/******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2001, International Business Machines Corporation and * others. All Rights Reserved. ********************************************************************/ /** * IntlTestCollator is the medium level test class for everything in the directory "collate". */ /*********************************************************************** * Modification history * Date Name Description * 02/14/2001 synwee Compare with cintltst and commented away tests * that are not run. ***********************************************************************/ #include "unicode/utypes.h" #if !UCONFIG_NO_COLLATION #include "unicode/uchar.h" #include "cstring.h" #include "ucol_tok.h" #include "tscoll.h" #include "dadrcoll.h" U_CDECL_BEGIN static void U_CALLCONV deleteSeqElement(void *elem) { delete((SeqElement *)elem); } U_CDECL_END DataDrivenCollatorTest::DataDrivenCollatorTest() : seq(StringCharacterIterator("")), status(U_ZERO_ERROR), sequences(status) { TestLog testLog; driver = TestDataModule::getTestDataModule("DataDrivenCollationTest", testLog, status); sequences.setDeleter(deleteSeqElement); } DataDrivenCollatorTest::~DataDrivenCollatorTest() { delete driver; } void DataDrivenCollatorTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char* /*par */) { if(driver != NULL) { if (exec) { logln("TestSuite Collator: "); } const DataMap *info = NULL; TestData *testData = driver->createTestData(index, status); if(U_SUCCESS(status)) { name = testData->getName(); if(testData->getInfo(info, status)) { log(info->getString("Description", status)); } if(exec) { log(name); logln("---"); logln(""); processTest(testData); } delete testData; } else { name = ""; } } else { errln("collate/DataDrivenTest data not initialized!"); name = ""; } } UBool DataDrivenCollatorTest::setTestSequence(const UnicodeString &setSequence, SeqElement &el) { seq.setText(setSequence); return getNextInSequence(el); } // Parses the sequence to be tested UBool DataDrivenCollatorTest::getNextInSequence(SeqElement &el) { el.source.truncate(0); UBool quoted = FALSE; UBool quotedsingle = FALSE; UChar32 currChar = 0; while(currChar != CharacterIterator::DONE) { currChar= seq.next32PostInc(); if(!quoted) { if(u_isWhitespace(currChar)) { continue; } switch(currChar) { case CharacterIterator::DONE: break; case 0x003C /* < */: el.relation = Collator::LESS; currChar = CharacterIterator::DONE; break; case 0x003D /* = */: el.relation = Collator::EQUAL; currChar = CharacterIterator::DONE; break; case 0x003E /* > */: el.relation = Collator::GREATER; currChar = CharacterIterator::DONE; break; case 0x0027 /* ' */: /* very basic quoting */ quoted = TRUE; quotedsingle = FALSE; break; case 0x005c /* \ */: /* single quote */ quoted = TRUE; quotedsingle = TRUE; break; default: el.source.append(currChar); } } else { if(currChar == CharacterIterator::DONE) { status = U_ILLEGAL_ARGUMENT_ERROR; errln("Quote in sequence not closed!"); return FALSE; } else if(currChar == 0x0027) { quoted = FALSE; } else { el.source.append(currChar); } if(quotedsingle) { quoted = FALSE; } } } return seq.hasNext(); } // Reads the options string and sets appropriate attributes in collator void DataDrivenCollatorTest::processArguments(Collator *col, const UChar *start, int32_t optLen) { const UChar *end = start+optLen; UColAttribute attrib; UColAttributeValue value; if(optLen == 0) { return; } start = ucol_tok_getNextArgument(start, end, &attrib, &value, &status); while(start != NULL) { if(U_SUCCESS(status)) { col->setAttribute(attrib, value, status); } start = ucol_tok_getNextArgument(start, end, &attrib, &value, &status); } } void DataDrivenCollatorTest::processTest(TestData *testData) { Collator *col = NULL; const UChar *arguments = NULL; int32_t argLen = 0; const DataMap *settings = NULL; const DataMap *currentCase = NULL; UErrorCode intStatus = U_ZERO_ERROR; UnicodeString testSetting; while(testData->nextSettings(settings, status)) { intStatus = U_ZERO_ERROR; // try to get a locale testSetting = settings->getString("TestLocale", intStatus); if(U_SUCCESS(intStatus)) { char localeName[256]; testSetting.extract(0, testSetting.length(), localeName, ""); col = Collator::createInstance(localeName, status); if(U_SUCCESS(status)) { logln("Testing collator for locale "+testSetting); } else { errln("Unable to instantiate collator for locale "+testSetting); return; } } else { // if no locale, try from rules intStatus = U_ZERO_ERROR; testSetting = settings->getString("Rules", intStatus); if(U_SUCCESS(intStatus)) { col = new RuleBasedCollator(testSetting, status); if(U_SUCCESS(status)) { logln("Testing collator for rules "+testSetting); } else { errln("Unable to instantiate collator for rules "+testSetting); return; } } else { errln("No collator definition!"); } } if(col != NULL) { // get attributes testSetting = settings->getString("Arguments", intStatus); if(U_SUCCESS(intStatus)) { logln("Arguments: "+testSetting); argLen = testSetting.length(); arguments = testSetting.getBuffer(); processArguments(col, arguments, argLen); if(U_FAILURE(status)) { errln("Couldn't process arguments"); break; } } else { intStatus = U_ZERO_ERROR; } // Start the processing while(testData->nextCase(currentCase, status)) { UnicodeString sequence = currentCase->getString("sequence", status); if(U_SUCCESS(status)) { processSequence(col, sequence); } } } else { errln("Couldn't instantiate a collator!"); } delete col; col = NULL; } } void DataDrivenCollatorTest::processSequence(Collator* col, const UnicodeString &sequence) { Collator::EComparisonResult relation = Collator::EQUAL; UBool hasNext; SeqElement *source = NULL; SeqElement *target = NULL; int32_t j = 0; sequences.removeAllElements(); target = new SeqElement(); setTestSequence(sequence, *target); sequences.addElement(target, status); do { relation = Collator::EQUAL; target = new SeqElement(); hasNext = getNextInSequence(*target); for(j = sequences.size(); j > 0; j--) { source = (SeqElement *)sequences.elementAt(j-1); if(relation == Collator::EQUAL && source->relation != Collator::EQUAL) { relation = source->relation; } doTest(col, source->source, target->source, relation); } sequences.addElement(target, status); source = target; } while(hasNext); } #endif /* #if !UCONFIG_NO_COLLATION */