/******************************************************************** * COPYRIGHT: * Copyright (c) 1997-2011, 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/localpointer.h" #include "unicode/uchar.h" #include "unicode/ustring.h" #include "dadrcoll.h" #include "encoll.h" #include "frcoll.h" #include "decoll.h" #include "escoll.h" #include "ficoll.h" #include "jacoll.h" #include "trcoll.h" #include "allcoll.h" #include "g7coll.h" #include "mnkytst.h" #include "apicoll.h" #include "regcoll.h" #include "currcoll.h" #include "itercoll.h" #include "tstnorm.h" #include "normconf.h" #include "thcoll.h" #include "srchtest.h" #include "ssearch.h" #include "cntabcol.h" #include "lcukocol.h" #include "ucaconf.h" #include "svccoll.h" #include "cmemory.h" #include "alphaindextst.h" //#include "rndmcoll.h" // Set to 1 to test offsets in backAndForth() #define TEST_OFFSETS 0 #define TESTCLASS(n,classname) \ case n: \ name = #classname; \ if (exec) { \ logln(#classname "---"); \ logln(""); \ classname t; \ callTest(t, par); \ } \ break void IntlTestCollator::runIndexedTest( int32_t index, UBool exec, const char* &name, char* par ) { if (exec) { logln("TestSuite Collator: "); } switch (index) { TESTCLASS(0, CollationEnglishTest); TESTCLASS(1, CollationFrenchTest); TESTCLASS(2, CollationGermanTest); TESTCLASS(3, CollationSpanishTest); TESTCLASS(4, CollationKanaTest); TESTCLASS(5, CollationTurkishTest); TESTCLASS(6, CollationDummyTest); TESTCLASS(7, G7CollationTest); TESTCLASS(8, CollationMonkeyTest); TESTCLASS(9, CollationAPITest); TESTCLASS(10, CollationRegressionTest); TESTCLASS(11, CollationCurrencyTest); TESTCLASS(12, CollationIteratorTest); TESTCLASS(13, CollationThaiTest); TESTCLASS(14, LotusCollationKoreanTest); TESTCLASS(15, StringSearchTest); TESTCLASS(16, ContractionTableTest); #if !UCONFIG_NO_FILE_IO && !UCONFIG_NO_LEGACY_CONVERSION TESTCLASS(17, DataDrivenCollatorTest); #endif TESTCLASS(18, UCAConformanceTest); TESTCLASS(19, CollationServiceTest); TESTCLASS(20, CollationFinnishTest); // removed by weiv - we have changed Finnish collation //TESTCLASS(21, RandomCollatorTest); // See ticket 5747 about reenabling this test. TESTCLASS(21, SSearchTest); #if !UCONFIG_NO_COLLATION && !UCONFIG_NO_NORMALIZATION TESTCLASS(22, AlphabeticIndexTest); #endif default: name = ""; break; } } UCollationResult IntlTestCollator::compareUsingPartials(UCollator *coll, const UChar source[], int32_t sLen, const UChar target[], int32_t tLen, int32_t pieceSize, UErrorCode &status) { int32_t partialSKResult = 0; uint8_t sBuf[512], tBuf[512]; UCharIterator sIter, tIter; uint32_t sState[2], tState[2]; int32_t sSize = pieceSize, tSize = pieceSize; int32_t i = 0; status = U_ZERO_ERROR; sState[0] = 0; sState[1] = 0; tState[0] = 0; tState[1] = 0; while(sSize == pieceSize && tSize == pieceSize && partialSKResult == 0) { uiter_setString(&sIter, source, sLen); uiter_setString(&tIter, target, tLen); sSize = ucol_nextSortKeyPart(coll, &sIter, sState, sBuf, pieceSize, &status); tSize = ucol_nextSortKeyPart(coll, &tIter, tState, tBuf, pieceSize, &status); if(sState[0] != 0 || tState[0] != 0) { log("State != 0 : %08X %08X\n", sState[0], tState[0]); } log("%i ", i++); partialSKResult = memcmp(sBuf, tBuf, pieceSize); } if(partialSKResult < 0) { return UCOL_LESS; } else if(partialSKResult > 0) { return UCOL_GREATER; } else { return UCOL_EQUAL; } } void IntlTestCollator::doTestVariant(Collator* col, const UnicodeString &source, const UnicodeString &target, Collator::EComparisonResult result) { UErrorCode status = U_ZERO_ERROR; UCollator *myCollation = (UCollator *)((RuleBasedCollator *)col)->getUCollator(); Collator::EComparisonResult compareResult = col->compare(source, target); CollationKey srckey, tgtkey; col->getCollationKey(source, srckey, status); col->getCollationKey(target, tgtkey, status); if (U_FAILURE(status)){ errln("Creation of collation keys failed\n"); } Collator::EComparisonResult keyResult = srckey.compareTo(tgtkey); reportCResult(source, target, srckey, tgtkey, compareResult, keyResult, result, result); UColAttributeValue norm = ucol_getAttribute(myCollation, UCOL_NORMALIZATION_MODE, &status); int32_t sLen = source.length(), tLen = target.length(); const UChar* src = source.getBuffer(); const UChar* trg = target.getBuffer(); UCollationResult compareResultIter = (UCollationResult)result; { UCharIterator sIter, tIter; uiter_setString(&sIter, src, sLen); uiter_setString(&tIter, trg, tLen); compareResultIter = ucol_strcollIter(myCollation, &sIter, &tIter, &status); if(compareResultIter != (UCollationResult)result) { errln("Different result for iterative comparison "+source+" "+target); } } /* convert the strings to UTF-8 and do try comparing with char iterator */ if(!quick) { /*!QUICK*/ char utf8Source[256], utf8Target[256]; int32_t utf8SourceLen = 0, utf8TargetLen = 0; u_strToUTF8(utf8Source, 256, &utf8SourceLen, src, sLen, &status); if(U_FAILURE(status)) { /* probably buffer is not big enough */ log("Src UTF-8 buffer too small! Will not compare!\n"); } else { u_strToUTF8(utf8Target, 256, &utf8TargetLen, trg, tLen, &status); if(U_SUCCESS(status)) { /* probably buffer is not big enough */ UCollationResult compareResultUTF8 = (UCollationResult)result, compareResultUTF8Norm = (UCollationResult)result; UCharIterator sIter, tIter; /*log_verbose("Strings converted to UTF-8:%s, %s\n", aescstrdup(source,-1), aescstrdup(target,-1));*/ uiter_setUTF8(&sIter, utf8Source, utf8SourceLen); uiter_setUTF8(&tIter, utf8Target, utf8TargetLen); /*uiter_setString(&sIter, source, sLen); uiter_setString(&tIter, target, tLen);*/ compareResultUTF8 = ucol_strcollIter(myCollation, &sIter, &tIter, &status); ucol_setAttribute(myCollation, UCOL_NORMALIZATION_MODE, UCOL_ON, &status); sIter.move(&sIter, 0, UITER_START); tIter.move(&tIter, 0, UITER_START); compareResultUTF8Norm = ucol_strcollIter(myCollation, &sIter, &tIter, &status); ucol_setAttribute(myCollation, UCOL_NORMALIZATION_MODE, norm, &status); if(compareResultUTF8 != compareResultIter) { errln("different results in iterative comparison for UTF-16 and UTF-8 encoded strings. "+source+", "+target); } if(compareResultUTF8 != compareResultUTF8Norm) { errln("different results in iterative when normalization is turned on with UTF-8 strings. "+source+", "+target); } } else { log("Target UTF-8 buffer too small! Did not compare!\n"); } if(U_FAILURE(status)) { log("UTF-8 strcoll failed! Ignoring result\n"); } } } /* testing the partial sortkeys */ { /*!QUICK*/ int32_t partialSizes[] = { 3, 1, 2, 4, 8, 20, 80 }; /* just size 3 in the quick mode */ int32_t partialSizesSize = 1; if(!quick) { partialSizesSize = 7; } int32_t i = 0; log("partial sortkey test piecesize="); for(i = 0; i < partialSizesSize; i++) { UCollationResult partialSKResult = (UCollationResult)result, partialNormalizedSKResult = (UCollationResult)result; log("%i ", partialSizes[i]); partialSKResult = compareUsingPartials(myCollation, src, sLen, trg, tLen, partialSizes[i], status); if(partialSKResult != (UCollationResult)result) { errln("Partial sortkey comparison returned wrong result: "+source+", "+target+" (size "+partialSizes[i]+")"); } if(norm != UCOL_ON && !quick) { log("N "); ucol_setAttribute(myCollation, UCOL_NORMALIZATION_MODE, UCOL_ON, &status); partialNormalizedSKResult = compareUsingPartials(myCollation, src, sLen, trg, tLen, partialSizes[i], status); ucol_setAttribute(myCollation, UCOL_NORMALIZATION_MODE, norm, &status); if(partialSKResult != partialNormalizedSKResult) { errln("Partial sortkey comparison gets different result when normalization is on: "+source+", "+target+" (size "+partialSizes[i]+")"); } } } log("\n"); } /* if (compareResult != result) { errln("String comparison failed in variant test\n"); } if (keyResult != result) { errln("Collation key comparison failed in variant test\n"); } */ } void IntlTestCollator::doTest(Collator* col, const UChar *source, const UChar *target, Collator::EComparisonResult result) { doTest(col, UnicodeString(source), UnicodeString(target), result); } void IntlTestCollator::doTest(Collator* col, const UnicodeString &source, const UnicodeString &target, Collator::EComparisonResult result) { if(col) { doTestVariant(col, source, target, result); if(result == Collator::LESS) { doTestVariant(col, target, source, Collator::GREATER); } else if (result == Collator::GREATER) { doTestVariant(col, target, source, Collator::LESS); } UErrorCode status = U_ZERO_ERROR; LocalPointer c(((RuleBasedCollator *)col)->createCollationElementIterator(source)); logln("Testing iterating source: "+source); backAndForth(*c); c->setText(target, status); logln("Testing iterating target: "+target); backAndForth(*c); } } // used for collation result reporting, defined here for convenience // (maybe moved later) void IntlTestCollator::reportCResult( const UnicodeString &source, const UnicodeString &target, CollationKey &sourceKey, CollationKey &targetKey, Collator::EComparisonResult compareResult, Collator::EComparisonResult keyResult, Collator::EComparisonResult incResult, Collator::EComparisonResult expectedResult ) { if (expectedResult < -1 || expectedResult > 1) { errln("***** invalid call to reportCResult ****"); return; } UBool ok1 = (compareResult == expectedResult); UBool ok2 = (keyResult == expectedResult); UBool ok3 = (incResult == expectedResult); if (ok1 && ok2 && ok3 && !verbose) { // Keep non-verbose, passing tests fast return; } else { UnicodeString msg1(ok1 ? "Ok: compare(" : "FAIL: compare("); UnicodeString msg2(", "), msg3(") returned "), msg4("; expected "); UnicodeString prettySource, prettyTarget, sExpect, sResult; IntlTest::prettify(source, prettySource); IntlTest::prettify(target, prettyTarget); appendCompareResult(compareResult, sResult); appendCompareResult(expectedResult, sExpect); if (ok1) { logln(msg1 + prettySource + msg2 + prettyTarget + msg3 + sResult); } else { errln(msg1 + prettySource + msg2 + prettyTarget + msg3 + sResult + msg4 + sExpect); } msg1 = UnicodeString(ok2 ? "Ok: key(" : "FAIL: key("); msg2 = ").compareTo(key("; msg3 = ")) returned "; appendCompareResult(keyResult, sResult); if (ok2) { logln(msg1 + prettySource + msg2 + prettyTarget + msg3 + sResult); } else { errln(msg1 + prettySource + msg2 + prettyTarget + msg3 + sResult + msg4 + sExpect); msg1 = " "; msg2 = " vs. "; prettify(sourceKey, prettySource); prettify(targetKey, prettyTarget); errln(msg1 + prettySource + msg2 + prettyTarget); } msg1 = UnicodeString (ok3 ? "Ok: incCompare(" : "FAIL: incCompare("); msg2 = ", "; msg3 = ") returned "; appendCompareResult(incResult, sResult); if (ok3) { logln(msg1 + prettySource + msg2 + prettyTarget + msg3 + sResult); } else { errln(msg1 + prettySource + msg2 + prettyTarget + msg3 + sResult + msg4 + sExpect); } } } UnicodeString& IntlTestCollator::appendCompareResult(Collator::EComparisonResult result, UnicodeString& target) { if (result == Collator::LESS) { target += "LESS"; } else if (result == Collator::EQUAL) { target += "EQUAL"; } else if (result == Collator::GREATER) { target += "GREATER"; } else { UnicodeString huh = "?"; target += (huh + (int32_t)result); } return target; } // Produce a printable representation of a CollationKey UnicodeString &IntlTestCollator::prettify(const CollationKey &source, UnicodeString &target) { int32_t i, byteCount; const uint8_t *bytes = source.getByteArray(byteCount); target.remove(); target += "["; for (i = 0; i < byteCount; i += 1) { if (i != 0) { target += " "; } appendHex(bytes[i], 2, target); } target += "]"; return target; } void IntlTestCollator::backAndForth(CollationElementIterator &iter) { // Run through the iterator forwards and stick it into an array int32_t orderLength = 0; LocalArray orders(getOrders(iter, orderLength)); UErrorCode status = U_ZERO_ERROR; // Now go through it backwards and make sure we get the same values int32_t index = orderLength; int32_t o; // reset the iterator iter.reset(); while ((o = iter.previous(status)) != CollationElementIterator::NULLORDER) { /*int32_t offset = */iter.getOffset(); if (index == 0) { if(o == 0) { continue; } else { // this is an error, orders exhausted but there are non-ignorable CEs from // going backwards errln("Backward iteration returned a non ignorable after orders are exhausted"); break; } } index -= 1; if (o != orders[index].order) { if (o == 0) index += 1; else { while (index > 0 && orders[--index].order == 0) { // nothing... } if (o != orders[index].order) { errln("Mismatched order at index %d: 0x%0:8X vs. 0x%0:8X", index, orders[index].order, o); //break; return; } } } #if TEST_OFFSETS if (offset != orders[index].offset) { errln("Mismatched offset at index %d: %d vs. %d", index, orders[index].offset, offset); //break; return; } #endif } while (index != 0 && orders[index - 1].order == 0) { index --; } if (index != 0) { UnicodeString msg("Didn't get back to beginning - index is "); errln(msg + index); iter.reset(); err("next: "); while ((o = iter.next(status)) != CollationElementIterator::NULLORDER) { UnicodeString hexString("0x"); appendHex(o, 8, hexString); hexString += " "; err(hexString); } errln(""); err("prev: "); while ((o = iter.previous(status)) != CollationElementIterator::NULLORDER) { UnicodeString hexString("0x"); appendHex(o, 8, hexString); hexString += " "; err(hexString); } errln(""); } } /** * Return an integer array containing all of the collation orders * returned by calls to next on the specified iterator */ IntlTestCollator::Order *IntlTestCollator::getOrders(CollationElementIterator &iter, int32_t &orderLength) { int32_t maxSize = 100; int32_t size = 0; LocalArray orders(new Order[maxSize]); UErrorCode status = U_ZERO_ERROR; int32_t offset = iter.getOffset(); int32_t order; while ((order = iter.next(status)) != CollationElementIterator::NULLORDER) { if (size == maxSize) { maxSize *= 2; Order *temp = new Order[maxSize]; uprv_memcpy(temp, orders.getAlias(), size * sizeof(Order)); orders.adoptInstead(temp); } orders[size].order = order; orders[size].offset = offset; offset = iter.getOffset(); size += 1; } if (maxSize > size) { Order *temp = new Order[size]; uprv_memcpy(temp, orders.getAlias(), size * sizeof(Order)); orders.adoptInstead(temp); } orderLength = size; return orders.orphan(); } #endif /* #if !UCONFIG_NO_COLLATION */