/* * 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: XMLScanner.hpp 882548 2009-11-20 13:44:14Z borisk $ */ #if !defined(XERCESC_INCLUDE_GUARD_XMLSCANNER_HPP) #define XERCESC_INCLUDE_GUARD_XMLSCANNER_HPP #include #include #include #include #include #include #include #include #include #include #include #include #include XERCES_CPP_NAMESPACE_BEGIN class InputSource; class XMLDocumentHandler; class XMLEntityHandler; class ErrorHandler; class DocTypeHandler; class XMLPScanToken; class XMLStringPool; class Grammar; class XMLValidator; class MemoryManager; class PSVIHandler; struct PSVIElemContext { bool fIsSpecified; bool fErrorOccurred; int fElemDepth; int fFullValidationDepth; int fNoneValidationDepth; DatatypeValidator* fCurrentDV; ComplexTypeInfo* fCurrentTypeInfo; const XMLCh* fNormalizedValue; }; // This is the mondo scanner class, which does the vast majority of the // work of parsing. It handles reading in input and spitting out events // to installed handlers. class XMLPARSER_EXPORT XMLScanner : public XMemory, public XMLBufferFullHandler { public : // ----------------------------------------------------------------------- // Public class types // // NOTE: These should really be private, but some of the compilers we // have to deal with are too stupid to understand this. // // DeclTypes // Used by scanXMLDecl() to know what type of decl it should scan. // Text decls have slightly different rules from XMLDecls. // // EntityExpRes // These are the values returned from the entity expansion method, // to indicate how it went. // // XMLTokens // These represent the possible types of input we can get while // scanning content. // // ValScheme // This indicates what the scanner should do in terms of validation. // 'Auto' means if there is any int/ext subset, then validate. Else, // don't. // ----------------------------------------------------------------------- enum DeclTypes { Decl_Text , Decl_XML }; enum EntityExpRes { EntityExp_Pushed , EntityExp_Returned , EntityExp_Failed }; enum XMLTokens { Token_CData , Token_CharData , Token_Comment , Token_EndTag , Token_EOF , Token_PI , Token_StartTag , Token_Unknown }; enum ValSchemes { Val_Never , Val_Always , Val_Auto }; // ----------------------------------------------------------------------- // Constructors and Destructor // ----------------------------------------------------------------------- XMLScanner ( XMLValidator* const valToAdopt , GrammarResolver* const grammarResolver , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager ); XMLScanner ( XMLDocumentHandler* const docHandler , DocTypeHandler* const docTypeHandler , XMLEntityHandler* const entityHandler , XMLErrorReporter* const errReporter , XMLValidator* const valToAdopt , GrammarResolver* const grammarResolver , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager ); virtual ~XMLScanner(); // ----------------------------------------------------------------------- // Error emitter methods // ----------------------------------------------------------------------- bool emitErrorWillThrowException(const XMLErrs::Codes toEmit); void emitError(const XMLErrs::Codes toEmit); void emitError ( const XMLErrs::Codes toEmit , const XMLCh* const text1 , const XMLCh* const text2 = 0 , const XMLCh* const text3 = 0 , const XMLCh* const text4 = 0 ); void emitError ( const XMLErrs::Codes toEmit , const char* const text1 , const char* const text2 = 0 , const char* const text3 = 0 , const char* const text4 = 0 ); void emitError ( const XMLErrs::Codes toEmit , const XMLExcepts::Codes originalErrorCode , const XMLCh* const text1 = 0 , const XMLCh* const text2 = 0 , const XMLCh* const text3 = 0 , const XMLCh* const text4 = 0 ); // ----------------------------------------------------------------------- // Implementation of XMLBufferFullHandler interface // ----------------------------------------------------------------------- virtual bool bufferFull(XMLBuffer& toSend) { sendCharData(toSend); return true; } virtual Grammar::GrammarType getCurrentGrammarType() const; // ----------------------------------------------------------------------- // Public pure virtual methods // ----------------------------------------------------------------------- virtual const XMLCh* getName() const = 0; virtual NameIdPool* getEntityDeclPool() = 0; virtual const NameIdPool* getEntityDeclPool() const = 0; virtual void scanDocument ( const InputSource& src ) = 0; virtual bool scanNext(XMLPScanToken& toFill) = 0; virtual Grammar* loadGrammar ( const InputSource& src , const short grammarType , const bool toCache = false ) = 0; virtual void resetCachedGrammar (); // ----------------------------------------------------------------------- // Getter methods // ----------------------------------------------------------------------- const XMLDocumentHandler* getDocHandler() const; XMLDocumentHandler* getDocHandler(); const DocTypeHandler* getDocTypeHandler() const; DocTypeHandler* getDocTypeHandler(); bool getDoNamespaces() const; ValSchemes getValidationScheme() const; bool getDoSchema() const; bool getValidationSchemaFullChecking() const; bool getIdentityConstraintChecking() const; const XMLEntityHandler* getEntityHandler() const; XMLEntityHandler* getEntityHandler(); const XMLErrorReporter* getErrorReporter() const; XMLErrorReporter* getErrorReporter(); const ErrorHandler* getErrorHandler() const; ErrorHandler* getErrorHandler(); const PSVIHandler* getPSVIHandler() const; PSVIHandler* getPSVIHandler(); bool getExitOnFirstFatal() const; bool getValidationConstraintFatal() const; RefHashTableOf* getIDRefList(); const RefHashTableOf* getIDRefList() const; ValidationContext* getValidationContext(); bool getInException() const; /*bool getLastExtLocation ( XMLCh* const sysIdToFill , const unsigned int maxSysIdChars , XMLCh* const pubIdToFill , const unsigned int maxPubIdChars , XMLSSize_t& lineToFill , XMLSSize_t& colToFill ) const;*/ const Locator* getLocator() const; const ReaderMgr* getReaderMgr() const; XMLFilePos getSrcOffset() const; bool getStandalone() const; const XMLValidator* getValidator() const; XMLValidator* getValidator(); int getErrorCount(); const XMLStringPool* getURIStringPool() const; XMLStringPool* getURIStringPool(); bool getHasNoDTD() const; XMLCh* getExternalSchemaLocation() const; XMLCh* getExternalNoNamespaceSchemaLocation() const; SecurityManager* getSecurityManager() const; bool getLoadExternalDTD() const; bool getLoadSchema() const; bool getNormalizeData() const; bool isCachingGrammarFromParse() const; bool isUsingCachedGrammarInParse() const; bool getCalculateSrcOfs() const; Grammar* getRootGrammar() const; XMLReader::XMLVersion getXMLVersion() const; MemoryManager* getMemoryManager() const; ValueVectorOf* getNamespaceContext() const; unsigned int getPrefixId(const XMLCh* const prefix) const; const XMLCh* getPrefixForId(unsigned int prefId) const; // Return is a reference so that we can return it as void* from // getProperty. // const XMLSize_t& getLowWaterMark() const; bool getGenerateSyntheticAnnotations() const; bool getValidateAnnotations() const; bool getIgnoreCachedDTD() const; bool getIgnoreAnnotations() const; bool getDisableDefaultEntityResolution() const; bool getSkipDTDValidation() const; bool getHandleMultipleImports() const; // ----------------------------------------------------------------------- // Getter methods // ----------------------------------------------------------------------- /** * When an attribute name has no prefix, unlike elements, it is not mapped * to the global namespace. So, in order to have something to map it to * for practical purposes, a id for an empty URL is created and used for * such names. * * @return The URL pool id of the URL for an empty URL "". */ unsigned int getEmptyNamespaceId() const; /** * When a prefix is found that has not been mapped, an error is issued. * However, if the parser has been instructed not to stop on the first * fatal error, it needs to be able to continue. To do so, it will map * that prefix tot his magic unknown namespace id. * * @return The URL pool id of the URL for the unknown prefix * namespace. */ unsigned int getUnknownNamespaceId() const; /** * The prefix 'xml' is a magic prefix, defined by the XML spec and * requiring no prior definition. This method returns the id for the * intrinsically defined URL for this prefix. * * @return The URL pool id of the URL for the 'xml' prefix. */ unsigned int getXMLNamespaceId() const; /** * The prefix 'xmlns' is a magic prefix, defined by the namespace spec * and requiring no prior definition. This method returns the id for the * intrinsically defined URL for this prefix. * * @return The URL pool id of the URL for the 'xmlns' prefix. */ unsigned int getXMLNSNamespaceId() const; /** * This method find the passed URI id in its URI pool and * copy the text of that URI into the passed buffer. */ bool getURIText ( const unsigned int uriId , XMLBuffer& uriBufToFill ) const; const XMLCh* getURIText(const unsigned int uriId) const; /* tell if the validator comes from user */ bool isValidatorFromUser(); /* tell if standard URI are forced */ bool getStandardUriConformant() const; // ----------------------------------------------------------------------- // Setter methods // ----------------------------------------------------------------------- void addGlobalPrefix(const XMLCh* const prefix, const unsigned int uriId); void setDocHandler(XMLDocumentHandler* const docHandler); void setDocTypeHandler(DocTypeHandler* const docTypeHandler); void setDoNamespaces(const bool doNamespaces); void setEntityHandler(XMLEntityHandler* const docTypeHandler); void setErrorReporter(XMLErrorReporter* const errHandler); void setErrorHandler(ErrorHandler* const handler); void setPSVIHandler(PSVIHandler* const handler); void setURIStringPool(XMLStringPool* const stringPool); void setExitOnFirstFatal(const bool newValue); void setValidationConstraintFatal(const bool newValue); void setValidationScheme(const ValSchemes newScheme); void setValidator(XMLValidator* const valToAdopt); void setDoSchema(const bool doSchema); void setValidationSchemaFullChecking(const bool schemaFullChecking); void setIdentityConstraintChecking(const bool identityConstraintChecking); void setHasNoDTD(const bool hasNoDTD); void cacheGrammarFromParse(const bool newValue); void useCachedGrammarInParse(const bool newValue); void setRootElemName(XMLCh* rootElemName); void setExternalSchemaLocation(const XMLCh* const schemaLocation); void setExternalNoNamespaceSchemaLocation(const XMLCh* const noNamespaceSchemaLocation); void setExternalSchemaLocation(const char* const schemaLocation); void setExternalNoNamespaceSchemaLocation(const char* const noNamespaceSchemaLocation); void setSecurityManager(SecurityManager* const securityManager); void setLoadExternalDTD(const bool loadDTD); void setLoadSchema(const bool loadSchema); void setNormalizeData(const bool normalizeData); void setCalculateSrcOfs(const bool newValue); void setParseSettings(XMLScanner* const refScanner); void setStandardUriConformant(const bool newValue); void setInputBufferSize(const XMLSize_t bufferSize); void setLowWaterMark(XMLSize_t newValue); void setGenerateSyntheticAnnotations(const bool newValue); void setValidateAnnotations(const bool newValue); void setIgnoredCachedDTD(const bool newValue); void setIgnoreAnnotations(const bool newValue); void setDisableDefaultEntityResolution(const bool newValue); void setSkipDTDValidation(const bool newValue); void setHandleMultipleImports(const bool newValue); // ----------------------------------------------------------------------- // Mutator methods // ----------------------------------------------------------------------- void incrementErrorCount(void); // For use by XMLValidator // ----------------------------------------------------------------------- // Document scanning methods // // scanDocument() does the entire source document. scanFirst(), // scanNext(), and scanReset() support a progressive parse. // ----------------------------------------------------------------------- void scanDocument ( const XMLCh* const systemId ); void scanDocument ( const char* const systemId ); bool scanFirst ( const InputSource& src , XMLPScanToken& toFill ); bool scanFirst ( const XMLCh* const systemId , XMLPScanToken& toFill ); bool scanFirst ( const char* const systemId , XMLPScanToken& toFill ); void scanReset(XMLPScanToken& toFill); bool checkXMLDecl(bool startWithAngle); // ----------------------------------------------------------------------- // Grammar preparsing methods // ----------------------------------------------------------------------- Grammar* loadGrammar ( const XMLCh* const systemId , const short grammarType , const bool toCache = false ); Grammar* loadGrammar ( const char* const systemId , const short grammarType , const bool toCache = false ); // ----------------------------------------------------------------------- // Helper methods // ----------------------------------------------------------------------- unsigned int resolveQName ( const XMLCh* const qName , XMLBuffer& prefixBufToFill , const ElemStack::MapModes mode , int& prefixColonPos ); protected: // ----------------------------------------------------------------------- // Protected pure virtual methods // ----------------------------------------------------------------------- virtual void scanCDSection() = 0; virtual void scanCharData(XMLBuffer& toToUse) = 0; virtual EntityExpRes scanEntityRef ( const bool inAttVal , XMLCh& firstCh , XMLCh& secondCh , bool& escaped ) = 0; virtual void scanDocTypeDecl() = 0; virtual void scanReset(const InputSource& src) = 0; virtual void sendCharData(XMLBuffer& toSend) = 0; //return owned by the caller virtual InputSource* resolveSystemId(const XMLCh* const /*sysId*/ ,const XMLCh* const /*pubId*/) {return 0;}; // ----------------------------------------------------------------------- // Protected scanning methods // ----------------------------------------------------------------------- bool scanCharRef(XMLCh& toFill, XMLCh& second); void scanComment(); bool scanEq(bool inDecl = false); void scanMiscellaneous(); void scanPI(); void scanProlog(); void scanXMLDecl(const DeclTypes type); // ----------------------------------------------------------------------- // Private helper methods // ----------------------------------------------------------------------- void checkInternalDTD(bool hasExtSubset, const XMLCh* const sysId, const XMLCh* const pubId); void checkIDRefs(); bool isLegalToken(const XMLPScanToken& toCheck); XMLTokens senseNextToken(XMLSize_t& orgReader); void initValidator(XMLValidator* theValidator); inline void resetValidationContext(); unsigned int *getNewUIntPtr(); void resetUIntPool(); void recreateUIntPool(); unsigned int resolvePrefix ( const XMLCh* const prefix , const ElemStack::MapModes mode ); unsigned int resolveQNameWithColon ( const XMLCh* const qName , XMLBuffer& prefixBufToFill , const ElemStack::MapModes mode , const int prefixColonPos ); inline void setAttrDupChkRegistry ( const XMLSize_t &attrNumber , bool &toUseHashTable ); // ----------------------------------------------------------------------- // Data members // // fBufferSize // Maximum input buffer size // // fLowWaterMark // The low water mark for the raw byte buffer. // // fAttrList // Every time we get a new element start tag, we have to pass to // the document handler the attributes found. To make it more // efficient we keep this ref vector of XMLAttr objects around. We // just reuse it over and over, allowing it to grow to meet the // peak need. // // fBufMgr // This is a manager for temporary buffers used during scanning. // For efficiency we must use a set of static buffers, but we have // to insure that they are not incorrectly reused. So this manager // provides the smarts to hand out buffers as required. // // fDocHandler // The client code's document handler. If zero, then no document // handler callouts are done. We don't adopt it. // // fDocTypeHandler // The client code's document type handler (used by DTD Validator). // // fDoNamespaces // This flag indicates whether the client code wants us to do // namespaces or not. If the installed validator indicates that it // has to do namespaces, then this is ignored. // // fEntityHandler // The client code's entity handler. If zero, then no entity handler // callouts are done. We don't adopt it. // // fErrorReporter // The client code's error reporter. If zero, then no error reporter // callouts are done. We don't adopt it. // // fErrorHandler // The client code's error handler. Need to store this info for // Schema parse error handling. // // fPSVIHandler // The client code's PSVI handler. // // fExitOnFirstFatal // This indicates whether we bail out on the first fatal XML error // or not. It defaults to true, which is the strict XML way, but it // can be changed. // // fValidationConstraintFatal // This indicates whether we treat validation constraint errors as // fatal errors or not. It defaults to false, but it can be changed. // // fIDRefList // This is a list of XMLRefInfo objects. This member lets us do all // needed ID-IDREF balancing checks. // // fInException // To avoid a circular freakout when we catch an exception and emit // it, which would normally throw again if the 'fail on first error' // flag is one. // // fReaderMgr // This is the reader manager, from which we get characters. It // manages the reader stack for us, and provides a lot of convenience // methods to do specialized checking for chars, sequences of chars, // skipping chars, etc... // // fScannerId // fSequenceId // These are used for progressive parsing, to make sure that the // client code does the right thing at the right time. // // fStandalone // Indicates whether the document is standalone or not. Defaults to // no, but can be overridden in the XMLDecl. // // fHasNoDTD // Indicates the document has no DTD or has only an internal DTD subset // which contains no parameter entity references. // // fValidate // Indicates whether any validation should be done. This is defined // by the existence of a Grammar together with fValScheme. // // fValidator // The installed validator. We look at them via the abstract // validator interface, and don't know what it actual is. // Either point to user's installed validator, or fDTDValidator // or fSchemaValidator. // // fValidatorFromUser // This flag indicates whether the validator was installed from // user. If false, then the validator was created by the Scanner. // // fValScheme // This is the currently set validation scheme. It defaults to // 'never', but can be set by the client. // // fErrorCount // The number of errors we've encountered. // // fDoSchema // This flag indicates whether the client code wants Schema to // be processed or not. // // fSchemaFullChecking // This flag indicates whether the client code wants full Schema // constraint checking. // // fIdentityConstraintChecking // This flag indicates whether the client code wants Identity // Constraint checking, defaulted to true to maintain backward // compatibility (to minimize supprise) // // fAttName // fAttValue // fCDataBuf // fNameBuf // fQNameBuf // fPrefixBuf // For the most part, buffers are obtained from the fBufMgr object // on the fly. However, for the start tag scan, we have a set of // fixed buffers for performance reasons. These are used a lot and // there are a number of them, so asking the buffer manager each // time for new buffers is a bit too much overhead. // // fEmptyNamespaceId // This is the id of the empty namespace URI. This is a special one // because of the xmlns="" type of deal. We have to quickly sense // that its the empty namespace. // // fUnknownNamespaceId // This is the id of the namespace URI which is assigned to the // global namespace. Its for debug purposes only, since there is no // real global namespace URI. Its set by the derived class. // // fXMLNamespaceId // fXMLNSNamespaceId // These are the ids of the namespace URIs which are assigned to the // 'xml' and 'xmlns' special prefixes. The former is officially // defined but the latter is not, so we just provide one for debug // purposes. // // fSchemaNamespaceId // This is the id of the schema namespace URI. // // fGrammarResolver // Grammar Pool that stores all the grammars. Key is namespace for // schema and system id for external DTD. When caching a grammar, if // a grammar is already in the pool, it will be replaced with the // new parsed one. // // fGrammar // Current Grammar used by the Scanner and Validator // // fRootGrammar // The grammar where the root element is declared. // // fGrammarType // Current Grammar Type. Store this value instead of calling getGrammarType // all the time for faster performance. // // fURIStringPool // This is a pool for URIs with unique ids assigned. We use a standard // string pool class. This pool is going to be shared by all Grammar. // Use only if namespace is turned on. // // fRootElemName // No matter we are using DTD or Schema Grammar, if a DOCTYPE exists, // we need to verify the root element name. So store the rootElement // that is used in the DOCTYPE in the Scanner instead of in the DTDGrammar // where it used to // // fExternalSchemaLocation // The list of Namespace/SchemaLocation that was specified externally // using setExternalSchemaLocation. // // fExternalNoNamespaceSchemaLocation // The no target namespace XML Schema Location that was specified // externally using setExternalNoNamespaceSchemaLocation. // // fSecurityManager // The SecurityManager instance; as and when set by the application. // // fEntityExpansionLimit // The number of entity expansions to be permitted while processing this document // Only meaningful when fSecurityManager != 0 // // fEntityExpansionCount // The number of general entities expanded so far in this document. // Only meaningful when fSecurityManager != null // // fLoadExternalDTD // This flag indicates whether the external DTD be loaded or not // // fLoadSchema // This flag indicates whether the parser should attempt to load // schemas if they cannot be found in the grammar pool. // // fNormalizeData // This flag indicates whether the parser should perform datatype // normalization that is defined in the schema. // // fCalculateSrcOfs // This flag indicates the parser should calculate the source offset. // Turning this on may impact performance. // // fStandardUriConformant // This flag controls whether we force conformant URI // // fXMLVersion // Enum to indicate if the main doc is XML 1.1 or XML 1.0 conformant // fUIntPool // pool of unsigned integers to help with duplicate attribute // detection and filling in default/fixed attributes // fUIntPoolRow // current row in fUIntPool // fUIntPoolCol // current column in row // fUIntPoolRowTotal // total number of rows in table // // fMemoryManager // Pluggable memory manager for dynamic allocation/deallocation. // // ----------------------------------------------------------------------- XMLSize_t fBufferSize; XMLSize_t fLowWaterMark; bool fStandardUriConformant; bool fCalculateSrcOfs; bool fDoNamespaces; bool fExitOnFirstFatal; bool fValidationConstraintFatal; bool fInException; bool fStandalone; bool fHasNoDTD; bool fValidate; bool fValidatorFromUser; bool fDoSchema; bool fSchemaFullChecking; bool fIdentityConstraintChecking; bool fToCacheGrammar; bool fUseCachedGrammar; bool fLoadExternalDTD; bool fLoadSchema; bool fNormalizeData; bool fGenerateSyntheticAnnotations; bool fValidateAnnotations; bool fIgnoreCachedDTD; bool fIgnoreAnnotations; bool fDisableDefaultEntityResolution; bool fSkipDTDValidation; bool fHandleMultipleImports; int fErrorCount; XMLSize_t fEntityExpansionLimit; XMLSize_t fEntityExpansionCount; unsigned int fEmptyNamespaceId; unsigned int fUnknownNamespaceId; unsigned int fXMLNamespaceId; unsigned int fXMLNSNamespaceId; unsigned int fSchemaNamespaceId; unsigned int ** fUIntPool; unsigned int fUIntPoolRow; unsigned int fUIntPoolCol; unsigned int fUIntPoolRowTotal; XMLUInt32 fScannerId; XMLUInt32 fSequenceId; RefVectorOf* fAttrList; RefHash2KeysTableOf* fAttrDupChkRegistry; XMLDocumentHandler* fDocHandler; DocTypeHandler* fDocTypeHandler; XMLEntityHandler* fEntityHandler; XMLErrorReporter* fErrorReporter; ErrorHandler* fErrorHandler; PSVIHandler* fPSVIHandler; ValidationContext *fValidationContext; bool fEntityDeclPoolRetrieved; ReaderMgr fReaderMgr; XMLValidator* fValidator; ValSchemes fValScheme; GrammarResolver* const fGrammarResolver; MemoryManager* const fGrammarPoolMemoryManager; Grammar* fGrammar; Grammar* fRootGrammar; XMLStringPool* fURIStringPool; XMLCh* fRootElemName; XMLCh* fExternalSchemaLocation; XMLCh* fExternalNoNamespaceSchemaLocation; SecurityManager* fSecurityManager; XMLReader::XMLVersion fXMLVersion; MemoryManager* fMemoryManager; XMLBufferMgr fBufMgr; XMLBuffer fAttNameBuf; XMLBuffer fAttValueBuf; XMLBuffer fCDataBuf; XMLBuffer fQNameBuf; XMLBuffer fPrefixBuf; XMLBuffer fURIBuf; XMLBuffer fWSNormalizeBuf; ElemStack fElemStack; private : // ----------------------------------------------------------------------- // Unimplemented constructors and operators // ----------------------------------------------------------------------- XMLScanner(); XMLScanner(const XMLScanner&); XMLScanner& operator=(const XMLScanner&); // ----------------------------------------------------------------------- // Private helper methods // ----------------------------------------------------------------------- void commonInit(); void cleanUp(); // ----------------------------------------------------------------------- // Private scanning methods // ----------------------------------------------------------------------- bool getQuotedString(XMLBuffer& toFill); XMLSize_t scanUpToWSOr ( XMLBuffer& toFill , const XMLCh chEndChar ); }; // --------------------------------------------------------------------------- // XMLScanner: Getter methods // --------------------------------------------------------------------------- inline const XMLDocumentHandler* XMLScanner::getDocHandler() const { return fDocHandler; } inline XMLDocumentHandler* XMLScanner::getDocHandler() { return fDocHandler; } inline const DocTypeHandler* XMLScanner::getDocTypeHandler() const { return fDocTypeHandler; } inline DocTypeHandler* XMLScanner::getDocTypeHandler() { return fDocTypeHandler; } inline bool XMLScanner::getDoNamespaces() const { return fDoNamespaces; } inline const XMLEntityHandler* XMLScanner::getEntityHandler() const { return fEntityHandler; } inline XMLEntityHandler* XMLScanner::getEntityHandler() { return fEntityHandler; } inline const XMLErrorReporter* XMLScanner::getErrorReporter() const { return fErrorReporter; } inline XMLErrorReporter* XMLScanner::getErrorReporter() { return fErrorReporter; } inline const ErrorHandler* XMLScanner::getErrorHandler() const { return fErrorHandler; } inline ErrorHandler* XMLScanner::getErrorHandler() { return fErrorHandler; } inline const PSVIHandler* XMLScanner::getPSVIHandler() const { return fPSVIHandler; } inline PSVIHandler* XMLScanner::getPSVIHandler() { return fPSVIHandler; } inline bool XMLScanner::getExitOnFirstFatal() const { return fExitOnFirstFatal; } inline bool XMLScanner::getValidationConstraintFatal() const { return fValidationConstraintFatal; } inline bool XMLScanner::getInException() const { return fInException; } inline RefHashTableOf* XMLScanner::getIDRefList() { return fValidationContext->getIdRefList(); } inline const RefHashTableOf* XMLScanner::getIDRefList() const { return fValidationContext->getIdRefList(); } inline ValidationContext* XMLScanner::getValidationContext() { if (!fEntityDeclPoolRetrieved) { fValidationContext->setEntityDeclPool(getEntityDeclPool()); fEntityDeclPoolRetrieved = true; } return fValidationContext; } inline const Locator* XMLScanner::getLocator() const { return &fReaderMgr; } inline const ReaderMgr* XMLScanner::getReaderMgr() const { return &fReaderMgr; } inline XMLFilePos XMLScanner::getSrcOffset() const { return fReaderMgr.getSrcOffset(); } inline bool XMLScanner::getStandalone() const { return fStandalone; } inline XMLScanner::ValSchemes XMLScanner::getValidationScheme() const { return fValScheme; } inline const XMLValidator* XMLScanner::getValidator() const { return fValidator; } inline XMLValidator* XMLScanner::getValidator() { return fValidator; } inline bool XMLScanner::getDoSchema() const { return fDoSchema; } inline bool XMLScanner::getValidationSchemaFullChecking() const { return fSchemaFullChecking; } inline bool XMLScanner::getIdentityConstraintChecking() const { return fIdentityConstraintChecking; } inline int XMLScanner::getErrorCount() { return fErrorCount; } inline bool XMLScanner::isValidatorFromUser() { return fValidatorFromUser; } inline unsigned int XMLScanner::getEmptyNamespaceId() const { return fEmptyNamespaceId; } inline unsigned int XMLScanner::getUnknownNamespaceId() const { return fUnknownNamespaceId; } inline unsigned int XMLScanner::getXMLNamespaceId() const { return fXMLNamespaceId; } inline unsigned int XMLScanner::getXMLNSNamespaceId() const { return fXMLNSNamespaceId; } inline const XMLStringPool* XMLScanner::getURIStringPool() const { return fURIStringPool; } inline XMLStringPool* XMLScanner::getURIStringPool() { return fURIStringPool; } inline bool XMLScanner::getHasNoDTD() const { return fHasNoDTD; } inline XMLCh* XMLScanner::getExternalSchemaLocation() const { return fExternalSchemaLocation; } inline XMLCh* XMLScanner::getExternalNoNamespaceSchemaLocation() const { return fExternalNoNamespaceSchemaLocation; } inline SecurityManager* XMLScanner::getSecurityManager() const { return fSecurityManager; } inline bool XMLScanner::getLoadExternalDTD() const { return fLoadExternalDTD; } inline bool XMLScanner::getLoadSchema() const { return fLoadSchema; } inline bool XMLScanner::getNormalizeData() const { return fNormalizeData; } inline bool XMLScanner::isCachingGrammarFromParse() const { return fToCacheGrammar; } inline bool XMLScanner::isUsingCachedGrammarInParse() const { return fUseCachedGrammar; } inline bool XMLScanner::getCalculateSrcOfs() const { return fCalculateSrcOfs; } inline Grammar* XMLScanner::getRootGrammar() const { return fRootGrammar; } inline bool XMLScanner::getStandardUriConformant() const { return fStandardUriConformant; } inline XMLReader::XMLVersion XMLScanner::getXMLVersion() const { return fXMLVersion; } inline MemoryManager* XMLScanner::getMemoryManager() const { return fMemoryManager; } inline ValueVectorOf* XMLScanner::getNamespaceContext() const { return fElemStack.getNamespaceMap(); } inline unsigned int XMLScanner::getPrefixId(const XMLCh* const prefix) const { return fElemStack.getPrefixId(prefix); } inline const XMLCh* XMLScanner::getPrefixForId(unsigned int prefId) const { return fElemStack.getPrefixForId(prefId); } inline bool XMLScanner::getGenerateSyntheticAnnotations() const { return fGenerateSyntheticAnnotations; } inline bool XMLScanner::getValidateAnnotations() const { return fValidateAnnotations; } inline const XMLSize_t& XMLScanner::getLowWaterMark() const { return fLowWaterMark; } inline bool XMLScanner::getIgnoreCachedDTD() const { return fIgnoreCachedDTD; } inline bool XMLScanner::getIgnoreAnnotations() const { return fIgnoreAnnotations; } inline bool XMLScanner::getDisableDefaultEntityResolution() const { return fDisableDefaultEntityResolution; } inline bool XMLScanner::getSkipDTDValidation() const { return fSkipDTDValidation; } inline bool XMLScanner::getHandleMultipleImports() const { return fHandleMultipleImports; } // --------------------------------------------------------------------------- // XMLScanner: Setter methods // --------------------------------------------------------------------------- inline void XMLScanner::addGlobalPrefix(const XMLCh* const prefix, const unsigned int uriId) { fElemStack.addGlobalPrefix(prefix, uriId); } inline void XMLScanner::setDocHandler(XMLDocumentHandler* const docHandler) { fDocHandler = docHandler; } inline void XMLScanner::setDocTypeHandler(DocTypeHandler* const docTypeHandler) { fDocTypeHandler = docTypeHandler; } inline void XMLScanner::setErrorHandler(ErrorHandler* const handler) { fErrorHandler = handler; } inline void XMLScanner::setPSVIHandler(PSVIHandler* const handler) { fPSVIHandler = handler; } inline void XMLScanner::setEntityHandler(XMLEntityHandler* const entityHandler) { fEntityHandler = entityHandler; fReaderMgr.setEntityHandler(entityHandler); } inline void XMLScanner::setErrorReporter(XMLErrorReporter* const errHandler) { fErrorReporter = errHandler; } inline void XMLScanner::setExitOnFirstFatal(const bool newValue) { fExitOnFirstFatal = newValue; } inline void XMLScanner::setValidationConstraintFatal(const bool newValue) { fValidationConstraintFatal = newValue; } inline void XMLScanner::setValidationScheme(const ValSchemes newScheme) { fValScheme = newScheme; // validation flag for Val_Auto is set to false by default, // and will be turned to true if a grammar is seen if (fValScheme == Val_Always) fValidate = true; else fValidate = false; } inline void XMLScanner::setDoSchema(const bool doSchema) { fDoSchema = doSchema; } inline void XMLScanner::setDoNamespaces(const bool doNamespaces) { fDoNamespaces = doNamespaces; } inline void XMLScanner::setValidationSchemaFullChecking(const bool schemaFullChecking) { fSchemaFullChecking = schemaFullChecking; } inline void XMLScanner::setIdentityConstraintChecking(const bool identityConstraintChecking) { fIdentityConstraintChecking = identityConstraintChecking; } inline void XMLScanner::setHasNoDTD(const bool hasNoDTD) { fHasNoDTD = hasNoDTD; } inline void XMLScanner::setRootElemName(XMLCh* rootElemName) { fMemoryManager->deallocate(fRootElemName);//delete [] fRootElemName; fRootElemName = XMLString::replicate(rootElemName, fMemoryManager); } inline void XMLScanner::setExternalSchemaLocation(const XMLCh* const schemaLocation) { fMemoryManager->deallocate(fExternalSchemaLocation);//delete [] fExternalSchemaLocation; fExternalSchemaLocation = XMLString::replicate(schemaLocation, fMemoryManager); } inline void XMLScanner::setExternalNoNamespaceSchemaLocation(const XMLCh* const noNamespaceSchemaLocation) { fMemoryManager->deallocate(fExternalNoNamespaceSchemaLocation);//delete [] fExternalNoNamespaceSchemaLocation; fExternalNoNamespaceSchemaLocation = XMLString::replicate(noNamespaceSchemaLocation, fMemoryManager); } inline void XMLScanner::setExternalSchemaLocation(const char* const schemaLocation) { fMemoryManager->deallocate(fExternalSchemaLocation);//delete [] fExternalSchemaLocation; fExternalSchemaLocation = XMLString::transcode(schemaLocation, fMemoryManager); } inline void XMLScanner::setExternalNoNamespaceSchemaLocation(const char* const noNamespaceSchemaLocation) { fMemoryManager->deallocate(fExternalNoNamespaceSchemaLocation);//delete [] fExternalNoNamespaceSchemaLocation; fExternalNoNamespaceSchemaLocation = XMLString::transcode(noNamespaceSchemaLocation, fMemoryManager); } inline void XMLScanner::setSecurityManager(SecurityManager* const securityManager) { fSecurityManager = securityManager; if(securityManager != 0) { fEntityExpansionLimit = securityManager->getEntityExpansionLimit(); fEntityExpansionCount = 0; } } inline void XMLScanner::setLoadExternalDTD(const bool loadDTD) { fLoadExternalDTD = loadDTD; } inline void XMLScanner::setLoadSchema(const bool loadSchema) { fLoadSchema = loadSchema; } inline void XMLScanner::setNormalizeData(const bool normalizeData) { fNormalizeData = normalizeData; } inline void XMLScanner::cacheGrammarFromParse(const bool newValue) { fToCacheGrammar = newValue; } inline void XMLScanner::useCachedGrammarInParse(const bool newValue) { fUseCachedGrammar = newValue; } inline void XMLScanner::setCalculateSrcOfs(const bool newValue) { fCalculateSrcOfs = newValue; } inline void XMLScanner::setStandardUriConformant(const bool newValue) { fStandardUriConformant = newValue; fReaderMgr.setStandardUriConformant(newValue); } inline void XMLScanner::setGenerateSyntheticAnnotations(const bool newValue) { fGenerateSyntheticAnnotations = newValue; } inline void XMLScanner::setValidateAnnotations(const bool newValue) { fValidateAnnotations = newValue; } inline void XMLScanner::setInputBufferSize(const XMLSize_t bufferSize) { fBufferSize = bufferSize; fCDataBuf.setFullHandler(this, fBufferSize); } inline void XMLScanner::setLowWaterMark(XMLSize_t newValue) { fLowWaterMark = newValue; } inline void XMLScanner::setIgnoredCachedDTD(const bool newValue) { fIgnoreCachedDTD = newValue; } inline void XMLScanner::setIgnoreAnnotations(const bool newValue) { fIgnoreAnnotations = newValue; } inline void XMLScanner::setDisableDefaultEntityResolution(const bool newValue) { fDisableDefaultEntityResolution = newValue; } inline void XMLScanner::setSkipDTDValidation(const bool newValue) { fSkipDTDValidation = newValue; } inline void XMLScanner::setHandleMultipleImports(const bool newValue) { fHandleMultipleImports = newValue; } // --------------------------------------------------------------------------- // XMLScanner: Mutator methods // --------------------------------------------------------------------------- inline void XMLScanner::incrementErrorCount() { ++fErrorCount; } inline void XMLScanner::resetValidationContext() { fValidationContext->clearIdRefList(); fValidationContext->setEntityDeclPool(0); fEntityDeclPoolRetrieved = false; } inline void XMLScanner::setAttrDupChkRegistry(const XMLSize_t &attrNumber , bool &toUseHashTable) { // once the attribute exceed 100, we use hash table to check duplication if (attrNumber > 100) { toUseHashTable = true; if (!fAttrDupChkRegistry) { fAttrDupChkRegistry = new (fMemoryManager) RefHash2KeysTableOf ( 2*attrNumber+1, false, fMemoryManager ); } else { fAttrDupChkRegistry->removeAll(); } } } inline Grammar::GrammarType XMLScanner::getCurrentGrammarType() const { return Grammar::UnKnown; } XERCES_CPP_NAMESPACE_END #endif