// © 2017 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #pragma once #include "formatted_string_builder.h" #include "intltest.h" #include "itformat.h" #include "number_affixutils.h" #include "string_segment.h" #include "numrange_impl.h" #include "unicode/locid.h" #include "unicode/numberformatter.h" #include "unicode/numberrangeformatter.h" // ICU-20241 Solaris #defines ESP in sys/regset.h #ifdef ESP # undef ESP #endif using namespace icu::number; using namespace icu::number::impl; using namespace icu::numparse; using namespace icu::numparse::impl; //////////////////////////////////////////////////////////////////////////////////////// // INSTRUCTIONS: // // To add new NumberFormat unit test classes, create a new class like the ones below, // // and then add it as a switch statement in NumberTest at the bottom of this file. ///////// // To add new methods to existing unit test classes, add the method to the class declaration // // below, and also add it to the class's implementation of runIndexedTest(). // /////////////////////////////////////////////////////////////////////////////////////////////// class AffixUtilsTest : public IntlTest { public: void testEscape(); void testUnescape(); void testContainsReplaceType(); void testInvalid(); void testUnescapeWithSymbolProvider(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: UnicodeString unescapeWithDefaults(const SymbolProvider &defaultProvider, UnicodeString input, UErrorCode &status); }; class NumberFormatterApiTest : public IntlTestWithFieldPosition { public: NumberFormatterApiTest(); NumberFormatterApiTest(UErrorCode &status); void notationSimple(); void notationScientific(); void notationCompact(); void unitMeasure(); void unitCompoundMeasure(); void unitSkeletons(); void unitUsage(); void unitUsageErrorCodes(); void unitUsageSkeletons(); void unitCurrency(); void unitPercent(); void percentParity(); void roundingFraction(); void roundingFigures(); void roundingFractionFigures(); void roundingOther(); void grouping(); void padding(); void integerWidth(); void symbols(); // TODO: Add this method if currency symbols override support is added. //void symbolsOverride(); void sign(); void signNearZero(); void signCoverage(); void decimal(); void scale(); void locale(); void skeletonUserGuideExamples(); void formatTypes(); void fieldPositionLogic(); void fieldPositionCoverage(); void toFormat(); void errors(); void validRanges(); void copyMove(); void localPointerCAPI(); void toObject(); void toDecimalNumber(); void microPropsInternals(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: CurrencyUnit USD; CurrencyUnit GBP; CurrencyUnit CZK; CurrencyUnit CAD; CurrencyUnit ESP; CurrencyUnit PTE; CurrencyUnit RON; CurrencyUnit TWD; CurrencyUnit TRY; CurrencyUnit CNY; MeasureUnit METER; MeasureUnit METER_PER_SECOND; MeasureUnit DAY; MeasureUnit SQUARE_METER; MeasureUnit FAHRENHEIT; MeasureUnit SECOND; MeasureUnit POUND; MeasureUnit POUND_FORCE; MeasureUnit SQUARE_MILE; MeasureUnit SQUARE_INCH; MeasureUnit JOULE; MeasureUnit FURLONG; MeasureUnit KELVIN; NumberingSystem MATHSANB; NumberingSystem LATN; DecimalFormatSymbols FRENCH_SYMBOLS; DecimalFormatSymbols SWISS_SYMBOLS; DecimalFormatSymbols MYANMAR_SYMBOLS; /** * skeleton is the full length skeleton, which must round-trip. * * conciseSkeleton should be the shortest available skeleton. * The concise skeleton can be read but not printed. */ void assertFormatDescending( const char16_t* message, const char16_t* skeleton, const char16_t* conciseSkeleton, const UnlocalizedNumberFormatter& f, Locale locale, ...); /** See notes above regarding skeleton vs conciseSkeleton */ void assertFormatDescendingBig( const char16_t* message, const char16_t* skeleton, const char16_t* conciseSkeleton, const UnlocalizedNumberFormatter& f, Locale locale, ...); /** See notes above regarding skeleton vs conciseSkeleton */ FormattedNumber assertFormatSingle( const char16_t* message, const char16_t* skeleton, const char16_t* conciseSkeleton, const UnlocalizedNumberFormatter& f, Locale locale, double input, const UnicodeString& expected); void assertUndefinedSkeleton(const UnlocalizedNumberFormatter& f); void assertNumberFieldPositions( const char16_t* message, const FormattedNumber& formattedNumber, const UFieldPosition* expectedFieldPositions, int32_t length); }; class DecimalQuantityTest : public IntlTest { public: void testDecimalQuantityBehaviorStandalone(); void testSwitchStorage(); void testCopyMove(); void testAppend(); void testConvertToAccurateDouble(); void testUseApproximateDoubleWhenAble(); void testHardDoubleConversion(); void testToDouble(); void testMaxDigits(); void testNickelRounding(); void testCompactDecimalSuppressedExponent(); void testSuppressedExponentUnchangedByInitialScaling(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: void assertDoubleEquals(UnicodeString message, double a, double b); void assertHealth(const DecimalQuantity &fq); void assertToStringAndHealth(const DecimalQuantity &fq, const UnicodeString &expected); void checkDoubleBehavior(double d, bool explicitRequired); }; class DoubleConversionTest : public IntlTest { public: void testDoubleConversionApi(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); }; class ModifiersTest : public IntlTest { public: void testConstantAffixModifier(); void testConstantMultiFieldModifier(); void testSimpleModifier(); void testCurrencySpacingEnabledModifier(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: void assertModifierEquals(const Modifier &mod, int32_t expectedPrefixLength, bool expectedStrong, UnicodeString expectedChars, UnicodeString expectedFields, UErrorCode &status); void assertModifierEquals(const Modifier &mod, FormattedStringBuilder &sb, int32_t expectedPrefixLength, bool expectedStrong, UnicodeString expectedChars, UnicodeString expectedFields, UErrorCode &status); }; class PatternModifierTest : public IntlTest { public: void testBasic(); void testPatternWithNoPlaceholder(); void testMutableEqualsImmutable(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: UnicodeString getPrefix(const MutablePatternModifier &mod, UErrorCode &status); UnicodeString getSuffix(const MutablePatternModifier &mod, UErrorCode &status); }; class PatternStringTest : public IntlTest { public: void testLocalized(); void testToPatternSimple(); void testExceptionOnInvalid(); void testBug13117(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: }; class NumberParserTest : public IntlTest { public: void testBasic(); void testLocaleFi(); void testSeriesMatcher(); void testCombinedCurrencyMatcher(); void testAffixPatternMatcher(); void testGroupingDisabled(); void testCaseFolding(); void test20360_BidiOverflow(); void testInfiniteRecursion(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); }; class NumberSkeletonTest : public IntlTest { public: void validTokens(); void invalidTokens(); void unknownTokens(); void unexpectedTokens(); void duplicateValues(); void stemsRequiringOption(); void defaultTokens(); void flexibleSeparators(); void wildcardCharacters(); void perUnitInArabic(); void perUnitToSkeleton(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: void expectedErrorSkeleton(const char16_t** cases, int32_t casesLen); }; class NumberRangeFormatterTest : public IntlTestWithFieldPosition { public: NumberRangeFormatterTest(); NumberRangeFormatterTest(UErrorCode &status); void testSanity(); void testBasic(); void testCollapse(); void testIdentity(); void testDifferentFormatters(); void testPlurals(); void testFieldPositions(); void testCopyMove(); void toObject(); void testGetDecimalNumbers(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); private: CurrencyUnit USD; CurrencyUnit GBP; CurrencyUnit PTE; MeasureUnit METER; MeasureUnit KILOMETER; MeasureUnit FAHRENHEIT; MeasureUnit KELVIN; void assertFormatRange( const char16_t* message, const UnlocalizedNumberRangeFormatter& f, Locale locale, const char16_t* expected_10_50, const char16_t* expected_49_51, const char16_t* expected_50_50, const char16_t* expected_00_30, const char16_t* expected_00_00, const char16_t* expected_30_3K, const char16_t* expected_30K_50K, const char16_t* expected_49K_51K, const char16_t* expected_50K_50K, const char16_t* expected_50K_50M); FormattedNumberRange assertFormattedRangeEquals( const char16_t* message, const LocalizedNumberRangeFormatter& l, double first, double second, const char16_t* expected); }; class NumberPermutationTest : public IntlTest { public: void testPermutations(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0); }; // NOTE: This macro is identical to the one in itformat.cpp #define TESTCLASS(id, TestClass) \ case id: \ name = #TestClass; \ if (exec) { \ logln(#TestClass " test---"); \ logln((UnicodeString)""); \ TestClass test; \ callTest(test, par); \ } \ break class NumberTest : public IntlTest { public: void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par = 0) { if (exec) { logln("TestSuite NumberTest: "); } switch (index) { TESTCLASS(0, AffixUtilsTest); TESTCLASS(1, NumberFormatterApiTest); TESTCLASS(2, DecimalQuantityTest); TESTCLASS(3, ModifiersTest); TESTCLASS(4, PatternModifierTest); TESTCLASS(5, PatternStringTest); TESTCLASS(6, DoubleConversionTest); TESTCLASS(7, NumberParserTest); TESTCLASS(8, NumberSkeletonTest); TESTCLASS(9, NumberRangeFormatterTest); TESTCLASS(10, NumberPermutationTest); default: name = ""; break; // needed to end loop } } }; #endif /* #if !UCONFIG_NO_FORMATTING */