/* * 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: SAXParser.hpp 932887 2010-04-11 13:04:59Z borisk $ */ #if !defined(XERCESC_INCLUDE_GUARD_SAXPARSER_HPP) #define XERCESC_INCLUDE_GUARD_SAXPARSER_HPP #include #include #include #include #include #include #include #include #include #include XERCES_CPP_NAMESPACE_BEGIN class DocumentHandler; class EntityResolver; class XMLPScanToken; class XMLScanner; class XMLValidator; class GrammarResolver; class XMLGrammarPool; class XMLEntityResolver; class XMLResourceIdentifier; class PSVIHandler; /** * This class implements the SAX 'Parser' interface and should be * used by applications wishing to parse the XML files using SAX. * It allows the client program to install SAX handlers for event * callbacks. * *

It can be used to instantiate a validating or non-validating * parser, by setting a member flag.

* * @deprecated This interface has been replaced by the SAX2 * interface, which includes Namespace support. * See SAX2XMLReader for more information. * * Note - XMLDocumentHandler calls, when used with SAXParser, will not provide correct namespace information. This is becaue the SAX parser does not support namespace aware processing. * * */ class PARSERS_EXPORT SAXParser : public XMemory , public Parser , public XMLDocumentHandler , public XMLErrorReporter , public XMLEntityHandler , public DocTypeHandler { public : // ----------------------------------------------------------------------- // Class types // ----------------------------------------------------------------------- /** ValScheme enum used in setValidationScheme * Val_Never: Do not report validation errors. * Val_Always: The parser will always report validation errors. * Val_Auto: The parser will report validation errors only if a grammar is specified. * * @see #setValidationScheme */ enum ValSchemes { Val_Never , Val_Always , Val_Auto }; // ----------------------------------------------------------------------- // Constructors and Destructor // ----------------------------------------------------------------------- /** @name Constructors and Destructor */ //@{ /** Constructor with an instance of validator class to use for * validation. * @param valToAdopt Pointer to the validator instance to use. The * parser is responsible for freeing the memory. * @param manager Pointer to the memory manager to be used to * allocate objects. * @param gramPool The collection of cached grammars. */ SAXParser ( XMLValidator* const valToAdopt = 0 , MemoryManager* const manager = XMLPlatformUtils::fgMemoryManager , XMLGrammarPool* const gramPool = 0 ); /** * Destructor */ ~SAXParser(); //@} // ----------------------------------------------------------------------- // Getter Methods // ----------------------------------------------------------------------- /** @name Getter methods */ //@{ /** * This method returns the installed document handler. Suitable * for 'lvalue' usages. * * @return The pointer to the installed document handler object. */ DocumentHandler* getDocumentHandler(); /** * This method returns the installed document handler. Suitable * only for 'rvalue' usages. * * @return A const pointer to the installed document handler object. */ const DocumentHandler* getDocumentHandler() const; /** * This method returns the installed entity resolver. Suitable * for 'lvalue' usages. * * @return The pointer to the installed entity resolver object. */ EntityResolver* getEntityResolver(); /** * This method returns the installed entity resolver. Suitable * for 'rvalue' usages. * * @return A const pointer to the installed entity resolver object. */ const EntityResolver* getEntityResolver() const; /** * This method returns the installed entity resolver. Suitable * for 'lvalue' usages. * * @return The pointer to the installed entity resolver object. */ XMLEntityResolver* getXMLEntityResolver(); /** * This method returns the installed entity resolver. Suitable * for 'rvalue' usages. * * @return A const pointer to the installed entity resolver object. */ const XMLEntityResolver* getXMLEntityResolver() const; /** * This method returns the installed error handler. Suitable * for 'lvalue' usages. * * @return The pointer to the installed error handler object. */ ErrorHandler* getErrorHandler(); /** * This method returns the installed error handler. Suitable * for 'rvalue' usages. * * @return A const pointer to the installed error handler object. */ const ErrorHandler* getErrorHandler() const; /** * This method returns the installed PSVI handler. Suitable * for 'lvalue' usages. * * @return The pointer to the installed PSVI handler object. */ PSVIHandler* getPSVIHandler(); /** * This method returns the installed PSVI handler. Suitable * for 'rvalue' usages. * * @return A const pointer to the installed PSVI handler object. */ const PSVIHandler* getPSVIHandler() const; /** * This method returns a reference to the parser's installed * validator. * * @return A const reference to the installed validator object. */ const XMLValidator& getValidator() const; /** * This method returns an enumerated value that indicates the current * validation scheme set on this parser. * * @return The ValSchemes value current set on this parser. * @see #setValidationScheme */ ValSchemes getValidationScheme() const; /** Get the 'do schema' flag * * This method returns the state of the parser's schema processing * flag. * * @return true, if the parser is currently configured to * understand schema, false otherwise. * * @see #setDoSchema */ bool getDoSchema() const; /** Get the 'full schema constraint checking' flag * * This method returns the state of the parser's full schema constraint * checking flag. * * @return true, if the parser is currently configured to * have full schema constraint checking, false otherwise. * * @see #setValidationSchemaFullChecking */ bool getValidationSchemaFullChecking() const; /** Get the 'identity constraint checking' flag * * This method returns the state of the parser's identity constraint * checking flag. * * @return true, if the parser is currently configured to * have identity constraint checking, false otherwise. * * @see #setIdentityConstraintChecking */ bool getIdentityConstraintChecking() const; /** Get error count from the last parse operation. * * This method returns the error count from the last parse * operation. Note that this count is actually stored in the * scanner, so this method simply returns what the * scanner reports. * * @return number of errors encountered during the latest * parse operation. */ int getErrorCount() const; /** * This method returns the state of the parser's namespace * handling capability. * * @return true, if the parser is currently configured to * understand namespaces, false otherwise. * * @see #setDoNamespaces */ bool getDoNamespaces() const; /** * This method returns the state of the parser's * exit-on-First-Fatal-Error flag. * * @return true, if the parser is currently configured to * exit on the first fatal error, false otherwise. * * @see #setExitOnFirstFatalError */ bool getExitOnFirstFatalError() const; /** * This method returns the state of the parser's * validation-constraint-fatal flag. * * @return true, if the parser is currently configured to * set validation constraint errors as fatal, false * otherwise. * * @see #setValidationConstraintFatal */ bool getValidationConstraintFatal() const; /** Get the set of Namespace/SchemaLocation that is specified externally. * * This method returns the list of Namespace/SchemaLocation that was * specified using setExternalSchemaLocation. * * The parser owns the returned string, and the memory allocated for * the returned string will be destroyed when the parser is deleted. * * To ensure accessibility of the returned information after the parser * is deleted, callers need to copy and store the returned information * somewhere else. * * @return a pointer to the list of Namespace/SchemaLocation that was * specified externally. The pointer spans the same life-time as * the parser. A null pointer is returned if nothing * was specified externally. * * @see #setExternalSchemaLocation(const XMLCh* const) */ XMLCh* getExternalSchemaLocation() const; /** Get the noNamespace SchemaLocation that is specified externally. * * This method returns the no target namespace XML Schema Location * that was specified using setExternalNoNamespaceSchemaLocation. * * The parser owns the returned string, and the memory allocated for * the returned string will be destroyed when the parser is deleted. * * To ensure accessibility of the returned information after the parser * is deleted, callers need to copy and store the returned information * somewhere else. * * @return a pointer to the no target namespace Schema Location that was * specified externally. The pointer spans the same life-time as * the parser. A null pointer is returned if nothing * was specified externally. * * @see #setExternalNoNamespaceSchemaLocation(const XMLCh* const) */ XMLCh* getExternalNoNamespaceSchemaLocation() const; /** Get the SecurityManager instance attached to this parser. * * This method returns the security manager * that was specified using setSecurityManager. * * The SecurityManager instance must have been specified by the application; * this should not be deleted until after the parser has been deleted (or * a new SecurityManager instance has been supplied to the parser). * * @return a pointer to the SecurityManager instance * specified externally. A null pointer is returned if nothing * was specified externally. * * @see #setSecurityManager(SecurityManager* const) */ SecurityManager* getSecurityManager() const; /** Get the raw buffer low water mark for this parser. * * If the number of available bytes in the raw buffer is less than * the low water mark the parser will attempt to read more data before * continuing parsing. By default the value for this parameter is 100 * bytes. You may want to set this parameter to 0 if you would like * the parser to parse the available data immediately without * potentially blocking while waiting for more date. * * @return current low water mark * * @see #setSecurityManager */ XMLSize_t getLowWaterMark() const; /** Get the 'Loading External DTD' flag * * This method returns the state of the parser's loading external DTD * flag. * * @return false, if the parser is currently configured to * ignore external DTD completely, true otherwise. * * @see #setLoadExternalDTD * @see #getValidationScheme */ bool getLoadExternalDTD() const; /** Get the 'Loading Schema' flag * * This method returns the state of the parser's loading schema * flag. * * @return true, if the parser is currently configured to * automatically load schemas that are not in the * grammar pool, false otherwise. * * @see #setLoadSchema */ bool getLoadSchema() const; /** Get the 'Grammar caching' flag * * This method returns the state of the parser's grammar caching when * parsing an XML document. * * @return true, if the parser is currently configured to * cache grammars, false otherwise. * * @see #cacheGrammarFromParse */ bool isCachingGrammarFromParse() const; /** Get the 'Use cached grammar' flag * * This method returns the state of the parser's use of cached grammar * when parsing an XML document. * * @return true, if the parser is currently configured to * use cached grammars, false otherwise. * * @see #useCachedGrammarInParse */ bool isUsingCachedGrammarInParse() const; /** * Get the 'calculate src offset flag' * * This method returns the state of the parser's src offset calculation * when parsing an XML document. * * @return true, if the parser is currently configured to * calculate src offsets, false otherwise. * * @see #setCalculateSrcOfs */ bool getCalculateSrcOfs() const; /** * Get the 'force standard uri flag' * * This method returns the state if the parser forces standard uri * * @return true, if the parser is currently configured to * force standard uri, i.e. malformed uri will be rejected. * * @see #setStandardUriConformant */ bool getStandardUriConformant() const; /** * Retrieve the grammar that is associated with the specified namespace key * * @param nameSpaceKey Namespace key * @return Grammar associated with the Namespace key. */ Grammar* getGrammar(const XMLCh* const nameSpaceKey); /** * Retrieve the grammar where the root element is declared. * * @return Grammar where root element declared */ Grammar* getRootGrammar(); /** * Returns the string corresponding to a URI id from the URI string pool. * * @param uriId id of the string in the URI string pool. * @return URI string corresponding to the URI id. */ const XMLCh* getURIText(unsigned int uriId) const; /** * Returns the current src offset within the input source. * To be used only while parsing is in progress. * * @return offset within the input source */ XMLFilePos getSrcOffset() const; /** Get the 'generate synthetic annotations' flag * * @return true, if the parser is currently configured to * generate synthetic annotations, false otherwise. * A synthetic XSAnnotation is created when a schema * component has non-schema attributes but has no * child annotations so that the non-schema attributes * can be recovered under PSVI. * * @see #setGenerateSyntheticAnnotations */ bool getGenerateSyntheticAnnotations() const; /** Get the 'validate annotations' flag * * @return true, if the parser is currently configured to * validate annotations, false otherwise. * * @see #setValidateAnnotations */ bool getValidateAnnotations() const; /** Get the 'ignore cached DTD grammar' flag * * @return true, if the parser is currently configured to * ignore cached DTD, false otherwise. * * @see #setIgnoreCachedDTD */ bool getIgnoreCachedDTD() const; /** Get the 'ignore annotations' flag * * @return true, if the parser is currently configured to * ignore annotations, false otherwise. * * @see #setIgnoreAnnotations */ bool getIgnoreAnnotations() const; /** Get the 'disable default entity resolution' flag * * @return true, if the parser is currently configured to * not perform default entity resolution, false otherwise. * * @see #setDisableDefaultEntityResolution */ bool getDisableDefaultEntityResolution() const; /** Get the 'skip DTD validation' flag * * @return true, if the parser is currently configured to * skip DTD validation, false otherwise. * * @see #setSkipDTDValidation */ bool getSkipDTDValidation() const; /** Get the 'handle multiple schema imports' flag * * @return true, if the parser is currently configured to * import multiple schemas with the same namespace, false otherwise. * * @see #setHandleMultipleImports */ bool getHandleMultipleImports() const; //@} // ----------------------------------------------------------------------- // Setter methods // ----------------------------------------------------------------------- /** @name Setter methods */ //@{ /** set the 'generate synthetic annotations' flag * * @param newValue The value for specifying whether Synthetic Annotations * should be generated or not. * A synthetic XSAnnotation is created when a schema * component has non-schema attributes but has no * child annotations. * * @see #getGenerateSyntheticAnnotations */ void setGenerateSyntheticAnnotations(const bool newValue); /** set the 'validate annotations' flag * * @param newValue The value for specifying whether annotations * should be validate or not. * * @see #getValidateAnnotations */ void setValidateAnnotations(const bool newValue); /** * This method allows users to enable or disable the parser's * namespace processing. When set to true, parser starts enforcing * all the constraints / rules specified by the NameSpace * specification. * *

The parser's default state is: false.

* * @param newState The value specifying whether NameSpace rules should * be enforced or not. * * @see #getDoNamespaces */ void setDoNamespaces(const bool newState); /** * This method allows users to set the validation scheme to be used * by this parser. The value is one of the ValSchemes enumerated values * defined by this class: * *
Val_Never - turn off validation *
Val_Always - turn on validation *
Val_Auto - turn on validation if any internal/external * DTD subset have been seen * *

The parser's default state is: Val_Never.

* * @param newScheme The new validation scheme to use. * * @see #getValidationScheme */ void setValidationScheme(const ValSchemes newScheme); /** Set the 'schema support' flag * * This method allows users to enable or disable the parser's * schema processing. When set to false, parser will not process * any schema found. * * The parser's default state is: false. * * Note: If set to true, namespace processing must also be turned on. * * @param newState The value specifying whether schema support should * be enforced or not. * * @see #getDoSchema */ void setDoSchema(const bool newState); /** * This method allows the user to turn full Schema constraint checking on/off. * Only takes effect if Schema validation is enabled. * If turned off, partial constraint checking is done. * * Full schema constraint checking includes those checking that may * be time-consuming or memory intensive. Currently, particle unique * attribution constraint checking and particle derivation restriction checking * are controlled by this option. * * The parser's default state is: false. * * @param schemaFullChecking True to turn on full schema constraint checking. * * @see #getValidationSchemaFullChecking */ void setValidationSchemaFullChecking(const bool schemaFullChecking); /** * This method allows the user to turn identity constraint checking on/off. * Only takes effect if Schema validation is enabled. * If turned off, identity constraint checking is not done. * * The parser's default state is: true. * * @param identityConstraintChecking True to turn on identity constraint checking. * * @see #getIdentityConstraintChecking */ void setIdentityConstraintChecking(const bool identityConstraintChecking); /** * This method allows users to set the parser's behaviour when it * encounters the first fatal error. If set to true, the parser * will exit at the first fatal error. If false, then it will * report the error and continue processing. * *

The default value is 'true' and the parser exits on the * first fatal error.

* * @param newState The value specifying whether the parser should * continue or exit when it encounters the first * fatal error. * * @see #getExitOnFirstFatalError */ void setExitOnFirstFatalError(const bool newState); /** * This method allows users to set the parser's behaviour when it * encounters a validation constraint error. If set to true, and the * the parser will treat validation error as fatal and will exit depends on the * state of "getExitOnFirstFatalError". If false, then it will * report the error and continue processing. * * Note: setting this true does not mean the validation error will be printed with * the word "Fatal Error". It is still printed as "Error", but the parser * will exit if "setExitOnFirstFatalError" is set to true. * *

The default value is 'false'.

* * @param newState If true, the parser will exit if "setExitOnFirstFatalError" * is set to true. * * @see #getValidationConstraintFatal * @see #setExitOnFirstFatalError */ void setValidationConstraintFatal(const bool newState); /** * This method allows the user to specify a list of schemas to use. * If the targetNamespace of a schema specified using this method matches * the targetNamespace of a schema occurring in the instance document in * the schemaLocation attribute, or if the targetNamespace matches the * namespace attribute of the "import" element, the schema specified by the * user using this method will be used (i.e., the schemaLocation attribute * in the instance document or on the "import" element will be effectively ignored). * * If this method is called more than once, only the last one takes effect. * * The syntax is the same as for schemaLocation attributes in instance * documents: e.g, "http://www.example.com file_name.xsd". The user can * specify more than one XML Schema in the list. * * @param schemaLocation the list of schemas to use * * @see #getExternalSchemaLocation */ void setExternalSchemaLocation(const XMLCh* const schemaLocation); /** * This method is same as setExternalSchemaLocation(const XMLCh* const). * It takes native char string as parameter * * @param schemaLocation the list of schemas to use * * @see #setExternalSchemaLocation(const XMLCh* const) */ void setExternalSchemaLocation(const char* const schemaLocation); /** * This method allows the user to specify the no target namespace XML * Schema Location externally. If specified, the instance document's * noNamespaceSchemaLocation attribute will be effectively ignored. * * If this method is called more than once, only the last one takes effect. * * The syntax is the same as for the noNamespaceSchemaLocation attribute * that may occur in an instance document: e.g."file_name.xsd". * * @param noNamespaceSchemaLocation the XML Schema Location with no target namespace * * @see #getExternalNoNamespaceSchemaLocation */ void setExternalNoNamespaceSchemaLocation(const XMLCh* const noNamespaceSchemaLocation); /** * This method is same as setExternalNoNamespaceSchemaLocation(const XMLCh* const). * It takes native char string as parameter * * @param noNamespaceSchemaLocation the XML Schema Location with no target namespace * * @see #setExternalNoNamespaceSchemaLocation(const XMLCh* const) */ void setExternalNoNamespaceSchemaLocation(const char* const noNamespaceSchemaLocation); /** * This allows an application to set a SecurityManager on * the parser; this object stores information that various * components use to limit their consumption of system * resources while processing documents. * * If this method is called more than once, only the last one takes effect. * It may not be reset during a parse. * * * @param securityManager the SecurityManager instance to * be used by this parser * * @see #getSecurityManager */ void setSecurityManager(SecurityManager* const securityManager); /** Set the raw buffer low water mark for this parser. * * If the number of available bytes in the raw buffer is less than * the low water mark the parser will attempt to read more data before * continuing parsing. By default the value for this parameter is 100 * bytes. You may want to set this parameter to 0 if you would like * the parser to parse the available data immediately without * potentially blocking while waiting for more date. * * @param lwm new low water mark * * @see #getSecurityManager */ void setLowWaterMark(XMLSize_t lwm); /** Set the 'Loading External DTD' flag * * This method allows users to enable or disable the loading of external DTD. * When set to false, the parser will ignore any external DTD completely * if the validationScheme is set to Val_Never. * * The parser's default state is: true. * * This flag is ignored if the validationScheme is set to Val_Always or Val_Auto. * * @param newState The value specifying whether external DTD should * be loaded or not. * * @see #getLoadExternalDTD * @see #setValidationScheme */ void setLoadExternalDTD(const bool newState); /** Set the 'Loading Schema' flag * * This method allows users to enable or disable the loading of schemas. * When set to false, the parser not attempt to load schemas beyond * querying the grammar pool for them. * * The parser's default state is: true. * * @param newState The value specifying whether schemas should * be loaded if they're not found in the grammar * pool. * * @see #getLoadSchema * @see #setDoSchema */ void setLoadSchema(const bool newState); /** Set the 'Grammar caching' flag * * This method allows users to enable or disable caching of grammar when * parsing XML documents. When set to true, the parser will cache the * resulting grammar for use in subsequent parses. * * If the flag is set to true, the 'Use cached grammar' flag will also be * set to true. * * The parser's default state is: false. * * @param newState The value specifying whether we should cache grammars * or not. * * @see #isCachingGrammarFromParse * @see #useCachedGrammarInParse */ void cacheGrammarFromParse(const bool newState); /** Set the 'Use cached grammar' flag * * This method allows users to enable or disable the use of cached * grammars. When set to true, the parser will use the cached grammar, * instead of building the grammar from scratch, to validate XML * documents. * * If the 'Grammar caching' flag is set to true, this method ignores the * value passed in. * * The parser's default state is: false. * * @param newState The value specifying whether we should use the cached * grammar or not. * * @see #isUsingCachedGrammarInParse * @see #cacheGrammarFromParse */ void useCachedGrammarInParse(const bool newState); /** Enable/disable src offset calculation * * This method allows users to enable/disable src offset calculation. * Disabling the calculation will improve performance. * * The parser's default state is: false. * * @param newState The value specifying whether we should enable or * disable src offset calculation * * @see #getCalculateSrcOfs */ void setCalculateSrcOfs(const bool newState); /** Force standard uri * * This method allows users to tell the parser to force standard uri conformance. * * The parser's default state is: false. * * @param newState The value specifying whether the parser should reject malformed URI. * * @see #getStandardUriConformant */ void setStandardUriConformant(const bool newState); /** Set the scanner to use when scanning the XML document * * This method allows users to set the scanner to use * when scanning a given XML document. * * @param scannerName The name of the desired scanner */ void useScanner(const XMLCh* const scannerName); /** Set maximum input buffer size * * This method allows users to limit the size of buffers used in parsing * XML character data. The effect of setting this size is to limit the * size of a ContentHandler::characters() call. * * The parser's default input buffer size is 1 megabyte. * * @param bufferSize The maximum input buffer size */ void setInputBufferSize(const XMLSize_t bufferSize); /** Set the 'ignore cached DTD grammar' flag * * This method gives users the option to ignore a cached DTD grammar, when * an XML document contains both an internal and external DTD, and the use * cached grammar from parse option is enabled. Currently, we do not allow * using cached DTD grammar when an internal subset is present in the * document. This option will only affect the behavior of the parser when * an internal and external DTD both exist in a document (i.e. no effect * if document has no internal subset). * * The parser's default state is false * * @param newValue The state to set */ void setIgnoreCachedDTD(const bool newValue); /** Set the 'ignore annotation' flag * * This method gives users the option to not generate XSAnnotations * when "traversing" a schema. * * The parser's default state is false * * @param newValue The state to set */ void setIgnoreAnnotations(const bool newValue); /** Set the 'disable default entity resolution' flag * * This method gives users the option to not perform default entity * resolution. If the user's resolveEntity method returns NULL the * parser will try to resolve the entity on its own. When this option * is set to true, the parser will not attempt to resolve the entity * when the resolveEntity method returns NULL. * * The parser's default state is false * * @param newValue The state to set * * @see #EntityResolver */ void setDisableDefaultEntityResolution(const bool newValue); /** Set the 'skip DTD validation' flag * * This method gives users the option to skip DTD validation only when * schema validation is on (i.e. when performing validation, we will * ignore the DTD, except for entities, when schema validation is enabled). * * NOTE: This option is ignored if schema validation is disabled. * * The parser's default state is false * * @param newValue The state to set */ void setSkipDTDValidation(const bool newValue); /** Set the 'handle multiple schema imports' flag * * This method gives users the ability to import multiple schemas that * have the same namespace. * * NOTE: This option is ignored if schema validation is disabled. * * The parser's default state is false * * @param newValue The state to set */ void setHandleMultipleImports(const bool newValue); //@} // ----------------------------------------------------------------------- // Advanced document handler list maintenance methods // ----------------------------------------------------------------------- /** @name Advanced document handler list maintenance methods */ //@{ /** * This method installs the specified 'advanced' document callback * handler, thereby allowing the user to customize the processing, * if they choose to do so. Any number of advanced callback handlers * maybe installed. * *

The methods in the advanced callback interface represent * Xerces-C extensions. There is no specification for this interface.

* * Note - XMLDocumentHandler calls, when used with SAXParser, will not provide correct namespace information. This is becaue the SAX parser does not support namespace aware processing. * * @param toInstall A pointer to the users advanced callback handler. * * @see #removeAdvDocHandler */ void installAdvDocHandler(XMLDocumentHandler* const toInstall); /** * This method removes the 'advanced' document handler callback from * the underlying parser scanner. If no handler is installed, advanced * callbacks are not invoked by the scanner. * @param toRemove A pointer to the advanced callback handler which * should be removed. * * Note - XMLDocumentHandler calls, when used with SAXParser, will not provide correct namespace information. This is becaue the SAX parser does not support namespace aware processing. * * @see #installAdvDocHandler */ bool removeAdvDocHandler(XMLDocumentHandler* const toRemove); //@} // ----------------------------------------------------------------------- // Progressive scan methods // ----------------------------------------------------------------------- /** @name Progressive scan methods */ //@{ /** Begin a progressive parse operation * * This method is used to start a progressive parse on a XML file. * To continue parsing, subsequent calls must be to the parseNext * method. * * It scans through the prolog and returns a token to be used on * subsequent scanNext() calls. If the return value is true, then the * token is legal and ready for further use. If it returns false, then * the scan of the prolog failed and the token is not going to work on * subsequent scanNext() calls. * * @param systemId A pointer to a Unicode string representing the path * to the XML file to be parsed. * @param toFill A token maintaing state information to maintain * internal consistency between invocation of 'parseNext' * calls. * * @return 'true', if successful in parsing the prolog. It indicates the * user can go ahead with parsing the rest of the file. It * returns 'false' to indicate that the parser could parse the * prolog (which means the token will not be valid.) * * @see #parseNext * @see #parseFirst(char*,...) * @see #parseFirst(InputSource&,...) */ bool parseFirst ( const XMLCh* const systemId , XMLPScanToken& toFill ); /** Begin a progressive parse operation * * This method is used to start a progressive parse on a XML file. * To continue parsing, subsequent calls must be to the parseNext * method. * * It scans through the prolog and returns a token to be used on * subsequent scanNext() calls. If the return value is true, then the * token is legal and ready for further use. If it returns false, then * the scan of the prolog failed and the token is not going to work on * subsequent scanNext() calls. * * @param systemId A pointer to a regular native string representing * the path to the XML file to be parsed. * @param toFill A token maintaing state information to maintain * internal consistency between invocation of 'parseNext' * calls. * * @return 'true', if successful in parsing the prolog. It indicates the * user can go ahead with parsing the rest of the file. It * returns 'false' to indicate that the parser could not parse * the prolog. * * @see #parseNext * @see #parseFirst(XMLCh*,...) * @see #parseFirst(InputSource&,...) */ bool parseFirst ( const char* const systemId , XMLPScanToken& toFill ); /** Begin a progressive parse operation * * This method is used to start a progressive parse on a XML file. * To continue parsing, subsequent calls must be to the parseNext * method. * * It scans through the prolog and returns a token to be used on * subsequent scanNext() calls. If the return value is true, then the * token is legal and ready for further use. If it returns false, then * the scan of the prolog failed and the token is not going to work on * subsequent scanNext() calls. * * @param source A const reference to the InputSource object which * points to the XML file to be parsed. * @param toFill A token maintaing state information to maintain * internal consistency between invocation of 'parseNext' * calls. * * @return 'true', if successful in parsing the prolog. It indicates the * user can go ahead with parsing the rest of the file. It * returns 'false' to indicate that the parser could not parse * the prolog. * * @see #parseNext * @see #parseFirst(XMLCh*,...) * @see #parseFirst(char*,...) */ bool parseFirst ( const InputSource& source , XMLPScanToken& toFill ); /** Continue a progressive parse operation * * This method is used to continue with progressive parsing of * XML files started by a call to 'parseFirst' method. * * It parses the XML file and stops as soon as it comes across * a XML token (as defined in the XML specification). Relevant * callback handlers are invoked as required by the SAX * specification. * * @param token A token maintaing state information to maintain * internal consistency between invocation of 'parseNext' * calls. * * @return 'true', if successful in parsing the next XML token. * It indicates the user can go ahead with parsing the rest * of the file. It returns 'false' to indicate that the parser * could not find next token as per the XML specification * production rule. * * @see #parseFirst(XMLCh*,...) * @see #parseFirst(char*,...) * @see #parseFirst(InputSource&,...) */ bool parseNext(XMLPScanToken& token); /** Reset the parser after a progressive parse * * If a progressive parse loop exits before the end of the document * is reached, the parser has no way of knowing this. So it will leave * open any files or sockets or memory buffers that were in use at * the time that the parse loop exited. * * The next parse operation will cause these open files and such to * be closed, but the next parse operation might occur at some unknown * future point. To avoid this problem, you should reset the parser if * you exit the loop early. * * If you exited because of an error, then this cleanup will be done * for you. Its only when you exit the file prematurely of your own * accord, because you've found what you wanted in the file most * likely. * * @param token A token maintaing state information to maintain * internal consistency between invocation of 'parseNext' * calls. */ void parseReset(XMLPScanToken& token); //@} // ----------------------------------------------------------------------- // Grammar preparsing interface // ----------------------------------------------------------------------- /** @name Implementation of Grammar preparsing interface's. */ //@{ /** * Preparse schema grammar (XML Schema, DTD, etc.) via an input source * object. * * This method invokes the preparsing process on a schema grammar XML * file specified by the SAX InputSource parameter. If the 'toCache' flag * is enabled, the parser will cache the grammars for re-use. If a grammar * key is found in the pool, no caching of any grammar will take place. * * * @param source A const reference to the SAX InputSource object which * points to the schema grammar file to be preparsed. * @param grammarType The grammar type (Schema or DTD). * @param toCache If true, we cache the preparsed grammar, * otherwise, no caching. Default is false. * @return The preparsed schema grammar object (SchemaGrammar or * DTDGrammar). That grammar object is owned by the parser. * * @exception SAXException Any SAX exception, possibly * wrapping another exception. * @exception XMLException An exception from the parser or client * handler code. * @exception DOMException A DOM exception as per DOM spec. * * @see InputSource#InputSource */ Grammar* loadGrammar(const InputSource& source, const Grammar::GrammarType grammarType, const bool toCache = false); /** * Preparse schema grammar (XML Schema, DTD, etc.) via a file path or URL * * This method invokes the preparsing process on a schema grammar XML * file specified by the file path parameter. If the 'toCache' flag * is enabled, the parser will cache the grammars for re-use. If a grammar * key is found in the pool, no caching of any grammar will take place. * * * @param systemId A const XMLCh pointer to the Unicode string which * contains the path to the XML grammar file to be * preparsed. * @param grammarType The grammar type (Schema or DTD). * @param toCache If true, we cache the preparsed grammar, * otherwise, no caching. Default is false. * @return The preparsed schema grammar object (SchemaGrammar or * DTDGrammar). That grammar object is owned by the parser. * * @exception SAXException Any SAX exception, possibly * wrapping another exception. * @exception XMLException An exception from the parser or client * handler code. * @exception DOMException A DOM exception as per DOM spec. */ Grammar* loadGrammar(const XMLCh* const systemId, const Grammar::GrammarType grammarType, const bool toCache = false); /** * Preparse schema grammar (XML Schema, DTD, etc.) via a file path or URL * * This method invokes the preparsing process on a schema grammar XML * file specified by the file path parameter. If the 'toCache' flag * is enabled, the parser will cache the grammars for re-use. If a grammar * key is found in the pool, no caching of any grammar will take place. * * * @param systemId A const char pointer to a native string which contains * the path to the XML grammar file to be preparsed. * @param grammarType The grammar type (Schema or DTD). * @param toCache If true, we cache the preparsed grammar, * otherwise, no caching. Default is false. * @return The preparsed schema grammar object (SchemaGrammar or * DTDGrammar). That grammar object is owned by the parser. * * @exception SAXException Any SAX exception, possibly * wrapping another exception. * @exception XMLException An exception from the parser or client * handler code. * @exception DOMException A DOM exception as per DOM spec. */ Grammar* loadGrammar(const char* const systemId, const Grammar::GrammarType grammarType, const bool toCache = false); /** * This method allows the user to reset the pool of cached grammars. */ void resetCachedGrammarPool(); //@} // ----------------------------------------------------------------------- // Implementation of the SAX Parser interface // ----------------------------------------------------------------------- /** @name Implementation of SAX 1.0 Parser interface's. */ //@{ /** * This method invokes the parsing process on the XML file specified * by the InputSource parameter. * * @param source A const reference to the InputSource object which * points to the XML file to be parsed. * * @see Parser#parse(InputSource) */ virtual void parse(const InputSource& source); /** * This method invokes the parsing process on the XML file specified by * the Unicode string parameter 'systemId'. * * @param systemId A const XMLCh pointer to the Unicode string which * contains the path to the XML file to be parsed. * * @see Parser#parse(XMLCh*) */ virtual void parse(const XMLCh* const systemId); /** * This method invokes the parsing process on the XML file specified by * the native char* string parameter 'systemId'. * * @param systemId A const char pointer to a native string which * contains the path to the XML file to be parsed. */ virtual void parse(const char* const systemId); /** * This method installs the user specified SAX Document Handler * callback function on parser. * * @param handler A pointer to the document handler to be called * when the parser comes across 'document' events * as per the SAX specification. * * @see Parser#parse(char*) */ virtual void setDocumentHandler(DocumentHandler* const handler); /** * This method installs the user specified DTD handler on the parser. * * @param handler A pointer to the DTD handler to be called * when the parser comes across 'DTD' events * as per the SAX specification. * * @see Parser#setDTDHandler */ virtual void setDTDHandler(DTDHandler* const handler); /** * This method installs the user specified error handler on * the parser. * * @param handler A pointer to the error handler to be called * when the parser comes across 'error' events * as per the SAX specification. * * @see Parser#setErrorHandler */ virtual void setErrorHandler(ErrorHandler* const handler); /** * This method installs the user specified PSVI handler on * the parser. * * @param handler A pointer to the PSVI handler to be called * when the parser comes across 'PSVI' events * as per the schema specification. * * @see Parser#setPSVIHandler */ virtual void setPSVIHandler(PSVIHandler* const handler); /** * This method installs the user specified entity resolver on the * parser. It allows applications to trap and redirect calls to * external entities. * * Any previously set entity resolver is merely dropped, since the parser * does not own them. If both setEntityResolver and setXMLEntityResolver * are called, then the last one is used. * * @param resolver A pointer to the entity resolver to be called * when the parser comes across references to * entities in the XML file. * * @see Parser#setEntityResolver */ virtual void setEntityResolver(EntityResolver* const resolver); /** * This method installs the user specified entity resolver on the * parser. It allows applications to trap and redirect calls to * external entities. * * Any previously set entity resolver is merely dropped, since the parser * does not own them. If both setEntityResolver and setXMLEntityResolver * are called, then the last one is used. * * @param resolver A pointer to the entity resolver to be called * when the parser comes across references to * entities in the XML file. * * @see Parser#setXMLEntityResolver */ virtual void setXMLEntityResolver(XMLEntityResolver* const resolver); //@} // ----------------------------------------------------------------------- // Implementation of the XMLDocumentHandler interface // ----------------------------------------------------------------------- /** @name Implementation of the XMLDocumentHandler Interface. */ //@{ /** * This method is used to report all the characters scanned * by the parser. The driver will invoke the 'characters' * method of the user installed SAX Document Handler. * *

If any advanced callback handlers are installed, the * corresponding 'docCharacters' method will also be invoked.

* * @param chars A const pointer to a Unicode string representing the * character data. * @param length The length of the Unicode string returned in 'chars'. * @param cdataSection A flag indicating if the characters represent * content from the CDATA section. * @see DocumentHandler#characters */ virtual void docCharacters ( const XMLCh* const chars , const XMLSize_t length , const bool cdataSection ); /** * This method is used to report any comments scanned by the parser. * This method is a no-op unless, unless an advanced callback handler * is installed, in which case the corresponding 'docComment' method * is invoked. * * @param comment A const pointer to a null terminated Unicode * string representing the comment text. */ virtual void docComment ( const XMLCh* const comment ); /** * This method is used to report any PI scanned by the parser. * *

Any PI's occurring before any 'content' are not reported * to any SAX handler as per the specification. However, all * PI's within content are reported via the SAX Document Handler's * 'processingInstruction' method. * *

If any advanced callback handlers are installed, the * corresponding 'docPI' method will be invoked.

* * @param target A const pointer to a Unicode string representing the * target of the PI declaration. * @param data A const pointer to a Unicode string representing the * data of the PI declaration. See the PI production rule * in the XML specification for details. * * @see DocumentHandler#processingInstruction */ virtual void docPI ( const XMLCh* const target , const XMLCh* const data ); /** * This method is used to indicate the end of root element * was just scanned by the parser. Corresponding 'endDocument' * method of the user installed SAX Document Handler will also * be invoked. * *

In addition, if any advanced callback handlers are installed, * the corresponding 'endDocument' method is invoked.

* * @see DocumentHandler#endDocument */ virtual void endDocument(); /** * This method is used to indicate the end tag of an element. * The driver will invoke the corresponding 'endElement' method of * the SAX Document Handler interface. * *

If any advanced callback handlers are installed, the * corresponding 'endElement' method is also invoked.

* * @param elemDecl A const reference to the object containing element * declaration information. * @param urlId An id referring to the namespace prefix, if * namespaces setting is switched on. * @param isRoot A flag indicating whether this element was the * root element. * @param elemPrefix A const pointer to a Unicode string containing * the namespace prefix for this element. Applicable * only when namespace processing is enabled. * @see DocumentHandler#endElement */ virtual void endElement ( const XMLElementDecl& elemDecl , const unsigned int urlId , const bool isRoot , const XMLCh* const elemPrefix ); /** * This method is used to indicate that an end of an entity reference * was just scanned. * *

If any advanced callback handlers are installed, the * corresponding 'endEntityReference' method is invoked.

* * @param entDecl A const reference to the object containing the * entity declaration information. */ virtual void endEntityReference ( const XMLEntityDecl& entDecl ); /** * This method is used to report all the whitespace characters, * which are determined to be 'ignorable'. This distinction * between characters is only made, if validation is enabled. * Corresponding 'ignorableWhitespace' method of the user installed * SAX Document Handler interface is called. * *

Any whitespace before content is not reported to the SAX * Document Handler method, as per the SAX specification. * However, if any advanced callback handlers are installed, the * corresponding 'ignorableWhitespace' method is invoked.

* * @param chars A const pointer to a Unicode string representing the * ignorable whitespace character data. * @param length The length of the Unicode string 'chars'. * @param cdataSection A flag indicating if the characters represent * content from the CDATA section. * @see DocumentHandler#ignorableWhitespace */ virtual void ignorableWhitespace ( const XMLCh* const chars , const XMLSize_t length , const bool cdataSection ); /** * This method allows the user installed Document Handler and * any advanced callback handlers to 'reset' themselves. */ virtual void resetDocument(); /** * This method is used to report the start of the parsing process. * The corresponding user installed SAX Document Handler's method * 'startDocument' is invoked. * *

If any advanced callback handlers are installed, then the * corresponding 'startDocument' method is also called.

* * @see DocumentHandler#startDocument */ virtual void startDocument(); /** * This method is used to report the start of an element. It is * called at the end of the element, by which time all attributes * specified are also parsed. The corresponding user installed * SAX Document Handler's method 'startElement' is invoked. * *

If any advanced callback handlers are installed, then the * corresponding 'startElement' method is also called.

* * @param elemDecl A const reference to the object containing element * declaration information. * @param urlId An id referring to the namespace prefix, if * namespaces setting is switched on. * @param elemPrefix A const pointer to a Unicode string containing * the namespace prefix for this element. Applicable * only when namespace processing is enabled. * @param attrList A const reference to the object containing the * list of attributes just scanned for this element. * @param attrCount A count of number of attributes in the list * specified by the parameter 'attrList'. * @param isEmpty A flag indicating whether this is an empty element * or not. * @param isRoot A flag indicating whether this element was the * root element. * @see DocumentHandler#startElement */ virtual void startElement ( const XMLElementDecl& elemDecl , const unsigned int urlId , const XMLCh* const elemPrefix , const RefVectorOf& attrList , const XMLSize_t attrCount , const bool isEmpty , const bool isRoot ); /** * This method is used to indicate the start of an entity reference. * *

If any advanced callback handlers are installed, the * corresponding 'endEntityReference' method is invoked.

* * @param entDecl A const reference to the object containing the * entity declaration information. */ virtual void startEntityReference ( const XMLEntityDecl& entDecl ); /** * This method is used to report the XML decl scanned by the parser. * Refer to the XML specification to see the meaning of parameters. * * This method is a no-op for this SAX driver * implementation. * * @param versionStr A const pointer to a Unicode string representing * version string value. * @param encodingStr A const pointer to a Unicode string representing * the encoding string value. * @param standaloneStr A const pointer to a Unicode string * representing the standalone string value. * @param actualEncodingStr A const pointer to a Unicode string * representing the actual encoding string * value. */ virtual void XMLDecl ( const XMLCh* const versionStr , const XMLCh* const encodingStr , const XMLCh* const standaloneStr , const XMLCh* const actualEncodingStr ); //@} // ----------------------------------------------------------------------- // Implementation of the XMLErrorReporter interface // ----------------------------------------------------------------------- /** @name Implementation of the XMLErrorReporter Interface. */ //@{ /** * This method is used to report back errors found while parsing the * XML file. The driver will call the corresponding user installed * SAX Error Handler methods: 'fatal', 'error', 'warning' depending * on the severity of the error. This classification is defined by * the XML specification. * * @param errCode An integer code for the error. * @param msgDomain A const pointer to an Unicode string representing * the message domain to use. * @param errType An enumeration classifying the severity of the error. * @param errorText A const pointer to an Unicode string representing * the text of the error message. * @param systemId A const pointer to an Unicode string representing * the system id of the XML file where this error * was discovered. * @param publicId A const pointer to an Unicode string representing * the public id of the XML file where this error * was discovered. * @param lineNum The line number where the error occurred. * @param colNum The column number where the error occurred. * @see ErrorHandler */ virtual void error ( const unsigned int errCode , const XMLCh* const msgDomain , const XMLErrorReporter::ErrTypes errType , const XMLCh* const errorText , const XMLCh* const systemId , const XMLCh* const publicId , const XMLFileLoc lineNum , const XMLFileLoc colNum ); /** * This method allows the user installed Error Handler * callback to 'reset' itself. * * This method is a no-op for this SAX driver * implementation. * */ virtual void resetErrors(); //@} // ----------------------------------------------------------------------- // Implementation of the XMLEntityHandler interface // ----------------------------------------------------------------------- /** @name Implementation of the XMLEntityHandler Interface. */ //@{ /** * This method is used to indicate the end of parsing of an external * entity file. * * This method is a no-op for this SAX driver * implementation. * * @param inputSource A const reference to the InputSource object * which points to the XML file being parsed. * @see InputSource */ virtual void endInputSource(const InputSource& inputSource); /** * This method allows an installed XMLEntityHandler to further * process any system id's of external entities encountered in * the XML file being parsed, such as redirection etc. * * This method always returns 'false' * for this SAX driver implementation. * * @param systemId A const pointer to an Unicode string representing * the system id scanned by the parser. * @param toFill A pointer to a buffer in which the application * processed system id is stored. * @return 'true', if any processing is done, 'false' otherwise. */ virtual bool expandSystemId ( const XMLCh* const systemId , XMLBuffer& toFill ); /** * This method allows the installed XMLEntityHandler to reset * itself. * * This method is a no-op for this SAX driver * implementation. */ virtual void resetEntities(); /** Resolve a public/system id * * This method allows a user installed entity handler to further * process any pointers to external entities. The applications can * implement 'redirection' via this callback. * * @param resourceIdentifier An object containing the type of * resource to be resolved and the associated data members * corresponding to this type. * @return The value returned by the user installed resolveEntity * method or NULL otherwise to indicate no processing was done. * The returned InputSource is owned by the parser which is * responsible to clean up the memory. * @see XMLEntityHandler * @see XMLEntityResolver */ virtual InputSource* resolveEntity ( XMLResourceIdentifier* resourceIdentifier ); /** * This method is used to indicate the start of parsing an * external entity file. * * This method is a no-op for this SAX driver * implementation. * * @param inputSource A const reference to the InputSource object * which points to the external entity * being parsed. */ virtual void startInputSource(const InputSource& inputSource); //@} // ----------------------------------------------------------------------- // Implementation of the Deprecated DocTypeHandler Interface // ----------------------------------------------------------------------- /** @name Implementation of the deprecated DocTypeHandler Interface */ //@{ /** * This method is used to report an attribute definition. * * This method is a no-op for this SAX * driver implementation. * * @param elemDecl A const reference to the object containing information * about the element whose attribute definition was just * parsed. * @param attDef A const reference to the object containing information * attribute definition. * @param ignore The flag indicating whether this attribute definition * was ignored by the parser or not. */ virtual void attDef ( const DTDElementDecl& elemDecl , const DTDAttDef& attDef , const bool ignore ); /** * This method is used to report a comment occurring within the DTD. * * This method is a no-op for this SAX driver * implementation. * * @param comment A const pointer to a Unicode string representing the * text of the comment just parsed. */ virtual void doctypeComment ( const XMLCh* const comment ); /** * This method is used to report the DOCTYPE declaration. * * This method is a no-op for this SAX driver * implementation. * * @param elemDecl A const reference to the object containing information * about the root element definition declaration of the * XML document being parsed. * @param publicId A const pointer to a Unicode string representing the * public id of the DTD file. * @param systemId A const pointer to a Unicode string representing the * system id of the DTD file. * @param hasIntSubset A flag indicating if this XML file contains any * internal subset. * @param hasExtSubset A flag indicating if this XML file contains any * external subset. Default is false. */ virtual void doctypeDecl ( const DTDElementDecl& elemDecl , const XMLCh* const publicId , const XMLCh* const systemId , const bool hasIntSubset , const bool hasExtSubset = false ); /** * This method is used to report any PI declarations * occurring inside the DTD definition block. * * This method is a no-op for this SAX driver * implementation. * * @param target A const pointer to a Unicode string representing the * target of the PI declaration. * @param data A const pointer to a Unicode string representing the * data of the PI declaration. See the PI production rule * in the XML specification for details. */ virtual void doctypePI ( const XMLCh* const target , const XMLCh* const data ); /** * This method is used to report any whitespaces * occurring inside the DTD definition block. * * This method is a no-op for this SAX driver * implementation. * * @param chars A const pointer to a Unicode string representing the * whitespace characters. * @param length The length of the whitespace Unicode string. */ virtual void doctypeWhitespace ( const XMLCh* const chars , const XMLSize_t length ); /** * This method is used to report an element declarations * successfully scanned by the parser. * * This method is a no-op for this SAX driver * implementation. * * @param decl A const reference to the object containing element * declaration information. * @param isIgnored The flag indicating whether this definition was * ignored by the parser or not. */ virtual void elementDecl ( const DTDElementDecl& decl , const bool isIgnored ); /** * This method is used to report the end of an attribute * list declaration for an element. * * This method is a no-op for this SAX driver * implementation. * * @param elemDecl A const reference to the object containing element * declaration information. */ virtual void endAttList ( const DTDElementDecl& elemDecl ); /** * This method is used to report the end of the internal subset. * * This method is a no-op for this SAX driver * implementation. */ virtual void endIntSubset(); /** * This method is used to report the end of the external subset. * * This method is a no-op for this SAX driver * implementation. */ virtual void endExtSubset(); /** * This method is used to report any entity declarations. * For unparsed entities, this driver will invoke the * SAX DTDHandler::unparsedEntityDecl callback. * * @param entityDecl A const reference to the object containing * the entity declaration information. * @param isPEDecl The flag indicating whether this was a * parameter entity declaration or not. * @param isIgnored The flag indicating whether this definition * was ignored by the parser or not. * * @see DTDHandler#unparsedEntityDecl */ virtual void entityDecl ( const DTDEntityDecl& entityDecl , const bool isPEDecl , const bool isIgnored ); /** * This method allows the user installed DTD handler to * reset itself. */ virtual void resetDocType(); /** * This method is used to report any notation declarations. * If there is a user installed DTDHandler, then the driver will * invoke the SAX DTDHandler::notationDecl callback. * * @param notDecl A const reference to the object containing the notation * declaration information. * @param isIgnored The flag indicating whether this definition was ignored * by the parser or not. * * @see DTDHandler#notationDecl */ virtual void notationDecl ( const XMLNotationDecl& notDecl , const bool isIgnored ); /** * This method is used to indicate the start of an element's attribute * list declaration. * * This method is a no-op for this SAX driver * implementation. * * @param elemDecl A const reference to the object containing element * declaration information. */ virtual void startAttList ( const DTDElementDecl& elemDecl ); /** * This method is used indicate the start of the internal subset. * * This method is a no-op for this SAX driver * implementation. */ virtual void startIntSubset(); /** * This method is used indicate the start of the external subset. * * This method is a no-op for this SAX driver * implementation. */ virtual void startExtSubset(); /** * This method is used to report the TextDecl. Refer to the XML * specification for the syntax of a TextDecl. * * This method is a no-op for this SAX driver * implementation. * * @param versionStr A const pointer to a Unicode string representing * the version number of the 'version' clause. * @param encodingStr A const pointer to a Unicode string representing * the encoding name of the 'encoding' clause. */ virtual void TextDecl ( const XMLCh* const versionStr , const XMLCh* const encodingStr ); //@} protected : // ----------------------------------------------------------------------- // Protected Methods // ----------------------------------------------------------------------- /** * This method returns a reference to the underlying scanner object. * It allows read only access to data maintained in the scanner. * * @return A const reference to the underlying scanner object. */ const XMLScanner& getScanner() const; /** Get the Grammar resolver * * This provides derived classes with access to the grammar resolver. */ GrammarResolver* getGrammarResolver() const; private: // ----------------------------------------------------------------------- // Unimplemented constructors and operators // ----------------------------------------------------------------------- SAXParser(const SAXParser&); SAXParser& operator=(const SAXParser&); // ----------------------------------------------------------------------- // Initialize/Cleanup methods // ----------------------------------------------------------------------- void initialize(); void cleanUp(); void resetInProgress(); // ----------------------------------------------------------------------- // Private data members // // fAttrList // A temporary implementation of the basic SAX attribute list // interface. We use this one over and over on each startElement // event to allow SAX-like access to the element attributes. // // fDocHandler // The installed SAX doc handler, if any. Null if none. // // fDTDHandler // The installed SAX DTD handler, if any. Null if none. // // fElemDepth // This is used to track the element nesting depth, so that we can // know when we are inside content. This is so we can ignore char // data outside of content. // // fEntityResolver // The installed SAX entity handler, if any. Null if none. // // fErrorHandler // The installed SAX error handler, if any. Null if none. // // fPSVIHandler // The installed PSVI handler, if any. Null if none. // // fAdvDHCount // fAdvDHList // fAdvDHListSize // This is an array of pointers to XMLDocumentHandlers, which is // how we see installed advanced document handlers. There will // usually not be very many at all, so a simple array is used // instead of a collection, for performance. It will grow if needed, // but that is unlikely. // // The count is how many handlers are currently installed. The size // is how big the array itself is (for expansion purposes.) When // count == size, is time to expand. // // fParseInProgress // This flag is set once a parse starts. It is used to prevent // multiple entrance or reentrance of the parser. // // fScanner // The scanner being used by this parser. It is created internally // during construction. // // fGrammarPool // The grammar pool passed from external application (through derivatives). // which could be 0, not owned. // // ----------------------------------------------------------------------- bool fParseInProgress; XMLSize_t fElemDepth; XMLSize_t fAdvDHCount; XMLSize_t fAdvDHListSize; VecAttrListImpl fAttrList; DocumentHandler* fDocHandler; DTDHandler* fDTDHandler; EntityResolver* fEntityResolver; XMLEntityResolver* fXMLEntityResolver; ErrorHandler* fErrorHandler; PSVIHandler* fPSVIHandler; XMLDocumentHandler** fAdvDHList; XMLScanner* fScanner; GrammarResolver* fGrammarResolver; XMLStringPool* fURIStringPool; XMLValidator* fValidator; MemoryManager* fMemoryManager; XMLGrammarPool* fGrammarPool; XMLBuffer fElemQNameBuf; }; // --------------------------------------------------------------------------- // SAXParser: Getter methods // --------------------------------------------------------------------------- inline DocumentHandler* SAXParser::getDocumentHandler() { return fDocHandler; } inline const DocumentHandler* SAXParser::getDocumentHandler() const { return fDocHandler; } inline EntityResolver* SAXParser::getEntityResolver() { return fEntityResolver; } inline XMLEntityResolver* SAXParser::getXMLEntityResolver() { return fXMLEntityResolver; } inline const XMLEntityResolver* SAXParser::getXMLEntityResolver() const { return fXMLEntityResolver; } inline const EntityResolver* SAXParser::getEntityResolver() const { return fEntityResolver; } inline ErrorHandler* SAXParser::getErrorHandler() { return fErrorHandler; } inline const ErrorHandler* SAXParser::getErrorHandler() const { return fErrorHandler; } inline PSVIHandler* SAXParser::getPSVIHandler() { return fPSVIHandler; } inline const PSVIHandler* SAXParser::getPSVIHandler() const { return fPSVIHandler; } inline const XMLScanner& SAXParser::getScanner() const { return *fScanner; } inline GrammarResolver* SAXParser::getGrammarResolver() const { return fGrammarResolver; } XERCES_CPP_NAMESPACE_END #endif