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Xerces2 is the next generation of high performance, fully compliant XML parsers in the Apache Xerces family. This new version of Xerces introduces the Xerces Native Interface (XNI), a complete framework for building parser components and configurations that is extremely modular and easy to program. The Apache Xerces2 parser is the reference implementation of XNI but other parser components, configurations, and parsers can be written using the Xerces Native Interface. For complete design and implementation documents, refer to the XNI Manual. Xerces2 is a fully conforming XML Schema 1.0 processor. A partial experimental implementation of the XML Schema 1.1 Structures and Datatypes Working Drafts (December 2009) and an experimental implementation of the XML Schema Definition Language (XSD): Component Designators (SCD) Candidate Recommendation (January 2010) are provided for evaluation. For more information, refer to the XML Schema page. Xerces2 also provides a complete implementation of the Document Object Model Level 3 Core and Load/Save W3C Recommendations and provides a complete implementation of the XML Inclusions (XInclude) W3C Recommendation. It also provides support for OASIS XML Catalogs v1.1. Xerces2 is able to parse documents written according to the XML 1.1 Recommendation, except that it does not yet provide an option to enable normalization checking as described in section 2.13 of this specification. It also handles namespaces according to the XML Namespaces 1.1 Recommendation, and will correctly serialize XML 1.1 documents if the DOM level 3 load/save APIs are in use.

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 * 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
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 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
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package org.apache.xerces.parsers;

import org.apache.xerces.util.ShadowedSymbolTable;
import org.apache.xerces.util.SymbolTable;
import org.apache.xerces.util.SynchronizedSymbolTable;
import org.apache.xerces.util.XMLGrammarPoolImpl;
import org.apache.xerces.xni.grammars.Grammar;
import org.apache.xerces.xni.grammars.XMLGrammarDescription;
import org.apache.xerces.xni.grammars.XMLGrammarPool;

/**
 * A parser pool that enables caching of grammars. The caching parser
 * pool is constructed with a specific symbol table and grammar pool
 * that has already been populated with the grammars used by the
 * application.
 * 

* Once the caching parser pool is constructed, specific parser * instances are created by calling the appropriate factory method * on the parser pool. *

* Note: There is a performance penalty for using * a caching parser pool due to thread safety. Access to the symbol * table and grammar pool must be synchronized to ensure the safe * operation of the symbol table and grammar pool. *

* Note: If performance is critical, then another * mechanism needs to be used instead of the caching parser pool. * One approach would be to create parser instances that do not * share these structures. Instead, each instance would get its * own copy to use while parsing. This avoids the synchronization * overhead at the expense of more memory and the time required * to copy the structures for each new parser instance. And even * when a parser instance is re-used, there is a potential for a * memory leak due to new symbols being added to the symbol table * over time. In other words, always take caution to make sure * that your application is thread-safe and avoids leaking memory. * * @author Andy Clark, IBM * * @version $Id: CachingParserPool.java 699892 2008-09-28 21:08:27Z mrglavas $ */ public class CachingParserPool { // // Constants // /** Default shadow symbol table (false). */ public static final boolean DEFAULT_SHADOW_SYMBOL_TABLE = false; /** Default shadow grammar pool (false). */ public static final boolean DEFAULT_SHADOW_GRAMMAR_POOL = false; // // Data // /** * Symbol table. The symbol table that the caching parser pool is * constructed with is automatically wrapped in a synchronized * version for thread-safety. */ protected SymbolTable fSynchronizedSymbolTable; /** * Grammar pool. The grammar pool that the caching parser pool is * constructed with is automatically wrapped in a synchronized * version for thread-safety. */ protected XMLGrammarPool fSynchronizedGrammarPool; /** * Shadow the symbol table for new parser instances. If true, * new parser instances use shadow copies of the main symbol * table and are not allowed to add new symbols to the main * symbol table. New symbols are added to the shadow symbol * table and are local to the parser instance. */ protected boolean fShadowSymbolTable = DEFAULT_SHADOW_SYMBOL_TABLE; /** * Shadow the grammar pool for new parser instances. If true, * new parser instances use shadow copies of the main grammar * pool and are not allowed to add new grammars to the main * grammar pool. New grammars are added to the shadow grammar * pool and are local to the parser instance. */ protected boolean fShadowGrammarPool = DEFAULT_SHADOW_GRAMMAR_POOL; // // Constructors // /** Default constructor. */ public CachingParserPool() { this(new SymbolTable(), new XMLGrammarPoolImpl()); } // () /** * Constructs a caching parser pool with the specified symbol table * and grammar pool. * * @param symbolTable The symbol table. * @param grammarPool The grammar pool. */ public CachingParserPool(SymbolTable symbolTable, XMLGrammarPool grammarPool) { fSynchronizedSymbolTable = new SynchronizedSymbolTable(symbolTable); fSynchronizedGrammarPool = new SynchronizedGrammarPool(grammarPool); } // (SymbolTable,XMLGrammarPool) // // Public methods // /** Returns the symbol table. */ public SymbolTable getSymbolTable() { return fSynchronizedSymbolTable; } // getSymbolTable():SymbolTable /** Returns the grammar pool. */ public XMLGrammarPool getXMLGrammarPool() { return fSynchronizedGrammarPool; } // getXMLGrammarPool():XMLGrammarPool // setters and getters /** * Sets whether new parser instance receive shadow copies of the * main symbol table. * * @param shadow If true, new parser instances use shadow copies * of the main symbol table and are not allowed to * add new symbols to the main symbol table. New * symbols are added to the shadow symbol table and * are local to the parser instance. If false, new * parser instances are allowed to add new symbols * to the main symbol table. */ public void setShadowSymbolTable(boolean shadow) { fShadowSymbolTable = shadow; } // setShadowSymbolTable(boolean) // factory methods /** Creates a new DOM parser. */ public DOMParser createDOMParser() { SymbolTable symbolTable = fShadowSymbolTable ? new ShadowedSymbolTable(fSynchronizedSymbolTable) : fSynchronizedSymbolTable; XMLGrammarPool grammarPool = fShadowGrammarPool ? new ShadowedGrammarPool(fSynchronizedGrammarPool) : fSynchronizedGrammarPool; return new DOMParser(symbolTable, grammarPool); } // createDOMParser():DOMParser /** Creates a new SAX parser. */ public SAXParser createSAXParser() { SymbolTable symbolTable = fShadowSymbolTable ? new ShadowedSymbolTable(fSynchronizedSymbolTable) : fSynchronizedSymbolTable; XMLGrammarPool grammarPool = fShadowGrammarPool ? new ShadowedGrammarPool(fSynchronizedGrammarPool) : fSynchronizedGrammarPool; return new SAXParser(symbolTable, grammarPool); } // createSAXParser():SAXParser // // Classes // /** * Synchronized grammar pool. * * @author Andy Clark, IBM */ public static final class SynchronizedGrammarPool implements XMLGrammarPool { // // Data // /** Main grammar pool. */ private XMLGrammarPool fGrammarPool; // // Constructors // /** Constructs a synchronized grammar pool. */ public SynchronizedGrammarPool(XMLGrammarPool grammarPool) { fGrammarPool = grammarPool; } // (XMLGrammarPool) // // GrammarPool methods // // retrieve the initial set of grammars for the validator // to work with. // REVISIT: does this need to be synchronized since it's just reading? // @param grammarType type of the grammars to be retrieved. // @return the initial grammar set the validator may place in its "bucket" public Grammar [] retrieveInitialGrammarSet(String grammarType ) { synchronized (fGrammarPool) { return fGrammarPool.retrieveInitialGrammarSet(grammarType); } } // retrieveInitialGrammarSet(String): Grammar[] // retrieve a particular grammar. // REVISIT: does this need to be synchronized since it's just reading? // @param gDesc description of the grammar to be retrieved // @return Grammar corresponding to gDesc, or null if none exists. public Grammar retrieveGrammar(XMLGrammarDescription gDesc) { synchronized (fGrammarPool) { return fGrammarPool.retrieveGrammar(gDesc); } } // retrieveGrammar(XMLGrammarDesc): Grammar // give the grammarPool the option of caching these grammars. // This certainly must be synchronized. // @param grammarType The type of the grammars to be cached. // @param grammars the Grammars that may be cached (unordered, Grammars previously // given to the validator may be included). public void cacheGrammars(String grammarType, Grammar[] grammars) { synchronized (fGrammarPool) { fGrammarPool.cacheGrammars(grammarType, grammars); } } // cacheGrammars(String, Grammar[]); /** lock the grammar pool */ public void lockPool() { synchronized (fGrammarPool) { fGrammarPool.lockPool(); } } // lockPool() /** clear the grammar pool */ public void clear() { synchronized (fGrammarPool) { fGrammarPool.clear(); } } // lockPool() /** unlock the grammar pool */ public void unlockPool() { synchronized (fGrammarPool) { fGrammarPool.unlockPool(); } } // unlockPool() /*** * Methods corresponding to original (pre Xerces2.0.0final) * grammarPool have been commented out. */ /** * Puts the specified grammar into the grammar pool. * * @param key Key to associate with grammar. * @param grammar Grammar object. */ /****** public void putGrammar(String key, Grammar grammar) { synchronized (fGrammarPool) { fGrammarPool.putGrammar(key, grammar); } } // putGrammar(String,Grammar) *******/ /** * Returns the grammar associated to the specified key. * * @param key The key of the grammar. */ /********** public Grammar getGrammar(String key) { synchronized (fGrammarPool) { return fGrammarPool.getGrammar(key); } } // getGrammar(String):Grammar ***********/ /** * Removes the grammar associated to the specified key from the * grammar pool and returns the removed grammar. * * @param key The key of the grammar. */ /********** public Grammar removeGrammar(String key) { synchronized (fGrammarPool) { return fGrammarPool.removeGrammar(key); } } // removeGrammar(String):Grammar ******/ /** * Returns true if the grammar pool contains a grammar associated * to the specified key. * * @param key The key of the grammar. */ /********** public boolean containsGrammar(String key) { synchronized (fGrammarPool) { return fGrammarPool.containsGrammar(key); } } // containsGrammar(String):boolean ********/ } // class SynchronizedGrammarPool /** * Shadowed grammar pool. * This class is predicated on the existence of a concrete implementation; * so using our own doesn't seem to bad an idea. * * @author Andy Clark, IBM * @author Neil Graham, IBM */ public static final class ShadowedGrammarPool extends XMLGrammarPoolImpl { // // Data // /** Main grammar pool. */ private XMLGrammarPool fGrammarPool; // // Constructors // /** Constructs a shadowed grammar pool. */ public ShadowedGrammarPool(XMLGrammarPool grammarPool) { fGrammarPool = grammarPool; } // (GrammarPool) // // GrammarPool methods // /** * Retrieve the initial set of grammars for the validator to work with. * REVISIT: does this need to be synchronized since it's just reading? * * @param grammarType Type of the grammars to be retrieved. * @return The initial grammar set the validator may place in its "bucket" */ public Grammar [] retrieveInitialGrammarSet(String grammarType ) { Grammar [] grammars = super.retrieveInitialGrammarSet(grammarType); if (grammars != null) return grammars; return fGrammarPool.retrieveInitialGrammarSet(grammarType); } // retrieveInitialGrammarSet(String): Grammar[] /** * Retrieve a particular grammar. * REVISIT: does this need to be synchronized since it's just reading? * * @param gDesc Description of the grammar to be retrieved * @return Grammar corresponding to gDesc, or null if none exists. */ public Grammar retrieveGrammar(XMLGrammarDescription gDesc) { Grammar g = super.retrieveGrammar(gDesc); if(g != null) return g; return fGrammarPool.retrieveGrammar(gDesc); } // retrieveGrammar(XMLGrammarDesc): Grammar /** * Give the grammarPool the option of caching these grammars. * This certainly must be synchronized. * * @param grammarType The type of the grammars to be cached. * @param grammars The Grammars that may be cached (unordered, Grammars previously * given to the validator may be included). */ public void cacheGrammars(String grammarType, Grammar[] grammars) { // better give both grammars a shot... super.cacheGrammars(grammarType, grammars); fGrammarPool.cacheGrammars(grammarType, grammars); } // cacheGrammars(grammarType, Grammar[]); /** * Returns the grammar associated to the specified description. * * @param desc The description of the grammar. */ public Grammar getGrammar(XMLGrammarDescription desc) { if (super.containsGrammar(desc)) { return super.getGrammar(desc); } return null; } // getGrammar(XMLGrammarDescription):Grammar /** * Returns true if the grammar pool contains a grammar associated * to the specified description. * * @param desc The description of the grammar. */ public boolean containsGrammar(XMLGrammarDescription desc) { return super.containsGrammar(desc); } // containsGrammar(XMLGrammarDescription):boolean } // class ShadowedGrammarPool } // class CachingParserPool





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