/* ********************************************************************** * Copyright (C) 1999-2005, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * Date Name Description * 12/09/99 aliu Ported from Java. ********************************************************************** */ #include "unicode/utypes.h" #if !UCONFIG_NO_COLLATION #include "thcoll.h" #include "unicode/utypes.h" #include "unicode/coll.h" #include "unicode/sortkey.h" #include "unicode/ustring.h" #include "cstring.h" #include "filestrm.h" #include "textfile.h" /** * The TestDictionary test expects a file of this name, with this * encoding, to be present in the directory $ICU/source/test/testdata. */ //#define TEST_FILE "th18057.txt" /** * This is the most failures we show in TestDictionary. If this number * is < 0, we show all failures. */ #define MAX_FAILURES_TO_SHOW -1 CollationThaiTest::CollationThaiTest() { UErrorCode status = U_ZERO_ERROR; coll = Collator::createInstance(Locale("th", "TH", ""), status); if (coll && U_SUCCESS(status)) { //coll->setStrength(Collator::TERTIARY); } else { delete coll; coll = 0; } } CollationThaiTest::~CollationThaiTest() { delete coll; } void CollationThaiTest::runIndexedTest(int32_t index, UBool exec, const char* &name, char* /*par*/) { if((!coll) && exec) { errln(__FILE__ " cannot test - failed to create collator."); name = ""; return; } switch (index) { TESTCASE(0,TestDictionary); TESTCASE(1,TestCornerCases); TESTCASE(2,TestNamesList); TESTCASE(3,TestInvalidThai); TESTCASE(4,TestReordering); default: name = ""; break; } } /** * Read the external names list, and confirms that the collator * gets the same results when comparing lines one to another * using regular and iterative comparison. */ void CollationThaiTest::TestNamesList(void) { if (coll == 0) { errln("Error: could not construct Thai collator"); return; } UErrorCode ec = U_ZERO_ERROR; TextFile names("TestNames_Thai.txt", "UTF16LE", ec); if (U_FAILURE(ec)) { logln("Can't open TestNames_Thai.txt: %s; skipping test", u_errorName(ec)); return; } // // Loop through each word in the dictionary and compare it to the previous // word. They should be in sorted order. // UnicodeString lastWord, word; //int32_t failed = 0; int32_t wordCount = 0; while (names.readLineSkippingComments(word, ec, FALSE) && U_SUCCESS(ec)) { // Show the first 8 words being compared, so we can see what's happening ++wordCount; if (wordCount <= 8) { UnicodeString str; logln((UnicodeString)"Word " + wordCount + ": " + IntlTest::prettify(word, str)); } if (lastWord.length() > 0) { Collator::EComparisonResult result = coll->compare(lastWord, word); doTest(coll, lastWord, word, result); } lastWord = word; } assertSuccess("readLine", ec); logln((UnicodeString)"Words checked: " + wordCount); } /** * Read the external dictionary file, which is already in proper * sorted order, and confirm that the collator compares each line as * preceding the following line. */ void CollationThaiTest::TestDictionary(void) { if (coll == 0) { errln("Error: could not construct Thai collator"); return; } UErrorCode ec = U_ZERO_ERROR; TextFile riwords("riwords.txt", "UTF8", ec); if (U_FAILURE(ec)) { logln("Can't open riwords.txt: %s; skipping test", u_errorName(ec)); return; } // // Loop through each word in the dictionary and compare it to the previous // word. They should be in sorted order. // UnicodeString lastWord, word; int32_t failed = 0; int32_t wordCount = 0; while (riwords.readLineSkippingComments(word, ec, FALSE) && U_SUCCESS(ec)) { // Show the first 8 words being compared, so we can see what's happening ++wordCount; if (wordCount <= 8) { UnicodeString str; logln((UnicodeString)"Word " + wordCount + ": " + IntlTest::prettify(word, str)); } if (lastWord.length() > 0) { // line enabled for j2720 doTest(coll, lastWord, word, Collator::LESS); int32_t result = coll->compare(lastWord, word); if (result >= 0) { failed++; if (MAX_FAILURES_TO_SHOW < 0 || failed <= MAX_FAILURES_TO_SHOW) { UnicodeString str; UnicodeString msg = UnicodeString("--------------------------------------------\n") + riwords.getLineNumber() + " compare(" + IntlTest::prettify(lastWord, str); msg += UnicodeString(", ") + IntlTest::prettify(word, str) + ") returned " + result + ", expected -1\n"; UErrorCode status = U_ZERO_ERROR; CollationKey k1, k2; coll->getCollationKey(lastWord, k1, status); coll->getCollationKey(word, k2, status); if (U_FAILURE(status)) { errln((UnicodeString)"Fail: getCollationKey returned " + u_errorName(status)); return; } msg.append("key1: ").append(prettify(k1, str)).append("\n"); msg.append("key2: ").append(prettify(k2, str)); errln(msg); } } } lastWord = word; } assertSuccess("readLine", ec); if (failed != 0) { if (failed > MAX_FAILURES_TO_SHOW) { errln((UnicodeString)"Too many failures; only the first " + MAX_FAILURES_TO_SHOW + " failures were shown"); } errln((UnicodeString)"Summary: " + failed + " of " + (riwords.getLineNumber() - 1) + " comparisons failed"); } logln((UnicodeString)"Words checked: " + wordCount); } /** * Odd corner conditions taken from "How to Sort Thai Without Rewriting Sort", * by Doug Cooper, http://seasrc.th.net/paper/thaisort.zip */ void CollationThaiTest::TestCornerCases(void) { const char* TESTS[] = { // Shorter words precede longer "\\u0e01", "<", "\\u0e01\\u0e01", // Tone marks are considered after letters (i.e. are primary ignorable) "\\u0e01\\u0e32", "<", "\\u0e01\\u0e49\\u0e32", // ditto for other over-marks "\\u0e01\\u0e32", "<", "\\u0e01\\u0e32\\u0e4c", // commonly used mark-in-context order. // In effect, marks are sorted after each syllable. "\\u0e01\\u0e32\\u0e01\\u0e49\\u0e32", "<", "\\u0e01\\u0e48\\u0e32\\u0e01\\u0e49\\u0e32", // Hyphens and other punctuation follow whitespace but come before letters "\\u0e01\\u0e32", "<", "\\u0e01\\u0e32-", "\\u0e01\\u0e32-", "<", "\\u0e01\\u0e32\\u0e01\\u0e32", // Doubler follows an indentical word without the doubler "\\u0e01\\u0e32", "<", "\\u0e01\\u0e32\\u0e46", "\\u0e01\\u0e32\\u0e46", "<", "\\u0e01\\u0e32\\u0e01\\u0e32", // \\u0e45 after either \\u0e24 or \\u0e26 is treated as a single // combining character, similar to "c < ch" in traditional spanish. // TODO: beef up this case "\\u0e24\\u0e29\\u0e35", "<", "\\u0e24\\u0e45\\u0e29\\u0e35", "\\u0e26\\u0e29\\u0e35", "<", "\\u0e26\\u0e45\\u0e29\\u0e35", // Vowels reorder, should compare \\u0e2d and \\u0e34 "\\u0e40\\u0e01\\u0e2d", "<", "\\u0e40\\u0e01\\u0e34", // Tones are compared after the rest of the word (e.g. primary ignorable) "\\u0e01\\u0e32\\u0e01\\u0e48\\u0e32", "<", "\\u0e01\\u0e49\\u0e32\\u0e01\\u0e32", // Periods are ignored entirely "\\u0e01.\\u0e01.", "<", "\\u0e01\\u0e32", }; const int32_t TESTS_length = (int32_t)(sizeof(TESTS)/sizeof(TESTS[0])); if (coll == 0) { errln("Error: could not construct Thai collator"); return; } compareArray(*coll, TESTS, TESTS_length); } //------------------------------------------------------------------------ // Internal utilities //------------------------------------------------------------------------ void CollationThaiTest::compareArray(Collator& c, const char* tests[], int32_t testsLength) { for (int32_t i = 0; i < testsLength; i += 3) { Collator::EComparisonResult expect; if (tests[i+1][0] == '<') { expect = Collator::LESS; } else if (tests[i+1][0] == '>') { expect = Collator::GREATER; } else if (tests[i+1][0] == '=') { expect = Collator::EQUAL; } else { // expect = Integer.decode(tests[i+1]).intValue(); errln((UnicodeString)"Error: unknown operator " + tests[i+1]); return; } UnicodeString s1, s2; parseChars(s1, tests[i]); parseChars(s2, tests[i+2]); doTest(&c, s1, s2, expect); #if 0 UErrorCode status = U_ZERO_ERROR; int32_t result = c.compare(s1, s2); if (sign(result) != sign(expect)) { UnicodeString t1, t2; errln(UnicodeString("") + i/3 + ": compare(" + IntlTest::prettify(s1, t1) + " , " + IntlTest::prettify(s2, t2) + ") got " + result + "; expected " + expect); CollationKey k1, k2; c.getCollationKey(s1, k1, status); c.getCollationKey(s2, k2, status); if (U_FAILURE(status)) { errln((UnicodeString)"Fail: getCollationKey returned " + u_errorName(status)); return; } errln((UnicodeString)" key1: " + prettify(k1, t1) ); errln((UnicodeString)" key2: " + prettify(k2, t2) ); } else { // Collator.compare worked OK; now try the collation keys CollationKey k1, k2; c.getCollationKey(s1, k1, status); c.getCollationKey(s2, k2, status); if (U_FAILURE(status)) { errln((UnicodeString)"Fail: getCollationKey returned " + u_errorName(status)); return; } result = k1.compareTo(k2); if (sign(result) != sign(expect)) { UnicodeString t1, t2; errln(UnicodeString("") + i/3 + ": key(" + IntlTest::prettify(s1, t1) + ").compareTo(key(" + IntlTest::prettify(s2, t2) + ")) got " + result + "; expected " + expect); errln((UnicodeString)" " + prettify(k1, t1) + " vs. " + prettify(k2, t2)); } } #endif } } int8_t CollationThaiTest::sign(int32_t i) { if (i < 0) return -1; if (i > 0) return 1; return 0; } /** * Set a UnicodeString corresponding to the given string. Use * UnicodeString and the default converter, unless we see the sequence * "\\u", in which case we interpret the subsequent escape. */ UnicodeString& CollationThaiTest::parseChars(UnicodeString& result, const char* chars) { return result = CharsToUnicodeString(chars); } UCollator *thaiColl = NULL; U_CDECL_BEGIN static int U_CALLCONV StrCmp(const void *p1, const void *p2) { return ucol_strcoll(thaiColl, *(UChar **) p1, -1, *(UChar **)p2, -1); } U_CDECL_END #define LINES 6 void CollationThaiTest::TestInvalidThai(void) { const char *tests[LINES] = { "\\u0E44\\u0E01\\u0E44\\u0E01", "\\u0E44\\u0E01\\u0E01\\u0E44", "\\u0E01\\u0E44\\u0E01\\u0E44", "\\u0E01\\u0E01\\u0E44\\u0E44", "\\u0E44\\u0E44\\u0E01\\u0E01", "\\u0E01\\u0E44\\u0E44\\u0E01", }; UChar strings[LINES][20]; UChar *toSort[LINES]; int32_t i = 0, j = 0, len = 0; UErrorCode coll_status = U_ZERO_ERROR; UnicodeString iteratorText; thaiColl = ucol_open ("th_TH", &coll_status); if (U_FAILURE(coll_status)) { errln("Error opening Thai collator: %s", u_errorName(coll_status)); return; } CollationElementIterator* c = ((RuleBasedCollator *)coll)->createCollationElementIterator( iteratorText ); for(i = 0; i < (int32_t)(sizeof(tests)/sizeof(tests[0])); i++) { len = u_unescape(tests[i], strings[i], 20); strings[i][len] = 0; toSort[i] = strings[i]; } qsort (toSort, LINES, sizeof (UChar *), StrCmp); for (i=0; i < LINES; i++) { logln("%i", i); for (j=i+1; j < LINES; j++) { if (ucol_strcoll (thaiColl, toSort[i], -1, toSort[j], -1) == UCOL_GREATER) { // inconsistency ordering found! errln("Inconsistent ordering between strings %i and %i", i, j); } } iteratorText.setTo(toSort[i]); c->setText(iteratorText, coll_status); backAndForth(*c); } ucol_close(thaiColl); delete c; } void CollationThaiTest::TestReordering(void) { const char *tests[] = { "\\u0E41c\\u0301", "=", "\\u0E41\\u0107", // composition "\\u0E41\\uD835\\uDFCE", "<", "\\u0E41\\uD835\\uDFCF", // supplementaries "\\u0E41\\uD834\\uDD5F", "=", "\\u0E41\\uD834\\uDD58\\uD834\\uDD65", // supplementary composition decomps to supplementary "\\u0E41\\uD87E\\uDC02", "=", "\\u0E41\\u4E41", // supplementary composition decomps to BMP "\\u0E41\\u0301", "=", "\\u0E41\\u0301", // unsafe (just checking backwards iteration) "\\u0E41\\u0301\\u0316", "=", "\\u0E41\\u0316\\u0301", // after UCA 4.1, the two lines below are not equal anymore do not have equal sign "\\u0e24\\u0e41", "<", "\\u0e41\\u0e24", // exiting contraction bug "\\u0e3f\\u0e3f\\u0e24\\u0e41", "<", "\\u0e3f\\u0e3f\\u0e41\\u0e24", "abc\\u0E41c\\u0301", "=", "abc\\u0E41\\u0107", // composition "abc\\u0E41\\uD834\\uDC00", "<", "abc\\u0E41\\uD834\\uDC01", // supplementaries "abc\\u0E41\\uD834\\uDD5F", "=", "abc\\u0E41\\uD834\\uDD58\\uD834\\uDD65", // supplementary composition decomps to supplementary "abc\\u0E41\\uD87E\\uDC02", "=", "abc\\u0E41\\u4E41", // supplementary composition decomps to BMP "abc\\u0E41\\u0301", "=", "abc\\u0E41\\u0301", // unsafe (just checking backwards iteration) "abc\\u0E41\\u0301\\u0316", "=", "abc\\u0E41\\u0316\\u0301", "\\u0E41c\\u0301abc", "=", "\\u0E41\\u0107abc", // composition "\\u0E41\\uD834\\uDC00abc", "<", "\\u0E41\\uD834\\uDC01abc", // supplementaries "\\u0E41\\uD834\\uDD5Fabc", "=", "\\u0E41\\uD834\\uDD58\\uD834\\uDD65abc", // supplementary composition decomps to supplementary "\\u0E41\\uD87E\\uDC02abc", "=", "\\u0E41\\u4E41abc", // supplementary composition decomps to BMP "\\u0E41\\u0301abc", "=", "\\u0E41\\u0301abc", // unsafe (just checking backwards iteration) "\\u0E41\\u0301\\u0316abc", "=", "\\u0E41\\u0316\\u0301abc", "abc\\u0E41c\\u0301abc", "=", "abc\\u0E41\\u0107abc", // composition "abc\\u0E41\\uD834\\uDC00abc", "<", "abc\\u0E41\\uD834\\uDC01abc", // supplementaries "abc\\u0E41\\uD834\\uDD5Fabc", "=", "abc\\u0E41\\uD834\\uDD58\\uD834\\uDD65abc", // supplementary composition decomps to supplementary "abc\\u0E41\\uD87E\\uDC02abc", "=", "abc\\u0E41\\u4E41abc", // supplementary composition decomps to BMP "abc\\u0E41\\u0301abc", "=", "abc\\u0E41\\u0301abc", // unsafe (just checking backwards iteration) "abc\\u0E41\\u0301\\u0316abc", "=", "abc\\u0E41\\u0316\\u0301abc", }; compareArray(*coll, tests, sizeof(tests)/sizeof(tests[0])); const char *rule = "& c < ab"; const char *testcontraction[] = { "\\u0E41ab", ">", "\\u0E41c"}; // After UCA 4.1 Thai are normal so won't break a contraction UnicodeString rules; UErrorCode status = U_ZERO_ERROR; parseChars(rules, rule); RuleBasedCollator *rcoll = new RuleBasedCollator(rules, status); if(U_SUCCESS(status)) { compareArray(*rcoll, testcontraction, 3); delete rcoll; } else { errln("Couldn't instantiate collator from rules"); } } #endif /* #if !UCONFIG_NO_COLLATION */