/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* * $Id: RegularExpression.hpp 568078 2007-08-21 11:43:25Z amassari $ */ #if !defined(REGULAREXPRESSION_HPP) #define REGULAREXPRESSION_HPP // --------------------------------------------------------------------------- // Includes // --------------------------------------------------------------------------- #include #include #include #include #include #include #include #include #include #include XERCES_CPP_NAMESPACE_BEGIN // --------------------------------------------------------------------------- // Forward Declaration // --------------------------------------------------------------------------- class RangeToken; class Match; class XMLUTIL_EXPORT RegularExpression : public XMemory { public: // ----------------------------------------------------------------------- // Public Constructors and Destructor // ----------------------------------------------------------------------- RegularExpression ( const char* const pattern , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager ); RegularExpression ( const char* const pattern , const char* const options , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager ); RegularExpression ( const XMLCh* const pattern , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager ); RegularExpression ( const XMLCh* const pattern , const XMLCh* const options , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager ); ~RegularExpression(); // ----------------------------------------------------------------------- // Public Constants // ----------------------------------------------------------------------- static const unsigned int MARK_PARENS; static const unsigned int IGNORE_CASE; static const unsigned int SINGLE_LINE; static const unsigned int MULTIPLE_LINE; static const unsigned int EXTENDED_COMMENT; static const unsigned int USE_UNICODE_CATEGORY; static const unsigned int UNICODE_WORD_BOUNDARY; static const unsigned int PROHIBIT_HEAD_CHARACTER_OPTIMIZATION; static const unsigned int PROHIBIT_FIXED_STRING_OPTIMIZATION; static const unsigned int XMLSCHEMA_MODE; static const unsigned int SPECIAL_COMMA; static const unsigned short WT_IGNORE; static const unsigned short WT_LETTER; static const unsigned short WT_OTHER; // ----------------------------------------------------------------------- // Public Helper methods // ----------------------------------------------------------------------- static int getOptionValue(const XMLCh ch); // ----------------------------------------------------------------------- // Matching methods // ----------------------------------------------------------------------- bool matches(const char* const matchString, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const char* const matchString, const int start, const int end, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const char* const matchString, Match* const pMatch, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const char* const matchString, const int start, const int end, Match* const pMatch, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const XMLCh* const matchString, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const XMLCh* const matchString, const int start, const int end, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const XMLCh* const matchString, Match* const pMatch, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); bool matches(const XMLCh* const matchString, const int start, const int end, Match* const pMatch, MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); // ----------------------------------------------------------------------- // Tokenize methods // ----------------------------------------------------------------------- // Note: The caller owns the string vector that is returned, and is responsible // for deleting it. RefArrayVectorOf *tokenize(const char* const matchString); RefArrayVectorOf *tokenize(const char* const matchString, const int start, const int end); RefArrayVectorOf *tokenize(const XMLCh* const matchString); RefArrayVectorOf *tokenize(const XMLCh* const matchString, const int start, const int end); // ----------------------------------------------------------------------- // Replace methods // ----------------------------------------------------------------------- // Note: The caller owns the XMLCh* that is returned, and is responsible for // deleting it. XMLCh *replace(const char* const matchString, const char* const replaceString); XMLCh *replace(const char* const matchString, const char* const replaceString, const int start, const int end); XMLCh *replace(const XMLCh* const matchString, const XMLCh* const replaceString); XMLCh *replace(const XMLCh* const matchString, const XMLCh* const replaceString, const int start, const int end); // ----------------------------------------------------------------------- // Static initialize and cleanup methods // ----------------------------------------------------------------------- static void staticInitialize(MemoryManager* memoryManager); static void staticCleanup(); static bool isSet(const int options, const int flag); private: // ----------------------------------------------------------------------- // Private data types // ----------------------------------------------------------------------- class XMLUTIL_EXPORT Context : public XMemory { public : Context(MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager); Context(Context* src); ~Context(); Context& operator= (const Context& other); inline const XMLCh* getString() const { return fString; } void reset(const XMLCh* const string, const int stringLen, const int start, const int limit, const int noClosures); bool nextCh(XMLInt32& ch, int& offset, const short direction); bool fAdoptMatch; int fStart; int fLimit; int fLength; // fLimit - fStart int fSize; int fStringMaxLen; int* fOffsets; Match* fMatch; const XMLCh* fString; MemoryManager* fMemoryManager; }; // ----------------------------------------------------------------------- // Unimplemented constructors and operators // ----------------------------------------------------------------------- RegularExpression(const RegularExpression&); RegularExpression& operator=(const RegularExpression&); // ----------------------------------------------------------------------- // Cleanup methods // ----------------------------------------------------------------------- void cleanUp(); // ----------------------------------------------------------------------- // Setter methods // ----------------------------------------------------------------------- void setPattern(const XMLCh* const pattern, const XMLCh* const options=0); // ----------------------------------------------------------------------- // Private Helper methods // ----------------------------------------------------------------------- void prepare(); int parseOptions(const XMLCh* const options); unsigned short getWordType(const XMLCh* const target, const int begin, const int end, const int offset); unsigned short getCharType(const XMLCh ch); unsigned short getPreviousWordType(const XMLCh* const target, const int start, const int end, int offset); /** * Matching helpers */ int match(Context* const context, const Op* const operations, int offset, const short direction); bool matchIgnoreCase(const XMLInt32 ch1, const XMLInt32 ch2); /** * Helper methods used by match(Context* ...) */ bool matchChar(Context* const context, const XMLInt32 ch, int& offset, const short direction, const bool ignoreCase); bool matchDot(Context* const context, int& offset, const short direction); bool matchRange(Context* const context, const Op* const op, int& offset, const short direction, const bool ignoreCase); bool matchAnchor(Context* const context, const XMLInt32 ch, const int offset); bool matchBackReference(Context* const context, const XMLInt32 ch, int& offset, const short direction, const bool ignoreCase); bool matchString(Context* const context, const XMLCh* const literal, int& offset, const short direction, const bool ignoreCase); int matchUnion(Context* const context, const Op* const op, int offset, const short direction); int matchCapture(Context* const context, const Op* const op, int offset, const short direction); bool matchCondition(Context* const context, const Op* const op, int offset, const short direction); int matchModifier(Context* const context, const Op* const op, int offset, const short direction); /** * Tokenize helper * * This overloaded tokenize is for internal use only. It provides a way to * keep track of the sub-expressions in each match of the pattern. * * It is called by the other tokenize methods, and by the replace method. * The caller is responsible for the deletion of the returned * RefArrayVectorOf */ RefArrayVectorOf *tokenize(const XMLCh* const matchString, const int start, const int end, RefVectorOf *subEx); /** * Replace helpers * * Note: the caller owns the XMLCh* that is returned */ const XMLCh *subInExp(const XMLCh* const repString, const XMLCh* const origString, const Match* subEx); /** * Converts a token tree into an operation tree */ void compile(const Token* const token); Op* compile(const Token* const token, Op* const next, const bool reverse); /** * Helper methods used by compile */ Op* compileSingle(const Token* const token, Op* const next, const unsigned short tokType); Op* compileUnion(const Token* const token, Op* const next, const bool reverse); Op* compileCondition(const Token* const token, Op* const next, const bool reverse); Op* compileParenthesis(const Token* const token, Op* const next, const bool reverse); Op* compileLook(const Token* const token, const Op* const next, const bool reverse, const unsigned short tokType); Op* compileConcat(const Token* const token, Op* const next, const bool reverse); Op* compileClosure(const Token* const token, Op* const next, const bool reverse, const unsigned short tokType); // ----------------------------------------------------------------------- // Private data members // ----------------------------------------------------------------------- bool fHasBackReferences; bool fFixedStringOnly; int fNoGroups; int fMinLength; int fNoClosures; unsigned int fOptions; BMPattern* fBMPattern; XMLCh* fPattern; XMLCh* fFixedString; Op* fOperations; Token* fTokenTree; RangeToken* fFirstChar; static RangeToken* fWordRange; OpFactory fOpFactory; TokenFactory* fTokenFactory; MemoryManager* fMemoryManager; }; // ----------------------------------------------------------------------- // RegularExpression: Static initialize and cleanup methods // ----------------------------------------------------------------------- inline void RegularExpression::staticCleanup() { fWordRange = 0; } // --------------------------------------------------------------------------- // RegularExpression: Cleanup methods // --------------------------------------------------------------------------- inline void RegularExpression::cleanUp() { fMemoryManager->deallocate(fPattern);//delete [] fPattern; fMemoryManager->deallocate(fFixedString);//delete [] fFixedString; delete fBMPattern; delete fTokenFactory; } // --------------------------------------------------------------------------- // RegularExpression: Helper methods // --------------------------------------------------------------------------- inline bool RegularExpression::isSet(const int options, const int flag) { return (options & flag) == flag; } inline Op* RegularExpression::compileLook(const Token* const token, const Op* const next, const bool reverse, const unsigned short tokType) { Op* ret = 0; Op* result = compile(token->getChild(0), 0, reverse); switch(tokType) { case Token::T_LOOKAHEAD: ret = fOpFactory.createLookOp(Op::O_LOOKAHEAD, next, result); break; case Token::T_NEGATIVELOOKAHEAD: ret = fOpFactory.createLookOp(Op::O_NEGATIVELOOKAHEAD, next, result); break; case Token::T_LOOKBEHIND: ret = fOpFactory.createLookOp(Op::O_LOOKBEHIND, next, result); break; case Token::T_NEGATIVELOOKBEHIND: ret = fOpFactory.createLookOp(Op::O_NEGATIVELOOKBEHIND, next, result); break; case Token::T_INDEPENDENT: ret = fOpFactory.createIndependentOp(next, result); break; case Token::T_MODIFIERGROUP: ret = fOpFactory.createModifierOp(next, result, ((const ModifierToken *) token)->getOptions(), ((const ModifierToken *) token)->getOptionsMask()); break; } return ret; } inline Op* RegularExpression::compileSingle(const Token* const token, Op* const next, const unsigned short tokType) { Op* ret = 0; switch (tokType) { case Token::T_DOT: ret = fOpFactory.createDotOp(); break; case Token::T_CHAR: ret = fOpFactory.createCharOp(token->getChar()); break; case Token::T_ANCHOR: ret = fOpFactory.createAnchorOp(token->getChar()); break; case Token::T_RANGE: case Token::T_NRANGE: ret = fOpFactory.createRangeOp(token); break; case Token::T_EMPTY: ret = next; break; case Token::T_STRING: ret = fOpFactory.createStringOp(token->getString()); break; case Token::T_BACKREFERENCE: ret = fOpFactory.createBackReferenceOp(token->getReferenceNo()); break; } if (tokType != Token::T_EMPTY) ret->setNextOp(next); return ret; } inline Op* RegularExpression::compileUnion(const Token* const token, Op* const next, const bool reverse) { int tokSize = token->size(); UnionOp* uniOp = fOpFactory.createUnionOp(tokSize); for (int i=0; iaddElement(compile(token->getChild(i), next, reverse)); } return uniOp; } inline Op* RegularExpression::compileCondition(const Token* const token, Op* const next, const bool reverse) { Token* condTok = ((const ConditionToken*) token)->getConditionToken(); Token* yesTok = token->getChild(0); Token* noTok = token->getChild(1); int refNo = token->getReferenceNo(); Op* condOp = (condTok == 0) ? 0 : compile(condTok, 0, reverse); Op* yesOp = compile(yesTok, next, reverse); Op* noOp = (noTok == 0) ? 0 : compile(noTok, next, reverse); return fOpFactory.createConditionOp(next, refNo, condOp, yesOp, noOp); } inline Op* RegularExpression::compileParenthesis(const Token* const token, Op* const next, const bool reverse) { if (token->getNoParen() == 0) return compile(token->getChild(0), next, reverse); Op* captureOp = 0; if (reverse) { captureOp = fOpFactory.createCaptureOp(token->getNoParen(), next); captureOp = compile(token->getChild(0), captureOp, reverse); return fOpFactory.createCaptureOp(-token->getNoParen(), captureOp); } captureOp = fOpFactory.createCaptureOp(-token->getNoParen(), next); captureOp = compile(token->getChild(0), captureOp, reverse); return fOpFactory.createCaptureOp(token->getNoParen(), captureOp); } inline Op* RegularExpression::compileConcat(const Token* const token, Op* const next, const bool reverse) { Op* ret = next; int tokSize = token->size(); if (!reverse) { for (int i= tokSize - 1; i>=0; i--) { ret = compile(token->getChild(i), ret, false); } } else { for (int i= 0; i< tokSize; i++) { ret = compile(token->getChild(i), ret, true); } } return ret; } inline Op* RegularExpression::compileClosure(const Token* const token, Op* const next, const bool reverse, const unsigned short tokType) { Op* ret = 0; Token* childTok = token->getChild(0); int min = token->getMin(); int max = token->getMax(); if (min >= 0 && min == max) { ret = next; for (int i=0; i< min; i++) { ret = compile(childTok, ret, reverse); } return ret; } if (min > 0 && max > 0) max -= min; if (max > 0) { ret = next; for (int i=0; isetNextOp(next); childOp->setChild(compile(childTok, ret, reverse)); ret = childOp; } } else { ChildOp* childOp = 0; if (tokType == Token::T_NONGREEDYCLOSURE) { childOp = fOpFactory.createNonGreedyClosureOp(); } else { if (childTok->getMinLength() == 0) childOp = fOpFactory.createClosureOp(fNoClosures++); else childOp = fOpFactory.createClosureOp(-1); } childOp->setNextOp(next); childOp->setChild(compile(childTok, childOp, reverse)); ret = childOp; } if (min > 0) { for (int i=0; i< min; i++) { ret = compile(childTok, ret, reverse); } } return ret; } inline int RegularExpression::matchModifier(Context* const context, const Op* const op, int offset, const short direction) { int saveOptions = fOptions; fOptions |= (int) op->getData(); fOptions &= (int) ~op->getData2(); int ret = match(context, op->getChild(), offset, direction); fOptions = saveOptions; return ret; } inline unsigned short RegularExpression::getWordType(const XMLCh* const target , const int begin , const int end , const int offset) { if (offset < begin || offset >= end) return WT_OTHER; return getCharType(target[offset]); } inline unsigned short RegularExpression::getPreviousWordType(const XMLCh* const target , const int start , const int end , int offset) { unsigned short ret = getWordType(target, start, end, --offset); while (ret == WT_IGNORE) { ret = getWordType(target, start, end, --offset); } return ret; } XERCES_CPP_NAMESPACE_END #endif /** * End of file RegularExpression.hpp */