/* ******************************************************************************* * Copyright (C) 2010-2014, International Business Machines * Corporation and others. All Rights Reserved. ******************************************************************************* * file name: bytetrietest.cpp * encoding: US-ASCII * tab size: 8 (not used) * indentation:4 * * created on: 2010nov16 * created by: Markus W. Scherer */ #include #include "unicode/utypes.h" #include "unicode/bytestrie.h" #include "unicode/bytestriebuilder.h" #include "unicode/localpointer.h" #include "unicode/stringpiece.h" #include "intltest.h" #include "cmemory.h" struct StringAndValue { const char *s; int32_t value; }; class BytesTrieTest : public IntlTest { public: BytesTrieTest(); virtual ~BytesTrieTest(); void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=NULL); void TestBuilder(); void TestEmpty(); void Test_a(); void Test_a_ab(); void TestShortestBranch(); void TestBranches(); void TestLongSequence(); void TestLongBranch(); void TestValuesForState(); void TestCompact(); BytesTrie *buildMonthsTrie(UStringTrieBuildOption buildOption); void TestHasUniqueValue(); void TestGetNextBytes(); void TestIteratorFromBranch(); void TestIteratorFromLinearMatch(); void TestTruncatingIteratorFromRoot(); void TestTruncatingIteratorFromLinearMatchShort(); void TestTruncatingIteratorFromLinearMatchLong(); void TestIteratorFromBytes(); void checkData(const StringAndValue data[], int32_t dataLength); void checkData(const StringAndValue data[], int32_t dataLength, UStringTrieBuildOption buildOption); BytesTrie *buildTrie(const StringAndValue data[], int32_t dataLength, UStringTrieBuildOption buildOption); void checkFirst(BytesTrie &trie, const StringAndValue data[], int32_t dataLength); void checkNext(BytesTrie &trie, const StringAndValue data[], int32_t dataLength); void checkNextWithState(BytesTrie &trie, const StringAndValue data[], int32_t dataLength); void checkNextString(BytesTrie &trie, const StringAndValue data[], int32_t dataLength); void checkIterator(const BytesTrie &trie, const StringAndValue data[], int32_t dataLength); void checkIterator(BytesTrie::Iterator &iter, const StringAndValue data[], int32_t dataLength); private: BytesTrieBuilder *builder_; }; extern IntlTest *createBytesTrieTest() { return new BytesTrieTest(); } BytesTrieTest::BytesTrieTest() : builder_(NULL) { IcuTestErrorCode errorCode(*this, "BytesTrieTest()"); builder_=new BytesTrieBuilder(errorCode); } BytesTrieTest::~BytesTrieTest() { delete builder_; } void BytesTrieTest::runIndexedTest(int32_t index, UBool exec, const char *&name, char * /*par*/) { if(exec) { logln("TestSuite BytesTrieTest: "); } TESTCASE_AUTO_BEGIN; TESTCASE_AUTO(TestBuilder); TESTCASE_AUTO(TestEmpty); TESTCASE_AUTO(Test_a); TESTCASE_AUTO(Test_a_ab); TESTCASE_AUTO(TestShortestBranch); TESTCASE_AUTO(TestBranches); TESTCASE_AUTO(TestLongSequence); TESTCASE_AUTO(TestLongBranch); TESTCASE_AUTO(TestValuesForState); TESTCASE_AUTO(TestCompact); TESTCASE_AUTO(TestHasUniqueValue); TESTCASE_AUTO(TestGetNextBytes); TESTCASE_AUTO(TestIteratorFromBranch); TESTCASE_AUTO(TestIteratorFromLinearMatch); TESTCASE_AUTO(TestTruncatingIteratorFromRoot); TESTCASE_AUTO(TestTruncatingIteratorFromLinearMatchShort); TESTCASE_AUTO(TestTruncatingIteratorFromLinearMatchLong); TESTCASE_AUTO(TestIteratorFromBytes); TESTCASE_AUTO_END; } void BytesTrieTest::TestBuilder() { IcuTestErrorCode errorCode(*this, "TestBuilder()"); builder_->clear(); delete builder_->build(USTRINGTRIE_BUILD_FAST, errorCode); if(errorCode.reset()!=U_INDEX_OUTOFBOUNDS_ERROR) { errln("BytesTrieBuilder().build() did not set U_INDEX_OUTOFBOUNDS_ERROR"); return; } // TODO: remove .build(...) once add() checks for duplicates. builder_->add("=", 0, errorCode).add("=", 1, errorCode).build(USTRINGTRIE_BUILD_FAST, errorCode); if(errorCode.reset()!=U_ILLEGAL_ARGUMENT_ERROR) { errln("BytesTrieBuilder.add() did not detect duplicates"); return; } } void BytesTrieTest::TestEmpty() { static const StringAndValue data[]={ { "", 0 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::Test_a() { static const StringAndValue data[]={ { "a", 1 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::Test_a_ab() { static const StringAndValue data[]={ { "a", 1 }, { "ab", 100 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestShortestBranch() { static const StringAndValue data[]={ { "a", 1000 }, { "b", 2000 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestBranches() { static const StringAndValue data[]={ { "a", 0x10 }, { "cc", 0x40 }, { "e", 0x100 }, { "ggg", 0x400 }, { "i", 0x1000 }, { "kkkk", 0x4000 }, { "n", 0x10000 }, { "ppppp", 0x40000 }, { "r", 0x100000 }, { "sss", 0x200000 }, { "t", 0x400000 }, { "uu", 0x800000 }, { "vv", 0x7fffffff }, { "zz", (int32_t)0x80000000 } }; for(int32_t length=2; length<=UPRV_LENGTHOF(data); ++length) { logln("TestBranches length=%d", (int)length); checkData(data, length); } } void BytesTrieTest::TestLongSequence() { static const StringAndValue data[]={ { "a", -1 }, // sequence of linear-match nodes { "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ", -2 }, // more than 256 bytes { "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ", -3 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestLongBranch() { // Split-branch and interesting compact-integer values. static const StringAndValue data[]={ { "a", -2 }, { "b", -1 }, { "c", 0 }, { "d2", 1 }, { "f", 0x3f }, { "g", 0x40 }, { "h", 0x41 }, { "j23", 0x1900 }, { "j24", 0x19ff }, { "j25", 0x1a00 }, { "k2", 0x1a80 }, { "k3", 0x1aff }, { "l234567890", 0x1b00 }, { "l234567890123", 0x1b01 }, { "nnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn", 0x10ffff }, { "oooooooooooooooooooooooooooooooooooooooooooooooooooooo", 0x110000 }, { "pppppppppppppppppppppppppppppppppppppppppppppppppppppp", 0x120000 }, { "r", 0x333333 }, { "s2345", 0x4444444 }, { "t234567890", 0x77777777 }, { "z", (int32_t)0x80000001 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestValuesForState() { // Check that saveState() and resetToState() interact properly // with next() and current(). static const StringAndValue data[]={ { "a", -1 }, { "ab", -2 }, { "abc", -3 }, { "abcd", -4 }, { "abcde", -5 }, { "abcdef", -6 } }; checkData(data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestCompact() { // Duplicate trailing strings and values provide opportunities for compacting. static const StringAndValue data[]={ { "+", 0 }, { "+august", 8 }, { "+december", 12 }, { "+july", 7 }, { "+june", 6 }, { "+november", 11 }, { "+october", 10 }, { "+september", 9 }, { "-", 0 }, { "-august", 8 }, { "-december", 12 }, { "-july", 7 }, { "-june", 6 }, { "-november", 11 }, { "-october", 10 }, { "-september", 9 }, // The l+n branch (with its sub-nodes) is a duplicate but will be written // both times because each time it follows a different linear-match node. { "xjuly", 7 }, { "xjune", 6 } }; checkData(data, UPRV_LENGTHOF(data)); } BytesTrie *BytesTrieTest::buildMonthsTrie(UStringTrieBuildOption buildOption) { // All types of nodes leading to the same value, // for code coverage of recursive functions. // In particular, we need a lot of branches on some single level // to exercise a split-branch node. static const StringAndValue data[]={ { "august", 8 }, { "jan", 1 }, { "jan.", 1 }, { "jana", 1 }, { "janbb", 1 }, { "janc", 1 }, { "janddd", 1 }, { "janee", 1 }, { "janef", 1 }, { "janf", 1 }, { "jangg", 1 }, { "janh", 1 }, { "janiiii", 1 }, { "janj", 1 }, { "jankk", 1 }, { "jankl", 1 }, { "jankmm", 1 }, { "janl", 1 }, { "janm", 1 }, { "jannnnnnnnnnnnnnnnnnnnnnnnnnnnn", 1 }, { "jano", 1 }, { "janpp", 1 }, { "janqqq", 1 }, { "janr", 1 }, { "januar", 1 }, { "january", 1 }, { "july", 7 }, { "jun", 6 }, { "jun.", 6 }, { "june", 6 } }; return buildTrie(data, UPRV_LENGTHOF(data), buildOption); } void BytesTrieTest::TestHasUniqueValue() { LocalPointer trie(buildMonthsTrie(USTRINGTRIE_BUILD_FAST)); if(trie.isNull()) { return; // buildTrie() reported an error } int32_t uniqueValue; if(trie->hasUniqueValue(uniqueValue)) { errln("unique value at root"); } trie->next('j'); trie->next('a'); trie->next('n'); // hasUniqueValue() directly after next() if(!trie->hasUniqueValue(uniqueValue) || uniqueValue!=1) { errln("not unique value 1 after \"jan\""); } trie->first('j'); trie->next('u'); if(trie->hasUniqueValue(uniqueValue)) { errln("unique value after \"ju\""); } if(trie->next('n')!=USTRINGTRIE_INTERMEDIATE_VALUE || 6!=trie->getValue()) { errln("not normal value 6 after \"jun\""); } // hasUniqueValue() after getValue() if(!trie->hasUniqueValue(uniqueValue) || uniqueValue!=6) { errln("not unique value 6 after \"jun\""); } // hasUniqueValue() from within a linear-match node trie->first('a'); trie->next('u'); if(!trie->hasUniqueValue(uniqueValue) || uniqueValue!=8) { errln("not unique value 8 after \"au\""); } } void BytesTrieTest::TestGetNextBytes() { LocalPointer trie(buildMonthsTrie(USTRINGTRIE_BUILD_SMALL)); if(trie.isNull()) { return; // buildTrie() reported an error } char buffer[40]; CheckedArrayByteSink sink(buffer, UPRV_LENGTHOF(buffer)); int32_t count=trie->getNextBytes(sink); if(count!=2 || sink.NumberOfBytesAppended()!=2 || buffer[0]!='a' || buffer[1]!='j') { errln("months getNextBytes()!=[aj] at root"); } trie->next('j'); trie->next('a'); trie->next('n'); // getNextBytes() directly after next() count=trie->getNextBytes(sink.Reset()); buffer[count]=0; if(count!=20 || sink.NumberOfBytesAppended()!=20 || 0!=strcmp(buffer, ".abcdefghijklmnopqru")) { errln("months getNextBytes()!=[.abcdefghijklmnopqru] after \"jan\""); } // getNextBytes() after getValue() trie->getValue(); // next() had returned USTRINGTRIE_INTERMEDIATE_VALUE. memset(buffer, 0, sizeof(buffer)); count=trie->getNextBytes(sink.Reset()); if(count!=20 || sink.NumberOfBytesAppended()!=20 || 0!=strcmp(buffer, ".abcdefghijklmnopqru")) { errln("months getNextBytes()!=[.abcdefghijklmnopqru] after \"jan\"+getValue()"); } // getNextBytes() from a linear-match node trie->next('u'); memset(buffer, 0, sizeof(buffer)); count=trie->getNextBytes(sink.Reset()); if(count!=1 || sink.NumberOfBytesAppended()!=1 || buffer[0]!='a') { errln("months getNextBytes()!=[a] after \"janu\""); } trie->next('a'); memset(buffer, 0, sizeof(buffer)); count=trie->getNextBytes(sink.Reset()); if(count!=1 || sink.NumberOfBytesAppended()!=1 || buffer[0]!='r') { errln("months getNextBytes()!=[r] after \"janua\""); } trie->next('r'); trie->next('y'); // getNextBytes() after a final match count=trie->getNextBytes(sink.Reset()); if(count!=0 || sink.NumberOfBytesAppended()!=0) { errln("months getNextBytes()!=[] after \"january\""); } } void BytesTrieTest::TestIteratorFromBranch() { LocalPointer trie(buildMonthsTrie(USTRINGTRIE_BUILD_FAST)); if(trie.isNull()) { return; // buildTrie() reported an error } // Go to a branch node. trie->next('j'); trie->next('a'); trie->next('n'); IcuTestErrorCode errorCode(*this, "TestIteratorFromBranch()"); BytesTrie::Iterator iter(*trie, 0, errorCode); if(errorCode.logIfFailureAndReset("BytesTrie::Iterator(trie) constructor")) { return; } // Expected data: Same as in buildMonthsTrie(), except only the suffixes // following "jan". static const StringAndValue data[]={ { "", 1 }, { ".", 1 }, { "a", 1 }, { "bb", 1 }, { "c", 1 }, { "ddd", 1 }, { "ee", 1 }, { "ef", 1 }, { "f", 1 }, { "gg", 1 }, { "h", 1 }, { "iiii", 1 }, { "j", 1 }, { "kk", 1 }, { "kl", 1 }, { "kmm", 1 }, { "l", 1 }, { "m", 1 }, { "nnnnnnnnnnnnnnnnnnnnnnnnnnnn", 1 }, { "o", 1 }, { "pp", 1 }, { "qqq", 1 }, { "r", 1 }, { "uar", 1 }, { "uary", 1 } }; checkIterator(iter, data, UPRV_LENGTHOF(data)); // Reset, and we should get the same result. logln("after iter.reset()"); checkIterator(iter.reset(), data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestIteratorFromLinearMatch() { LocalPointer trie(buildMonthsTrie(USTRINGTRIE_BUILD_SMALL)); if(trie.isNull()) { return; // buildTrie() reported an error } // Go into a linear-match node. trie->next('j'); trie->next('a'); trie->next('n'); trie->next('u'); trie->next('a'); IcuTestErrorCode errorCode(*this, "TestIteratorFromLinearMatch()"); BytesTrie::Iterator iter(*trie, 0, errorCode); if(errorCode.logIfFailureAndReset("BytesTrie::Iterator(trie) constructor")) { return; } // Expected data: Same as in buildMonthsTrie(), except only the suffixes // following "janua". static const StringAndValue data[]={ { "r", 1 }, { "ry", 1 } }; checkIterator(iter, data, UPRV_LENGTHOF(data)); // Reset, and we should get the same result. logln("after iter.reset()"); checkIterator(iter.reset(), data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestTruncatingIteratorFromRoot() { LocalPointer trie(buildMonthsTrie(USTRINGTRIE_BUILD_FAST)); if(trie.isNull()) { return; // buildTrie() reported an error } IcuTestErrorCode errorCode(*this, "TestTruncatingIteratorFromRoot()"); BytesTrie::Iterator iter(*trie, 4, errorCode); if(errorCode.logIfFailureAndReset("BytesTrie::Iterator(trie) constructor")) { return; } // Expected data: Same as in buildMonthsTrie(), except only the first 4 characters // of each string, and no string duplicates from the truncation. static const StringAndValue data[]={ { "augu", -1 }, { "jan", 1 }, { "jan.", 1 }, { "jana", 1 }, { "janb", -1 }, { "janc", 1 }, { "jand", -1 }, { "jane", -1 }, { "janf", 1 }, { "jang", -1 }, { "janh", 1 }, { "jani", -1 }, { "janj", 1 }, { "jank", -1 }, { "janl", 1 }, { "janm", 1 }, { "jann", -1 }, { "jano", 1 }, { "janp", -1 }, { "janq", -1 }, { "janr", 1 }, { "janu", -1 }, { "july", 7 }, { "jun", 6 }, { "jun.", 6 }, { "june", 6 } }; checkIterator(iter, data, UPRV_LENGTHOF(data)); // Reset, and we should get the same result. logln("after iter.reset()"); checkIterator(iter.reset(), data, UPRV_LENGTHOF(data)); } void BytesTrieTest::TestTruncatingIteratorFromLinearMatchShort() { static const StringAndValue data[]={ { "abcdef", 10 }, { "abcdepq", 200 }, { "abcdeyz", 3000 } }; LocalPointer trie(buildTrie(data, UPRV_LENGTHOF(data), USTRINGTRIE_BUILD_FAST)); if(trie.isNull()) { return; // buildTrie() reported an error } // Go into a linear-match node. trie->next('a'); trie->next('b'); IcuTestErrorCode errorCode(*this, "TestTruncatingIteratorFromLinearMatchShort()"); // Truncate within the linear-match node. BytesTrie::Iterator iter(*trie, 2, errorCode); if(errorCode.logIfFailureAndReset("BytesTrie::Iterator(trie) constructor")) { return; } static const StringAndValue expected[]={ { "cd", -1 } }; checkIterator(iter, expected, UPRV_LENGTHOF(expected)); // Reset, and we should get the same result. logln("after iter.reset()"); checkIterator(iter.reset(), expected, UPRV_LENGTHOF(expected)); } void BytesTrieTest::TestTruncatingIteratorFromLinearMatchLong() { static const StringAndValue data[]={ { "abcdef", 10 }, { "abcdepq", 200 }, { "abcdeyz", 3000 } }; LocalPointer trie(buildTrie(data, UPRV_LENGTHOF(data), USTRINGTRIE_BUILD_FAST)); if(trie.isNull()) { return; // buildTrie() reported an error } // Go into a linear-match node. trie->next('a'); trie->next('b'); trie->next('c'); IcuTestErrorCode errorCode(*this, "TestTruncatingIteratorFromLinearMatchLong()"); // Truncate after the linear-match node. BytesTrie::Iterator iter(*trie, 3, errorCode); if(errorCode.logIfFailureAndReset("BytesTrie::Iterator(trie) constructor")) { return; } static const StringAndValue expected[]={ { "def", 10 }, { "dep", -1 }, { "dey", -1 } }; checkIterator(iter, expected, UPRV_LENGTHOF(expected)); // Reset, and we should get the same result. logln("after iter.reset()"); checkIterator(iter.reset(), expected, UPRV_LENGTHOF(expected)); } void BytesTrieTest::TestIteratorFromBytes() { static const StringAndValue data[]={ { "mm", 3 }, { "mmm", 33 }, { "mmnop", 333 } }; builder_->clear(); IcuTestErrorCode errorCode(*this, "TestIteratorFromBytes()"); for(int32_t i=0; iadd(data[i].s, data[i].value, errorCode); } StringPiece trieBytes=builder_->buildStringPiece(USTRINGTRIE_BUILD_FAST, errorCode); BytesTrie::Iterator iter(trieBytes.data(), 0, errorCode); checkIterator(iter, data, UPRV_LENGTHOF(data)); } void BytesTrieTest::checkData(const StringAndValue data[], int32_t dataLength) { logln("checkData(dataLength=%d, fast)", (int)dataLength); checkData(data, dataLength, USTRINGTRIE_BUILD_FAST); logln("checkData(dataLength=%d, small)", (int)dataLength); checkData(data, dataLength, USTRINGTRIE_BUILD_SMALL); } void BytesTrieTest::checkData(const StringAndValue data[], int32_t dataLength, UStringTrieBuildOption buildOption) { LocalPointer trie(buildTrie(data, dataLength, buildOption)); if(trie.isNull()) { return; // buildTrie() reported an error } checkFirst(*trie, data, dataLength); checkNext(*trie, data, dataLength); checkNextWithState(*trie, data, dataLength); checkNextString(*trie, data, dataLength); checkIterator(*trie, data, dataLength); } BytesTrie *BytesTrieTest::buildTrie(const StringAndValue data[], int32_t dataLength, UStringTrieBuildOption buildOption) { IcuTestErrorCode errorCode(*this, "buildTrie()"); // Add the items to the trie builder in an interesting (not trivial, not random) order. int32_t index, step; if(dataLength&1) { // Odd number of items. index=dataLength/2; step=2; } else if((dataLength%3)!=0) { // Not a multiple of 3. index=dataLength/5; step=3; } else { index=dataLength-1; step=-1; } builder_->clear(); for(int32_t i=0; iadd(data[index].s, data[index].value, errorCode); index=(index+step)%dataLength; } StringPiece sp=builder_->buildStringPiece(buildOption, errorCode); LocalPointer trie(builder_->build(buildOption, errorCode)); if(!errorCode.logIfFailureAndReset("add()/build()")) { builder_->add("zzz", 999, errorCode); if(errorCode.reset()!=U_NO_WRITE_PERMISSION) { errln("builder.build().add(zzz) did not set U_NO_WRITE_PERMISSION"); } } logln("serialized trie size: %ld bytes\n", (long)sp.length()); StringPiece sp2=builder_->buildStringPiece(buildOption, errorCode); if(sp.data()==sp2.data()) { errln("builder.buildStringPiece() before & after build() returned same array"); } if(errorCode.isFailure()) { return NULL; } // Tries from either build() method should be identical but // BytesTrie does not implement equals(). // We just return either one. if((dataLength&1)!=0) { return trie.orphan(); } else { return new BytesTrie(sp2.data()); } } void BytesTrieTest::checkFirst(BytesTrie &trie, const StringAndValue data[], int32_t dataLength) { for(int32_t i=0; i