResults[i].measures, expectedResults[i].count, expectedResults[i].expected); } } extern IntlTest *createMeasureFormatTest() { return new MeasureFormatTest(); } #endif