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/*
 * Copyright (c) 2005, 2018 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Distribution License v. 1.0, which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

package com.sun.xml.stream.buffer;

import com.sun.xml.stream.buffer.sax.SAXBufferProcessor;
import com.sun.xml.stream.buffer.stax.StreamReaderBufferProcessor;
import com.sun.xml.stream.buffer.stax.StreamWriterBufferProcessor;
import java.io.IOException;
import java.io.InputStream;
import java.util.Collections;
import java.util.Map;
import javax.xml.stream.XMLStreamException;
import javax.xml.stream.XMLStreamReader;
import javax.xml.stream.XMLStreamWriter;
import javax.xml.transform.TransformerFactory;
import javax.xml.transform.Transformer;
import javax.xml.transform.TransformerException;
import javax.xml.transform.dom.DOMResult;

import org.xml.sax.ContentHandler;
import org.xml.sax.DTDHandler;
import org.xml.sax.ErrorHandler;
import org.xml.sax.SAXException;
import org.xml.sax.XMLReader;
import org.xml.sax.ext.LexicalHandler;
import org.w3c.dom.Node;

/**
 * An immutable stream-based buffer of an XML infoset.
 * 
 * 

* A XMLStreamBuffer is an abstract class. It is immutable with * respect to the methods on the class, which are non-modifying in terms * of state. * *

* A XMLStreamBuffer can be processed using specific SAX and StAX-based * processors. Utility methods on XMLStreamBuffer are provided for * such functionality that utilize SAX and StAX-based processors. * The same instance of a XMLStreamBuffer may be processed * multiple times and concurrently by more than one processor. * *

* There are two concrete implementations of XMLStreamBuffer. * The first, {@link MutableXMLStreamBuffer}, can be instantiated for the creation * of a buffer using SAX and StAX-based creators, and from which may be * processed as an XMLStreamBuffer. The second, * {@link XMLStreamBufferMark}, can be instantiated to mark into an existing * buffer that is being created or processed. This allows a subtree of * {@link XMLStreamBuffer} to be treated as its own {@link XMLStreamBuffer}. * *

* A XMLStreamBuffer can represent a complete XML infoset or a subtree * of an XML infoset. It is also capable of representing a "forest", * where the buffer represents multiple adjacent XML elements, although * in this mode there are restrictions about how you can consume such * forest, because not all XML APIs handle forests very well. */ public abstract class XMLStreamBuffer { /** * In scope namespaces on a fragment */ protected Map _inscopeNamespaces = Collections.emptyMap(); /** * True if the buffer was created from a parser that interns Strings * as specified by the SAX interning features */ protected boolean _hasInternedStrings; /** * Fragmented array to hold structural information */ protected FragmentedArray _structure; protected int _structurePtr; /** * Fragmented array to hold structural information as strings */ protected FragmentedArray _structureStrings; protected int _structureStringsPtr; /** * Fragmented array to hold content information in a shared char[] */ protected FragmentedArray _contentCharactersBuffer; protected int _contentCharactersBufferPtr; /** * Fragmented array to hold content information as objects */ protected FragmentedArray _contentObjects; protected int _contentObjectsPtr; /** * Number of trees in this stream buffer. * *

* 1 if there's only one, which is the normal case. When the buffer * holds a forest, this value is greater than 1. If the buffer is empty, then 0. * *

* Notice that we cannot infer this value by looking at the {@link FragmentedArray}s, * because this {@link XMLStreamBuffer} maybe a view of a portion of another bigger * {@link XMLStreamBuffer}. */ protected int treeCount; /** * The system identifier associated with the buffer */ protected String systemId; /** * Is the buffer created by creator. * * @return * true if the buffer has been created. */ public final boolean isCreated() { return _structure.getArray()[0] != AbstractCreatorProcessor.T_END; } /** * Is the buffer a representation of a fragment of an XML infoset. * * @return * true if the buffer is a representation of a fragment * of an XML infoset. */ public final boolean isFragment() { return (isCreated() && (_structure.getArray()[_structurePtr] & AbstractCreatorProcessor.TYPE_MASK) != AbstractCreatorProcessor.T_DOCUMENT); } /** * Is the buffer a representation of a fragment of an XML infoset * that is an element (and its contents). * * @return * true if the buffer a representation * of a fragment of an XML infoset that is an element (and its contents). */ public final boolean isElementFragment() { return (isCreated() && (_structure.getArray()[_structurePtr] & AbstractCreatorProcessor.TYPE_MASK) == AbstractCreatorProcessor.T_ELEMENT); } /** * Returns ture if this buffer represents a forest, which is * are more than one adjacent XML elements. */ public final boolean isForest() { return isCreated() && treeCount>1; } /** * Get the system identifier associated with the buffer. * @return The system identifier. */ public final String getSystemId() { return systemId; } /** * Get the in-scope namespaces. * *

* * The in-scope namespaces will be empty if the buffer is not a * fragment ({@link #isFragment} returns false). * * The in-scope namespace will correspond to the in-scope namespaces of the * fragment if the buffer is a fragment ({@link #isFragment} * returns false). The in-scope namespaces will include any * namespace delcarations on an element if the fragment correspond to that * of an element ({@link #isElementFragment} returns false). * * @return * The in-scope namespaces of the XMLStreamBuffer. * Prefix to namespace URI. */ public final Map getInscopeNamespaces() { return _inscopeNamespaces; } /** * Has the buffer been created using Strings that have been interned * for certain properties of information items. The Strings that are interned * are those that correspond to Strings that are specified by the SAX API * "string-interning" property * (see here). * *

* An buffer may have been created, for example, from an XML document parsed * using the Xerces SAX parser. The Xerces SAX parser will have interned certain Strings * according to the SAX string interning property. * This method enables processors to avoid the duplication of * String interning if such a feature is required by a procesing application and the * buffer being processed was created using Strings that have been interned. * * @return * true if the buffer has been created using Strings that * have been interned. */ public final boolean hasInternedStrings() { return _hasInternedStrings; } /** * Read the contents of the buffer as a {@link XMLStreamReader}. * * @return * A an instance of a {@link StreamReaderBufferProcessor}. Always non-null. */ public final StreamReaderBufferProcessor readAsXMLStreamReader() throws XMLStreamException { return new StreamReaderBufferProcessor(this); } /** * Write the contents of the buffer to an XMLStreamWriter. * *

* The XMLStreamBuffer will be written out to the XMLStreamWriter using * an instance of {@link StreamWriterBufferProcessor}. * * @param writer * A XMLStreamWriter to write to. * @param writeAsFragment * If true, {@link XMLStreamWriter} will not receive {@link XMLStreamWriter#writeStartDocument()} * nor {@link XMLStreamWriter#writeEndDocument()}. This is desirable behavior when * you are writing the contents of a buffer into a bigger document. */ public final void writeToXMLStreamWriter(XMLStreamWriter writer, boolean writeAsFragment) throws XMLStreamException { StreamWriterBufferProcessor p = new StreamWriterBufferProcessor(this,writeAsFragment); p.process(writer); } /** * @deprecated * Use {@link #writeToXMLStreamWriter(XMLStreamWriter, boolean)} */ public final void writeToXMLStreamWriter(XMLStreamWriter writer) throws XMLStreamException { writeToXMLStreamWriter(writer, this.isFragment()); } /** * Reads the contents of the buffer from a {@link XMLReader}. * * @return * A an instance of a {@link SAXBufferProcessor}. * @deprecated * Use {@link #readAsXMLReader(boolean)} */ public final SAXBufferProcessor readAsXMLReader() { return new SAXBufferProcessor(this,isFragment()); } /** * Reads the contents of the buffer from a {@link XMLReader}. * * @param produceFragmentEvent * True to generate fragment SAX events without start/endDocument. * False to generate a full document SAX events. * @return * A an instance of a {@link SAXBufferProcessor}. */ public final SAXBufferProcessor readAsXMLReader(boolean produceFragmentEvent) { return new SAXBufferProcessor(this,produceFragmentEvent); } /** * Write the contents of the buffer to a {@link ContentHandler}. * *

* If the handler is also an instance of other SAX-based * handlers, such as {@link LexicalHandler}, than corresponding SAX events * will be reported to those handlers. * * @param handler * The ContentHandler to receive SAX events. * @param produceFragmentEvent * True to generate fragment SAX events without start/endDocument. * False to generate a full document SAX events. * * @throws SAXException * if a parsing fails, or if {@link ContentHandler} throws a {@link SAXException}. */ public final void writeTo(ContentHandler handler, boolean produceFragmentEvent) throws SAXException { SAXBufferProcessor p = readAsXMLReader(produceFragmentEvent); p.setContentHandler(handler); if (p instanceof LexicalHandler) { p.setLexicalHandler((LexicalHandler)handler); } if (p instanceof DTDHandler) { p.setDTDHandler((DTDHandler)handler); } if (p instanceof ErrorHandler) { p.setErrorHandler((ErrorHandler)handler); } p.process(); } /** * @deprecated * Use {@link #writeTo(ContentHandler,boolean)} */ public final void writeTo(ContentHandler handler) throws SAXException { writeTo(handler,isFragment()); } /** * Write the contents of the buffer to a {@link ContentHandler} with errors * report to a {@link ErrorHandler}. * *

* If the handler is also an instance of other SAX-based * handlers, such as {@link LexicalHandler}, than corresponding SAX events * will be reported to those handlers. * * @param handler * The ContentHandler to receive SAX events. * @param errorHandler * The ErrorHandler to receive error events. * * @throws SAXException * if a parsing fails and {@link ErrorHandler} throws a {@link SAXException}, * or if {@link ContentHandler} throws a {@link SAXException}. */ public final void writeTo(ContentHandler handler, ErrorHandler errorHandler, boolean produceFragmentEvent) throws SAXException { SAXBufferProcessor p = readAsXMLReader(produceFragmentEvent); p.setContentHandler(handler); if (p instanceof LexicalHandler) { p.setLexicalHandler((LexicalHandler)handler); } if (p instanceof DTDHandler) { p.setDTDHandler((DTDHandler)handler); } p.setErrorHandler(errorHandler); p.process(); } public final void writeTo(ContentHandler handler, ErrorHandler errorHandler) throws SAXException { writeTo(handler, errorHandler, isFragment()); } private static final ContextClassloaderLocal trnsformerFactory = new ContextClassloaderLocal() { @Override protected TransformerFactory initialValue() throws Exception { return TransformerFactory.newInstance(); } }; /** * Writes out the contents of this buffer as DOM node and append that to the given node. * * Faster implementation would be desirable. * * @return * The newly added child node. */ public final Node writeTo(Node n) throws XMLStreamBufferException { try { Transformer t = trnsformerFactory.get().newTransformer(); t.transform(new XMLStreamBufferSource(this), new DOMResult(n)); return n.getLastChild(); } catch (TransformerException e) { throw new XMLStreamBufferException(e); } } /** * Create a new buffer from a XMLStreamReader. * * @param reader * A XMLStreamReader to read from to create. * @return XMLStreamBuffer the created buffer * @see MutableXMLStreamBuffer#createFromXMLStreamReader(XMLStreamReader) */ public static XMLStreamBuffer createNewBufferFromXMLStreamReader(XMLStreamReader reader) throws XMLStreamException { MutableXMLStreamBuffer b = new MutableXMLStreamBuffer(); b.createFromXMLStreamReader(reader); return b; } /** * Create a new buffer from a {@link XMLReader} and {@link InputStream}. * * @param reader * The {@link XMLReader} to use for parsing. * @param in * The {@link InputStream} to be parsed. * @return XMLStreamBuffer the created buffer * @see MutableXMLStreamBuffer#createFromXMLReader(XMLReader, InputStream) */ public static XMLStreamBuffer createNewBufferFromXMLReader(XMLReader reader, InputStream in) throws SAXException, IOException { MutableXMLStreamBuffer b = new MutableXMLStreamBuffer(); b.createFromXMLReader(reader, in); return b; } /** * Create a new buffer from a {@link XMLReader} and {@link InputStream}. * * @param reader * The {@link XMLReader} to use for parsing. * @param in * The {@link InputStream} to be parsed. * @param systemId * The system ID of the input stream. * @return XMLStreamBuffer the created buffer * @see MutableXMLStreamBuffer#createFromXMLReader(XMLReader, InputStream, String) */ public static XMLStreamBuffer createNewBufferFromXMLReader(XMLReader reader, InputStream in, String systemId) throws SAXException, IOException { MutableXMLStreamBuffer b = new MutableXMLStreamBuffer(); b.createFromXMLReader(reader, in, systemId); return b; } protected final FragmentedArray getStructure() { return _structure; } protected final int getStructurePtr() { return _structurePtr; } protected final FragmentedArray getStructureStrings() { return _structureStrings; } protected final int getStructureStringsPtr() { return _structureStringsPtr; } protected final FragmentedArray getContentCharactersBuffer() { return _contentCharactersBuffer; } protected final int getContentCharactersBufferPtr() { return _contentCharactersBufferPtr; } protected final FragmentedArray getContentObjects() { return _contentObjects; } protected final int getContentObjectsPtr() { return _contentObjectsPtr; } }





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