/* ********************************************************************** * Copyright (C) 1999-2007, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * Date Name Description * 11/10/99 aliu Creation. ********************************************************************** */ #ifndef TRANSTST_H #define TRANSTST_H #include "unicode/utypes.h" #if !UCONFIG_NO_TRANSLITERATION #include "unicode/translit.h" #include "intltest.h" /** * @test * @summary General test of Transliterator */ class TransliteratorTest : public IntlTest { public: TransliteratorTest(); virtual ~TransliteratorTest(); private: void runIndexedTest(int32_t index, UBool exec, const char* &name, char* par=NULL); void TestInstantiation(void); void TestSimpleRules(void); void TestInlineSet(void); void TestAnchors(void); void TestPatternQuoting(void); /** * Create some inverses and confirm that they work. We have to be * careful how we do this, since the inverses will not be true * inverses -- we can't throw any random string at the composition * of the transliterators and expect the identity function. F x * F' != I. However, if we are careful about the input, we will * get the expected results. */ void TestRuleBasedInverse(void); /** * Basic test of keyboard. */ void TestKeyboard(void); /** * Basic test of keyboard with cursor. */ void TestKeyboard2(void); /** * Test keyboard transliteration with back-replacement. */ void TestKeyboard3(void); void keyboardAux(const Transliterator& t, const char* DATA[], int32_t DATA_length); void TestArabic(void); /** * Compose the Kana transliterator forward and reverse and try * some strings that should come out unchanged. */ void TestCompoundKana(void); /** * Compose the hex transliterators forward and reverse. */ void TestCompoundHex(void); /** * Do some basic tests of filtering. */ void TestFiltering(void); /** * Regression test for bugs found in Greek transliteration. */ void TestJ277(void); /** * Prefix, suffix support in hex transliterators. */ void TestJ243(void); /** * Parsers need better syntax error messages. */ void TestJ329(void); /** * Test segments and segment references. */ void TestSegments(void); /** * Test cursor positioning outside of the key */ void TestCursorOffset(void); /** * Test zero length and > 1 char length variable values. Test * use of variable refs in UnicodeSets. */ void TestArbitraryVariableValues(void); /** * Confirm that the contextStart, contextLimit, start, and limit * behave correctly. J474. */ void TestPositionHandling(void); /** * Test the Hiragana-Katakana transliterator. */ void TestHiraganaKatakana(void); /** * Test cloning / copy constructor of RBT. */ void TestCopyJ476(void); /** * Test inter-Indic transliterators. These are composed. * ICU4C Jitterbug 483. */ void TestInterIndic(void); /** * Test filter syntax in IDs. (J918) */ void TestFilterIDs(void); /** * Test the case mapping transliterators. */ void TestCaseMap(void); /** * Test the name mapping transliterators. */ void TestNameMap(void); /** * Test liberalized ID syntax. 1006c */ void TestLiberalizedID(void); /** * Test Jitterbug 912 */ void TestCreateInstance(void); void TestNormalizationTransliterator(void); void TestCompoundRBT(void); void TestCompoundFilter(void); void TestRemove(void); void TestToRules(void); void TestContext(void); void TestSupplemental(void); void TestQuantifier(void); /** * Test Source-Target/Variant. */ void TestSTV(void); void TestCompoundInverse(void); void TestNFDChainRBT(void); /** * Inverse of "Null" should be "Null". (J21) */ void TestNullInverse(void); /** * Check ID of inverse of alias. (J22) */ void TestAliasInverseID(void); /** * Test IDs of inverses of compound transliterators. (J20) */ void TestCompoundInverseID(void); /** * Test undefined variable. */ void TestUndefinedVariable(void); /** * Test empty context. */ void TestEmptyContext(void); /** * Test compound filter ID syntax */ void TestCompoundFilterID(void); /** * Test new property set syntax */ void TestPropertySet(void); /** * Test various failure points of the new 2.0 engine. */ void TestNewEngine(void); /** * Test quantified segment behavior. We want: * ([abc])+ > x $1 x; applied to "cba" produces "xax" */ void TestQuantifiedSegment(void); /* Devanagari-Latin rules Test */ void TestDevanagariLatinRT(void); /* Telugu-Latin rules Test */ void TestTeluguLatinRT(void); /* Gujarati-Latin rules Test */ void TestGujaratiLatinRT(void); /* Sanskrit-Latin rules Test */ void TestSanskritLatinRT(void); /* Test Compound Indic-Latin transliterators*/ void TestCompoundLatinRT(void); /* Test bindi and tippi for Gurmukhi */ void TestGurmukhiDevanagari(void); /** * Test instantiation from a locale. */ void TestLocaleInstantiation(void); /** * Test title case handling of accent (should ignore accents) */ void TestTitleAccents(void); /** * Basic test of a locale resource based rule. */ void TestLocaleResource(void); /** * Make sure parse errors reference the right line. */ void TestParseError(void); /** * Make sure sets on output are disallowed. */ void TestOutputSet(void); /** * Test the use variable range pragma, making sure that use of * variable range characters is detected and flagged as an error. */ void TestVariableRange(void); /** * Test invalid post context error handling */ void TestInvalidPostContext(void); /** * Test ID form variants */ void TestIDForms(void); /** * Mark's toRules test. */ void TestToRulesMark(void); /** * Test Escape and Unescape transliterators. */ void TestEscape(void); void TestAnchorMasking(void); /** * Make sure display names of variants look reasonable. */ void TestDisplayName(void); /** * Check to see if case mapping works correctly. */ void TestSpecialCases(void); /** * Check to see that incremental gets at least part way through a reasonable string. */ void TestIncrementalProgress(void); /** * Check that casing handles surrogates. */ void TestSurrogateCasing (void); void TestFunction(void); void TestInvalidBackRef(void); void TestMulticharStringSet(void); void TestUserFunction(void); void TestAnyX(void); void TestSourceTargetSet(void); void TestRuleWhitespace(void); void TestAllCodepoints(void); void TestBoilerplate(void); void TestAlternateSyntax(void); void TestRuleStripping(void); /** * Tests the multiple-pass syntax */ void TestBeginEnd(void); /** * Tests that toRules() works right with the multiple-pass syntax */ void TestBeginEndToRules(void); /** * Tests the registerAlias() function */ void TestRegisterAlias(void); //====================================================================== // Support methods //====================================================================== protected: void expectT(const UnicodeString& id, const UnicodeString& source, const UnicodeString& expectedResult); void expect(const UnicodeString& rules, const UnicodeString& source, const UnicodeString& expectedResult, UTransPosition *pos=0); void expect(const UnicodeString& id, const UnicodeString& rules, const UnicodeString& source, const UnicodeString& expectedResult, UTransPosition *pos=0); void expect(const Transliterator& t, const UnicodeString& source, const UnicodeString& expectedResult, const Transliterator& reverseTransliterator); void expect(const Transliterator& t, const UnicodeString& source, const UnicodeString& expectedResult, UTransPosition *pos=0); void expectAux(const UnicodeString& tag, const UnicodeString& source, const UnicodeString& result, const UnicodeString& expectedResult); virtual void expectAux(const UnicodeString& tag, const UnicodeString& summary, UBool pass, const UnicodeString& expectedResult); static UnicodeString& formatInput(UnicodeString &appendTo, const UnicodeString& input, const UTransPosition& pos); void checkRules(const UnicodeString& label, Transliterator& t2, const UnicodeString& testRulesForward); void CheckIncrementalAux(const Transliterator* t, const UnicodeString& input); void reportParseError(const UnicodeString& message, const UParseError& parseError, const UErrorCode& status); const UnicodeString DESERET_DEE; const UnicodeString DESERET_dee; }; #endif /* #if !UCONFIG_NO_TRANSLITERATION */ #endif