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Android 10
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10.0.0_r6
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external
icu
icu4c
source
test
intltest
ucdtest.cpp
// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /******************************************************************** * Copyright (c) 1997-2016, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ #include "unicode/ustring.h" #include "unicode/uchar.h" #include "unicode/ucpmap.h" #include "unicode/uniset.h" #include "unicode/putil.h" #include "unicode/uscript.h" #include "unicode/uset.h" #include "cstring.h" #include "hash.h" #include "patternprops.h" #include "normalizer2impl.h" #include "testutil.h" #include "uparse.h" #include "ucdtest.h" static const char *ignorePropNames[]={ "FC_NFKC", "NFD_QC", "NFC_QC", "NFKD_QC", "NFKC_QC", "Expands_On_NFD", "Expands_On_NFC", "Expands_On_NFKD", "Expands_On_NFKC", "NFKC_CF" }; UnicodeTest::UnicodeTest() { UErrorCode errorCode=U_ZERO_ERROR; unknownPropertyNames=new U_NAMESPACE_QUALIFIER Hashtable(errorCode); if(U_FAILURE(errorCode)) { delete unknownPropertyNames; unknownPropertyNames=NULL; } // Ignore some property names altogether. for(int32_t i=0; i
puti(UnicodeString(ignorePropNames[i], -1, US_INV), 1, errorCode); } } UnicodeTest::~UnicodeTest() { delete unknownPropertyNames; } void UnicodeTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { if(exec) { logln("TestSuite UnicodeTest: "); } TESTCASE_AUTO_BEGIN; TESTCASE_AUTO(TestAdditionalProperties); TESTCASE_AUTO(TestBinaryValues); TESTCASE_AUTO(TestConsistency); TESTCASE_AUTO(TestPatternProperties); TESTCASE_AUTO(TestScriptMetadata); TESTCASE_AUTO(TestBidiPairedBracketType); TESTCASE_AUTO(TestEmojiProperties); TESTCASE_AUTO(TestIndicPositionalCategory); TESTCASE_AUTO(TestIndicSyllabicCategory); TESTCASE_AUTO(TestVerticalOrientation); TESTCASE_AUTO(TestDefaultScriptExtensions); TESTCASE_AUTO(TestInvalidCodePointFolding); #if !UCONFIG_NO_NORMALIZATION TESTCASE_AUTO(TestBinaryCharacterProperties); TESTCASE_AUTO(TestIntCharacterProperties); #endif TESTCASE_AUTO_END; } //==================================================== // private data used by the tests //==================================================== // test DerivedCoreProperties.txt ------------------------------------------- // copied from genprops.c static int32_t getTokenIndex(const char *const tokens[], int32_t countTokens, const char *s) { const char *t, *z; int32_t i, j; s=u_skipWhitespace(s); for(i=0; i
errln("UnicodeTest: syntax error in DerivedCoreProperties.txt or DerivedNormalizationProps.txt field 0 at %s\n", fields[0][0]); return; } /* parse derived binary property name, ignore unknown names */ i=getTokenIndex(derivedPropsNames, UPRV_LENGTHOF(derivedPropsNames), fields[1][0]); if(i<0) { UnicodeString propName(fields[1][0], (int32_t)(fields[1][1]-fields[1][0])); propName.trim(); if(me->unknownPropertyNames->find(propName)==NULL) { UErrorCode errorCode=U_ZERO_ERROR; me->unknownPropertyNames->puti(propName, 1, errorCode); me->errln("UnicodeTest warning: unknown property name '%s' in DerivedCoreProperties.txt or DerivedNormalizationProps.txt\n", fields[1][0]); } return; } me->derivedProps[i].add(start, end); } void UnicodeTest::TestAdditionalProperties() { #if !UCONFIG_NO_NORMALIZATION // test DerivedCoreProperties.txt and DerivedNormalizationProps.txt if(UPRV_LENGTHOF(derivedProps)
=MAX_ERRORS) { dataerrln("Too many errors, moving to the next test"); break; } } } } } // invert all properties for(i=0; i
=MAX_ERRORS) { errln("Too many errors, moving to the next test"); break; } } } } } #endif /* !UCONFIG_NO_NORMALIZATION */ } void UnicodeTest::TestBinaryValues() { /* * Unicode 5.1 explicitly defines binary property value aliases. * Verify that they are all recognized. */ UErrorCode errorCode=U_ZERO_ERROR; UnicodeSet alpha(UNICODE_STRING_SIMPLE("[:Alphabetic:]"), errorCode); if(U_FAILURE(errorCode)) { dataerrln("UnicodeSet([:Alphabetic:]) failed - %s", u_errorName(errorCode)); return; } static const char *const falseValues[]={ "N", "No", "F", "False" }; static const char *const trueValues[]={ "Y", "Yes", "T", "True" }; int32_t i; for(i=0; i
ensureCanonIterData(errorCode) || errorCode.isFailure()) { dataerrln("Normalizer2::getInstance(NFD) or Normalizer2Factory::getNFCImpl() failed - %s\n", errorCode.errorName()); errorCode.reset(); return; } UnicodeSet set1, set2; if (nfcImpl->getCanonStartSet(0x49, set1)) { /* enumerate all characters that are plausible to be latin letters */ for(UChar start=0xa0; start<0x2000; ++start) { UnicodeString decomp=nfd->normalize(UnicodeString(start), errorCode); if(decomp.length()>1 && decomp[0]==0x49) { set2.add(start); } } if (set1!=set2) { errln("[canon start set of 0049] != [all c with canon decomp with 0049]"); } // This was available in cucdtst.c but the test had to move to intltest // because the new internal normalization functions are in C++. //compareUSets(set1, set2, // "[canon start set of 0049]", "[all c with canon decomp with 0049]", // TRUE); } else { errln("NFC.getCanonStartSet() returned FALSE"); } #endif } /** * Test various implementations of Pattern_Syntax & Pattern_White_Space. */ void UnicodeTest::TestPatternProperties() { IcuTestErrorCode errorCode(*this, "TestPatternProperties()"); UnicodeSet syn_pp; UnicodeSet syn_prop(UNICODE_STRING_SIMPLE("[:Pattern_Syntax:]"), errorCode); UnicodeSet syn_list( "[!-/\\:-@\\[-\\^`\\{-~" "\\u00A1-\\u00A7\\u00A9\\u00AB\\u00AC\\u00AE\\u00B0\\u00B1\\u00B6\\u00BB\\u00BF\\u00D7\\u00F7" "\\u2010-\\u2027\\u2030-\\u203E\\u2041-\\u2053\\u2055-\\u205E\\u2190-\\u245F\\u2500-\\u2775" "\\u2794-\\u2BFF\\u2E00-\\u2E7F\\u3001-\\u3003\\u3008-\\u3020\\u3030\\uFD3E\\uFD3F\\uFE45\\uFE46]", errorCode); UnicodeSet ws_pp; UnicodeSet ws_prop(UNICODE_STRING_SIMPLE("[:Pattern_White_Space:]"), errorCode); UnicodeSet ws_list(UNICODE_STRING_SIMPLE("[\\u0009-\\u000D\\ \\u0085\\u200E\\u200F\\u2028\\u2029]"), errorCode); UnicodeSet syn_ws_pp; UnicodeSet syn_ws_prop(syn_prop); syn_ws_prop.addAll(ws_prop); for(UChar32 c=0; c<=0xffff; ++c) { if(PatternProps::isSyntax(c)) { syn_pp.add(c); } if(PatternProps::isWhiteSpace(c)) { ws_pp.add(c); } if(PatternProps::isSyntaxOrWhiteSpace(c)) { syn_ws_pp.add(c); } } compareUSets(syn_pp, syn_prop, "PatternProps.isSyntax()", "[:Pattern_Syntax:]", TRUE); compareUSets(syn_pp, syn_list, "PatternProps.isSyntax()", "[Pattern_Syntax ranges]", TRUE); compareUSets(ws_pp, ws_prop, "PatternProps.isWhiteSpace()", "[:Pattern_White_Space:]", TRUE); compareUSets(ws_pp, ws_list, "PatternProps.isWhiteSpace()", "[Pattern_White_Space ranges]", TRUE); compareUSets(syn_ws_pp, syn_ws_prop, "PatternProps.isSyntaxOrWhiteSpace()", "[[:Pattern_Syntax:][:Pattern_White_Space:]]", TRUE); } // So far only minimal port of Java & cucdtst.c compareUSets(). UBool UnicodeTest::compareUSets(const UnicodeSet &a, const UnicodeSet &b, const char *a_name, const char *b_name, UBool diffIsError) { UBool same= a==b; if(!same && diffIsError) { errln("Sets are different: %s vs. %s\n", a_name, b_name); } return same; } namespace { /** * Maps a special script code to the most common script of its encoded characters. */ UScriptCode getCharScript(UScriptCode script) { switch(script) { case USCRIPT_HAN_WITH_BOPOMOFO: case USCRIPT_SIMPLIFIED_HAN: case USCRIPT_TRADITIONAL_HAN: return USCRIPT_HAN; case USCRIPT_JAPANESE: return USCRIPT_HIRAGANA; case USCRIPT_JAMO: case USCRIPT_KOREAN: return USCRIPT_HANGUL; case USCRIPT_SYMBOLS_EMOJI: return USCRIPT_SYMBOLS; default: return script; } } } // namespace void UnicodeTest::TestScriptMetadata() { IcuTestErrorCode errorCode(*this, "TestScriptMetadata()"); UnicodeSet rtl("[[:bc=R:][:bc=AL:]-[:Cn:]-[:sc=Common:]]", errorCode); // So far, sample characters are uppercase. // Georgian is special. UnicodeSet cased("[[:Lu:]-[:sc=Common:]-[:sc=Geor:]]", errorCode); for(int32_t sci = 0; sci < USCRIPT_CODE_LIMIT; ++sci) { UScriptCode sc = (UScriptCode)sci; // Run the test with -v to see which script has failures: // .../intltest$ make && ./intltest utility/UnicodeTest/TestScriptMetadata -v | grep -C 6 FAIL logln(uscript_getShortName(sc)); UScriptUsage usage = uscript_getUsage(sc); UnicodeString sample = uscript_getSampleUnicodeString(sc); UnicodeSet scriptSet; scriptSet.applyIntPropertyValue(UCHAR_SCRIPT, sc, errorCode); if(usage == USCRIPT_USAGE_NOT_ENCODED) { assertTrue("not encoded, no sample", sample.isEmpty()); assertFalse("not encoded, not RTL", uscript_isRightToLeft(sc)); assertFalse("not encoded, not LB letters", uscript_breaksBetweenLetters(sc)); assertFalse("not encoded, not cased", uscript_isCased(sc)); assertTrue("not encoded, no characters", scriptSet.isEmpty()); } else { assertFalse("encoded, has a sample character", sample.isEmpty()); UChar32 firstChar = sample.char32At(0); UScriptCode charScript = getCharScript(sc); assertEquals("script(sample(script))", (int32_t)charScript, (int32_t)uscript_getScript(firstChar, errorCode)); assertEquals("RTL vs. set", (UBool)rtl.contains(firstChar), (UBool)uscript_isRightToLeft(sc)); assertEquals("cased vs. set", (UBool)cased.contains(firstChar), (UBool)uscript_isCased(sc)); assertEquals("encoded, has characters", (UBool)(sc == charScript), (UBool)(!scriptSet.isEmpty())); if(uscript_isRightToLeft(sc)) { rtl.removeAll(scriptSet); } if(uscript_isCased(sc)) { cased.removeAll(scriptSet); } } } UnicodeString pattern; assertEquals("no remaining RTL characters", UnicodeString("[]"), rtl.toPattern(pattern)); assertEquals("no remaining cased characters", UnicodeString("[]"), cased.toPattern(pattern)); assertTrue("Hani breaks between letters", uscript_breaksBetweenLetters(USCRIPT_HAN)); assertTrue("Thai breaks between letters", uscript_breaksBetweenLetters(USCRIPT_THAI)); assertFalse("Latn does not break between letters", uscript_breaksBetweenLetters(USCRIPT_LATIN)); } void UnicodeTest::TestBidiPairedBracketType() { // BidiBrackets-6.3.0.txt says: // // The set of code points listed in this file was originally derived // using the character properties General_Category (gc), Bidi_Class (bc), // Bidi_Mirrored (Bidi_M), and Bidi_Mirroring_Glyph (bmg), as follows: // two characters, A and B, form a pair if A has gc=Ps and B has gc=Pe, // both have bc=ON and Bidi_M=Y, and bmg of A is B. Bidi_Paired_Bracket // maps A to B and vice versa, and their Bidi_Paired_Bracket_Type // property values are Open and Close, respectively. IcuTestErrorCode errorCode(*this, "TestBidiPairedBracketType()"); UnicodeSet bpt("[:^bpt=n:]", errorCode); assertTrue("bpt!=None is not empty", !bpt.isEmpty()); // The following should always be true. UnicodeSet mirrored("[:Bidi_M:]", errorCode); UnicodeSet other_neutral("[:bc=ON:]", errorCode); assertTrue("bpt!=None is a subset of Bidi_M", mirrored.containsAll(bpt)); assertTrue("bpt!=None is a subset of bc=ON", other_neutral.containsAll(bpt)); // The following are true at least initially in Unicode 6.3. UnicodeSet bpt_open("[:bpt=o:]", errorCode); UnicodeSet bpt_close("[:bpt=c:]", errorCode); UnicodeSet ps("[:Ps:]", errorCode); UnicodeSet pe("[:Pe:]", errorCode); assertTrue("bpt=Open is a subset of Ps", ps.containsAll(bpt_open)); assertTrue("bpt=Close is a subset of Pe", pe.containsAll(bpt_close)); } void UnicodeTest::TestEmojiProperties() { assertFalse("space is not Emoji", u_hasBinaryProperty(0x20, UCHAR_EMOJI)); assertTrue("shooting star is Emoji", u_hasBinaryProperty(0x1F320, UCHAR_EMOJI)); IcuTestErrorCode errorCode(*this, "TestEmojiProperties()"); UnicodeSet emoji("[:Emoji:]", errorCode); assertTrue("lots of Emoji", emoji.size() > 700); assertTrue("shooting star is Emoji_Presentation", u_hasBinaryProperty(0x1F320, UCHAR_EMOJI_PRESENTATION)); assertTrue("Fitzpatrick 6 is Emoji_Modifier", u_hasBinaryProperty(0x1F3FF, UCHAR_EMOJI_MODIFIER)); assertTrue("happy person is Emoji_Modifier_Base", u_hasBinaryProperty(0x1F64B, UCHAR_EMOJI_MODIFIER_BASE)); assertTrue("asterisk is Emoji_Component", u_hasBinaryProperty(0x2A, UCHAR_EMOJI_COMPONENT)); assertTrue("copyright is Extended_Pictographic", u_hasBinaryProperty(0xA9, UCHAR_EXTENDED_PICTOGRAPHIC)); } void UnicodeTest::TestIndicPositionalCategory() { IcuTestErrorCode errorCode(*this, "TestIndicPositionalCategory()"); UnicodeSet na(u"[:InPC=NA:]", errorCode); assertTrue("mostly NA", 1000000 <= na.size() && na.size() <= UCHAR_MAX_VALUE - 500); UnicodeSet vol(u"[:InPC=Visual_Order_Left:]", errorCode); assertTrue("some Visual_Order_Left", 19 <= vol.size() && vol.size() <= 100); assertEquals("U+08FF: NA", U_INPC_NA, u_getIntPropertyValue(0x08FF, UCHAR_INDIC_POSITIONAL_CATEGORY)); assertEquals("U+0900: Top", U_INPC_TOP, u_getIntPropertyValue(0x0900, UCHAR_INDIC_POSITIONAL_CATEGORY)); assertEquals("U+10A06: Overstruck", U_INPC_OVERSTRUCK, u_getIntPropertyValue(0x10A06, UCHAR_INDIC_POSITIONAL_CATEGORY)); } void UnicodeTest::TestIndicSyllabicCategory() { IcuTestErrorCode errorCode(*this, "TestIndicSyllabicCategory()"); UnicodeSet other(u"[:InSC=Other:]", errorCode); assertTrue("mostly Other", 1000000 <= other.size() && other.size() <= UCHAR_MAX_VALUE - 500); UnicodeSet ava(u"[:InSC=Avagraha:]", errorCode); assertTrue("some Avagraha", 16 <= ava.size() && ava.size() <= 100); assertEquals("U+08FF: Other", U_INSC_OTHER, u_getIntPropertyValue(0x08FF, UCHAR_INDIC_SYLLABIC_CATEGORY)); assertEquals("U+0900: Bindu", U_INSC_BINDU, u_getIntPropertyValue(0x0900, UCHAR_INDIC_SYLLABIC_CATEGORY)); assertEquals("U+11065: Brahmi_Joining_Number", U_INSC_BRAHMI_JOINING_NUMBER, u_getIntPropertyValue(0x11065, UCHAR_INDIC_SYLLABIC_CATEGORY)); } void UnicodeTest::TestVerticalOrientation() { IcuTestErrorCode errorCode(*this, "TestVerticalOrientation()"); UnicodeSet r(u"[:vo=R:]", errorCode); assertTrue("mostly R", 0xc0000 <= r.size() && r.size() <= 0xd0000); UnicodeSet u(u"[:vo=U:]", errorCode); assertTrue("much U", 0x40000 <= u.size() && u.size() <= 0x50000); UnicodeSet tu(u"[:vo=Tu:]", errorCode); assertTrue("some Tu", 147 <= tu.size() && tu.size() <= 300); assertEquals("U+0E01: Rotated", U_VO_ROTATED, u_getIntPropertyValue(0x0E01, UCHAR_VERTICAL_ORIENTATION)); assertEquals("U+3008: Transformed_Rotated", U_VO_TRANSFORMED_ROTATED, u_getIntPropertyValue(0x3008, UCHAR_VERTICAL_ORIENTATION)); assertEquals("U+33333: Upright", U_VO_UPRIGHT, u_getIntPropertyValue(0x33333, UCHAR_VERTICAL_ORIENTATION)); } void UnicodeTest::TestDefaultScriptExtensions() { // Block 3000..303F CJK Symbols and Punctuation defaults to scx=Bopo Hang Hani Hira Kana Yiii // but some of its characters revert to scx=
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