/******************************************************************** * COPYRIGHT: * Copyright (c) 2011, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ // // file: alphaindex.cpp // Alphabetic Index Tests. // #include "intltest.h" #include "alphaindextst.h" #include "unicode/alphaindex.h" #include "unicode/coll.h" #include "unicode/tblcoll.h" #include "unicode/uniset.h" #if !UCONFIG_NO_COLLATION && !UCONFIG_NO_NORMALIZATION // #include // #include AlphabeticIndexTest::AlphabeticIndexTest() { } AlphabeticIndexTest::~AlphabeticIndexTest() { } void AlphabeticIndexTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par*/ ) { if (exec) logln("TestSuite AlphabeticIndex: "); switch (index) { case 0: name = "APITest"; if (exec) APITest(); break; case 1: name = "ManyLocales"; if (exec) ManyLocalesTest(); break; case 2: name = "HackPinyinTest"; if (exec) HackPinyinTest(); break; default: name = ""; break; //needed to end loop } } #define TEST_CHECK_STATUS {if (U_FAILURE(status)) {dataerrln("%s:%d: Test failure. status=%s", \ __FILE__, __LINE__, u_errorName(status)); return;}} #define TEST_ASSERT(expr) {if ((expr)==FALSE) {errln("%s:%d: Test failure \n", __FILE__, __LINE__);};} // // APITest. Invoke every function at least once, and check that it does something. // Does not attempt to check complete functionality. // void AlphabeticIndexTest::APITest() { // // Simple constructor and destructor, getBucketCount() // UErrorCode status = U_ZERO_ERROR; int32_t lc = 0; int32_t i = 0; AlphabeticIndex *index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; lc = index->getBucketCount(status); TEST_CHECK_STATUS; TEST_ASSERT(28 == lc); // 26 letters plus two under/overflow labels. //printf("getBucketCount() == %d\n", lc); delete index; // addLabels() status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; UnicodeSet additions; additions.add((UChar32)0x410).add((UChar32)0x415); // A couple of Cyrillic letters index->addLabels(additions, status); TEST_CHECK_STATUS; lc = index->getBucketCount(status); TEST_CHECK_STATUS; // TODO: should get 31. Java also gives 30. Needs fixing TEST_ASSERT(30 == lc); // 26 Latin letters plus // TEST_ASSERT(31 == lc); // 26 Latin letters plus // 2 Cyrillic letters plus // 1 inflow label plus // two under/overflow labels. // std::cout << lc << std::endl; delete index; // addLabels(Locale) status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; AlphabeticIndex &aip = index->addLabels(Locale::getJapanese(), status); TEST_ASSERT(&aip == index); TEST_CHECK_STATUS; lc = index->getBucketCount(status); TEST_CHECK_STATUS; TEST_ASSERT(35 < lc); // Japanese should add a bunch. Don't rely on the exact value. delete index; // GetCollator(), Get under/in/over flow labels status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getGerman(), status); TEST_CHECK_STATUS; Collator *germanCol = Collator::createInstance(Locale::getGerman(), status); TEST_CHECK_STATUS; const RuleBasedCollator &indexCol = index->getCollator(); TEST_ASSERT(*germanCol == indexCol); delete germanCol; UnicodeString ELLIPSIS; ELLIPSIS.append((UChar32)0x2026); UnicodeString s = index->getUnderflowLabel(); TEST_ASSERT(ELLIPSIS == s); s = index->getOverflowLabel(); TEST_ASSERT(ELLIPSIS == s); s = index->getInflowLabel(); TEST_ASSERT(ELLIPSIS == s); index->setOverflowLabel(UNICODE_STRING_SIMPLE("O"), status); index->setUnderflowLabel(UNICODE_STRING_SIMPLE("U"), status).setInflowLabel(UNICODE_STRING_SIMPLE("I"), status); s = index->getUnderflowLabel(); TEST_ASSERT(UNICODE_STRING_SIMPLE("U") == s); s = index->getOverflowLabel(); TEST_ASSERT(UNICODE_STRING_SIMPLE("O") == s); s = index->getInflowLabel(); TEST_ASSERT(UNICODE_STRING_SIMPLE("I") == s); delete index; const UnicodeString adam = UNICODE_STRING_SIMPLE("Adam"); const UnicodeString baker = UNICODE_STRING_SIMPLE("Baker"); const UnicodeString charlie = UNICODE_STRING_SIMPLE("Charlie"); const UnicodeString chad = UNICODE_STRING_SIMPLE("Chad"); const UnicodeString zed = UNICODE_STRING_SIMPLE("Zed"); const UnicodeString Cyrillic = UNICODE_STRING_SIMPLE("\\u0410\\u0443\\u0435").unescape(); // addRecord(), verify that it comes back out. // status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; index->addRecord(UnicodeString("Adam"), this, status); UBool b; TEST_CHECK_STATUS; index->resetBucketIterator(status); TEST_CHECK_STATUS; index->nextBucket(status); // Move to underflow label index->nextBucket(status); // Move to "A" TEST_CHECK_STATUS; const UnicodeString &label2 = index->getBucketLabel(); UnicodeString A_STR = UNICODE_STRING_SIMPLE("A"); TEST_ASSERT(A_STR == label2); b = index->nextRecord(status); TEST_CHECK_STATUS; TEST_ASSERT(b); const UnicodeString &itemName = index->getRecordName(); TEST_ASSERT(adam == itemName); const void *itemContext = index->getRecordData(); TEST_ASSERT(itemContext == this); delete index; // clearRecords, addRecord(), Iteration status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; while (index->nextBucket(status)) { TEST_CHECK_STATUS; while (index->nextRecord(status)) { TEST_CHECK_STATUS; TEST_ASSERT(FALSE); // No items have been added. } TEST_CHECK_STATUS; } index->addRecord(adam, NULL, status); index->addRecord(baker, NULL, status); index->addRecord(charlie, NULL, status); index->addRecord(chad, NULL, status); TEST_CHECK_STATUS; int itemCount = 0; index->resetBucketIterator(status); while (index->nextBucket(status)) { TEST_CHECK_STATUS; while (index->nextRecord(status)) { TEST_CHECK_STATUS; ++itemCount; } } TEST_CHECK_STATUS; TEST_ASSERT(itemCount == 4); TEST_ASSERT(index->nextBucket(status) == FALSE); index->resetBucketIterator(status); TEST_CHECK_STATUS; TEST_ASSERT(index->nextBucket(status) == TRUE); index->clearRecords(status); TEST_CHECK_STATUS; index->resetBucketIterator(status); while (index->nextBucket(status)) { TEST_CHECK_STATUS; while (index->nextRecord(status)) { TEST_ASSERT(FALSE); // No items have been added. } } TEST_CHECK_STATUS; delete index; // getBucketLabel(), getBucketType() status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; index->setUnderflowLabel(adam, status).setOverflowLabel(charlie, status); TEST_CHECK_STATUS; for (i=0; index->nextBucket(status); i++) { TEST_CHECK_STATUS; UnicodeString label = index->getBucketLabel(); UAlphabeticIndexLabelType type = index->getBucketLabelType(); if (i == 0) { TEST_ASSERT(type == U_ALPHAINDEX_UNDERFLOW); TEST_ASSERT(label == adam); } else if (i <= 26) { // Labels A - Z for English locale TEST_ASSERT(type == U_ALPHAINDEX_NORMAL); UnicodeString expectedLabel((UChar)(0x40 + i)); TEST_ASSERT(expectedLabel == label); } else if (i == 27) { TEST_ASSERT(type == U_ALPHAINDEX_OVERFLOW); TEST_ASSERT(label == charlie); } else { TEST_ASSERT(FALSE); } } TEST_ASSERT(i==28); delete index; // getBucketIndex() status = U_ZERO_ERROR; index = new AlphabeticIndex(Locale::getEnglish(), status); TEST_CHECK_STATUS; int32_t n = index->getBucketIndex(adam, status); TEST_CHECK_STATUS; TEST_ASSERT(n == 1); /* Label #0 is underflow, 1 is A, etc. */ n = index->getBucketIndex(baker, status); TEST_ASSERT(n == 2); n = index->getBucketIndex(Cyrillic, status); TEST_ASSERT(n == 27); // Overflow label n = index->getBucketIndex(zed, status); TEST_ASSERT(n == 26); for (i=0; index->nextBucket(status); i++) { n = index->getBucketIndex(); TEST_ASSERT(n == i); UnicodeString label = index->getBucketLabel(); TEST_ASSERT(n == i); } TEST_ASSERT(i == 28); delete index; index = new AlphabeticIndex(Locale::createFromName("ru"), status); //Locale loc = Locale::createFromName(localeName); TEST_CHECK_STATUS; n = index->getBucketIndex(adam, status); TEST_CHECK_STATUS; TEST_ASSERT(n == 0); // Label #0 is underflow n = index->getBucketIndex(baker, status); TEST_ASSERT(n == 0); n = index->getBucketIndex(Cyrillic, status); TEST_ASSERT(n == 1); // Overflow label n = index->getBucketIndex(zed, status); TEST_ASSERT(n == 0); delete index; } static const char * KEY_LOCALES[] = { "en", "es", "de", "fr", "ja", "it", "tr", "pt", "zh", "nl", "pl", "ar", "ru", "zh_Hant", "ko", "th", "sv", "fi", "da", "he", "nb", "el", "hr", "bg", "sk", "lt", "vi", "lv", "sr", "pt_PT", "ro", "hu", "cs", "id", "sl", "fil", "fa", "uk", "ca", "hi", "et", "eu", "is", "sw", "ms", "bn", "am", "ta", "te", "mr", "ur", "ml", "kn", "gu", "or", ""}; void AlphabeticIndexTest::ManyLocalesTest() { UErrorCode status = U_ZERO_ERROR; int32_t lc = 0; AlphabeticIndex *index = NULL; for (int i=0; ; ++i) { status = U_ZERO_ERROR; const char *localeName = KEY_LOCALES[i]; if (localeName[0] == 0) { break; } // std::cout << localeName << " "; Locale loc = Locale::createFromName(localeName); index = new AlphabeticIndex(loc, status); TEST_CHECK_STATUS; lc = index->getBucketCount(status); TEST_CHECK_STATUS; // std::cout << "getBucketCount() == " << lc << std::endl; while (index->nextBucket(status)) { TEST_CHECK_STATUS; const UnicodeString &label = index->getBucketLabel(); TEST_ASSERT(label.length()>0); // std::string ss; // std::cout << ":" << label.toUTF8String(ss); } // std::cout << ":" << std::endl; delete index; } } // Test data for Pinyin based indexes. // The Chinese characters should be distributed under latin labels in // an index. static const char *pinyinTestData[] = { "\\u0101", "\\u5416", "\\u58ba", // "b", "\\u516b", "\\u62d4", "\\u8500", // "c", "\\u5693", "\\u7938", "\\u9e7e", // "d", "\\u5491", "\\u8fcf", "\\u964a", // "\\u0113","\\u59b8", "\\u92e8", "\\u834b", // "f", "\\u53d1", "\\u9197", "\\u99a5", // "g", "\\u7324", "\\u91d3", "\\u8142", // "h", "\\u598e", "\\u927f", "\\u593b", // "j", "\\u4e0c", "\\u6785", "\\u9d58", // "k", "\\u5494", "\\u958b", "\\u7a52", // "l", "\\u5783", "\\u62c9", "\\u9ba5", // "m", "\\u5638", "\\u9ebb", "\\u65c0", // "n", "\\u62ff", "\\u80ad", "\\u685b", // "\\u014D", "\\u5662", "\\u6bee", "\\u8bb4", // "p", "\\u5991", "\\u8019", "\\u8c31", // "q", "\\u4e03", "\\u6053", "\\u7f56", // "r", "\\u5465", "\\u72aa", "\\u6e03", // "s", "\\u4ee8", "\\u9491", "\\u93c1", // "t", "\\u4ed6", "\\u9248", "\\u67dd", // "w", "\\u5c72", "\\u5558", "\\u5a7a", // "x", "\\u5915", "\\u5438", "\\u6bbe", // "y", "\\u4e2b", "\\u82bd", "\\u8574", // "z", "\\u5e00", "\\u707d", "\\u5c0a", NULL }; void AlphabeticIndexTest::HackPinyinTest() { UErrorCode status = U_ZERO_ERROR; AlphabeticIndex aindex(Locale::createFromName("zh"), status); TEST_CHECK_STATUS; UnicodeString names[sizeof(pinyinTestData) / sizeof(pinyinTestData[0])]; int32_t nameCount; for (nameCount=0; pinyinTestData[nameCount] != NULL; nameCount++) { names[nameCount] = UnicodeString(pinyinTestData[nameCount], -1, UnicodeString::kInvariant).unescape(); aindex.addRecord(names[nameCount], &names[nameCount], status); TEST_CHECK_STATUS; if (U_FAILURE(status)) { return; } } TEST_ASSERT(nameCount == aindex.getRecordCount(status)); // Weak checking: make sure that none of the Chinese names landed in the overflow bucket // of the index, and that the names are distributed among several buckets. // (Exact expected data would be subject to change with evolution of the collation rules.) int32_t bucketCount = 0; int32_t filledBucketCount = 0; while (aindex.nextBucket(status)) { bucketCount++; UnicodeString label = aindex.getBucketLabel(); // std::string s; // std::cout << label.toUTF8String(s) << ": "; UBool bucketHasContents = FALSE; while (aindex.nextRecord(status)) { bucketHasContents = TRUE; UnicodeString name = aindex.getRecordName(); if (aindex.getBucketLabelType() != U_ALPHAINDEX_NORMAL) { errln("File %s, Line %d, Name \"\\u%x\" is in an under or overflow bucket.", __FILE__, __LINE__, name.char32At(0)); } // s.clear(); // std::cout << aindex.getRecordName().toUTF8String(s) << " "; } if (bucketHasContents) { filledBucketCount++; } // std::cout << std::endl; } TEST_ASSERT(bucketCount > 25); TEST_ASSERT(filledBucketCount > 15); } #endif