Categories:
Audio (13)
Biotech (29)
Bytecode (36)
Database (77)
Framework (7)
Game (7)
General (507)
Graphics (53)
I/O (35)
IDE (2)
JAR Tools (101)
JavaBeans (21)
JDBC (121)
JDK (426)
JSP (20)
Logging (108)
Mail (58)
Messaging (8)
Network (84)
PDF (97)
Report (7)
Scripting (84)
Security (32)
Server (121)
Servlet (26)
SOAP (24)
Testing (54)
Web (15)
XML (309)
Collections:
Other Resources:
JDK 17 java.xml.jmod - XML Module
JDK 17 java.xml.jmod is the JMOD file for JDK 17 XML (eXtensible Markup Language) module.
JDK 17 XML module compiled class files are stored in \fyicenter\jdk-17.0.5\jmods\java.xml.jmod.
JDK 17 XML module compiled class files are also linked and stored in the \fyicenter\jdk-17.0.5\lib\modules JImage file.
JDK 17 XML module source code files are stored in \fyicenter\jdk-17.0.5\lib\src.zip\java.xml.
You can click and view the content of each source code file in the list below.
✍: FYIcenter
⏎ com/sun/org/apache/xalan/internal/xsltc/dom/AdaptiveResultTreeImpl.java
/* * Copyright (c) 2015, 2016, Oracle and/or its affiliates. All rights reserved. */ /* * 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. */ package com.sun.org.apache.xalan.internal.xsltc.dom; import com.sun.org.apache.xalan.internal.xsltc.DOM; import com.sun.org.apache.xalan.internal.xsltc.StripFilter; import com.sun.org.apache.xalan.internal.xsltc.TransletException; import com.sun.org.apache.xalan.internal.xsltc.runtime.BasisLibrary; import com.sun.org.apache.xml.internal.dtm.DTMAxisIterator; import com.sun.org.apache.xml.internal.dtm.DTMAxisTraverser; import com.sun.org.apache.xml.internal.dtm.DTMWSFilter; import com.sun.org.apache.xml.internal.serializer.SerializationHandler; import com.sun.org.apache.xml.internal.utils.XMLString; import java.util.Map; import javax.xml.transform.SourceLocator; import org.w3c.dom.Node; import org.w3c.dom.NodeList; import org.xml.sax.Attributes; import org.xml.sax.SAXException; import org.xml.sax.helpers.AttributesImpl; /** * AdaptiveResultTreeImpl is a adaptive DOM model for result tree fragments (RTF). It is * used in the case where the RTF is likely to be pure text yet it can still be a DOM tree. * It is designed for RTFs which have <xsl:call-template> or <xsl:apply-templates> in * the contents. Example: * <pre> * <xsl:variable name = "x"> * <xsl:call-template name = "test"> * <xsl:with-param name="a" select="."/> * </xsl:call-template> * </xsl:variable> * </pre> * <p>In this example the result produced by <xsl:call-template> is likely to be a single * Text node. But it can also be a DOM tree. This kind of RTF cannot be modelled by * SimpleResultTreeImpl. * <p> * AdaptiveResultTreeImpl can be considered as a smart switcher between SimpleResultTreeImpl * and SAXImpl. It treats the RTF as simple Text and uses the SimpleResultTreeImpl model * at the beginning. However, if it receives a call which indicates that this is a DOM tree * (e.g. startElement), it will automatically transform itself into a wrapper around a * SAXImpl. In this way we can have a light-weight model when the result only contains * simple text, while at the same time it still works when the RTF is a DOM tree. * <p> * All methods in this class are overridden to delegate the action to the wrapped SAXImpl object * if it is non-null, or delegate the action to the SimpleResultTreeImpl if there is no * wrapped SAXImpl. * <p> * %REVISIT% Can we combine this class with SimpleResultTreeImpl? I think it is possible, but * it will make SimpleResultTreeImpl more expensive. I will use two separate classes at * this time. */ public class AdaptiveResultTreeImpl extends SimpleResultTreeImpl { // Document URI index, which increases by 1 at each getDocumentURI() call. private static int _documentURIIndex = 0; private static final String EMPTY_STRING = "".intern(); // The SAXImpl object wrapped by this class, if the RTF is a tree. private SAXImpl _dom; /** The following fields are only used for the nested SAXImpl **/ // The whitespace filter private DTMWSFilter _wsfilter; // The size of the RTF private int _initSize; // True if we want to build the ID index table private boolean _buildIdIndex; // The AttributeList private final AttributesImpl _attributes = new AttributesImpl(); // The element name private String _openElementName; // Create a AdaptiveResultTreeImpl public AdaptiveResultTreeImpl(XSLTCDTMManager dtmManager, int documentID, DTMWSFilter wsfilter, int initSize, boolean buildIdIndex) { super(dtmManager, documentID); _wsfilter = wsfilter; _initSize = initSize; _buildIdIndex = buildIdIndex; } // Return the DOM object wrapped in this object. public DOM getNestedDOM() { return _dom; } // Return the document ID public int getDocument() { if (_dom != null) { return _dom.getDocument(); } else { return super.getDocument(); } } // Return the String value of the RTF public String getStringValue() { if (_dom != null) { return _dom.getStringValue(); } else { return super.getStringValue(); } } public DTMAxisIterator getIterator() { if (_dom != null) { return _dom.getIterator(); } else { return super.getIterator(); } } public DTMAxisIterator getChildren(final int node) { if (_dom != null) { return _dom.getChildren(node); } else { return super.getChildren(node); } } public DTMAxisIterator getTypedChildren(final int type) { if (_dom != null) { return _dom.getTypedChildren(type); } else { return super.getTypedChildren(type); } } public DTMAxisIterator getAxisIterator(final int axis) { if (_dom != null) { return _dom.getAxisIterator(axis); } else { return super.getAxisIterator(axis); } } public DTMAxisIterator getTypedAxisIterator(final int axis, final int type) { if (_dom != null) { return _dom.getTypedAxisIterator(axis, type); } else { return super.getTypedAxisIterator(axis, type); } } public DTMAxisIterator getNthDescendant(int node, int n, boolean includeself) { if (_dom != null) { return _dom.getNthDescendant(node, n, includeself); } else { return super.getNthDescendant(node, n, includeself); } } public DTMAxisIterator getNamespaceAxisIterator(final int axis, final int ns) { if (_dom != null) { return _dom.getNamespaceAxisIterator(axis, ns); } else { return super.getNamespaceAxisIterator(axis, ns); } } public DTMAxisIterator getNodeValueIterator(DTMAxisIterator iter, int returnType, String value, boolean op) { if (_dom != null) { return _dom.getNodeValueIterator(iter, returnType, value, op); } else { return super.getNodeValueIterator(iter, returnType, value, op); } } public DTMAxisIterator orderNodes(DTMAxisIterator source, int node) { if (_dom != null) { return _dom.orderNodes(source, node); } else { return super.orderNodes(source, node); } } public String getNodeName(final int node) { if (_dom != null) { return _dom.getNodeName(node); } else { return super.getNodeName(node); } } public String getNodeNameX(final int node) { if (_dom != null) { return _dom.getNodeNameX(node); } else { return super.getNodeNameX(node); } } public String getNamespaceName(final int node) { if (_dom != null) { return _dom.getNamespaceName(node); } else { return super.getNamespaceName(node); } } // Return the expanded type id of a given node public int getExpandedTypeID(final int nodeHandle) { if (_dom != null) { return _dom.getExpandedTypeID(nodeHandle); } else { return super.getExpandedTypeID(nodeHandle); } } public int getNamespaceType(final int node) { if (_dom != null) { return _dom.getNamespaceType(node); } else { return super.getNamespaceType(node); } } public int getParent(final int nodeHandle) { if (_dom != null) { return _dom.getParent(nodeHandle); } else { return super.getParent(nodeHandle); } } public int getAttributeNode(final int gType, final int element) { if (_dom != null) { return _dom.getAttributeNode(gType, element); } else { return super.getAttributeNode(gType, element); } } public String getStringValueX(final int nodeHandle) { if (_dom != null) { return _dom.getStringValueX(nodeHandle); } else { return super.getStringValueX(nodeHandle); } } public void copy(final int node, SerializationHandler handler) throws TransletException { if (_dom != null) { _dom.copy(node, handler); } else { super.copy(node, handler); } } public void copy(DTMAxisIterator nodes, SerializationHandler handler) throws TransletException { if (_dom != null) { _dom.copy(nodes, handler); } else { super.copy(nodes, handler); } } public String shallowCopy(final int node, SerializationHandler handler) throws TransletException { if (_dom != null) { return _dom.shallowCopy(node, handler); } else { return super.shallowCopy(node, handler); } } public boolean lessThan(final int node1, final int node2) { if (_dom != null) { return _dom.lessThan(node1, node2); } else { return super.lessThan(node1, node2); } } /** * Dispatch the character content of a node to an output handler. * * The escape setting should be taken care of when outputting to * a handler. */ public void characters(final int node, SerializationHandler handler) throws TransletException { if (_dom != null) { _dom.characters(node, handler); } else { super.characters(node, handler); } } public Node makeNode(int index) { if (_dom != null) { return _dom.makeNode(index); } else { return super.makeNode(index); } } public Node makeNode(DTMAxisIterator iter) { if (_dom != null) { return _dom.makeNode(iter); } else { return super.makeNode(iter); } } public NodeList makeNodeList(int index) { if (_dom != null) { return _dom.makeNodeList(index); } else { return super.makeNodeList(index); } } public NodeList makeNodeList(DTMAxisIterator iter) { if (_dom != null) { return _dom.makeNodeList(iter); } else { return super.makeNodeList(iter); } } public String getLanguage(int node) { if (_dom != null) { return _dom.getLanguage(node); } else { return super.getLanguage(node); } } public int getSize() { if (_dom != null) { return _dom.getSize(); } else { return super.getSize(); } } public String getDocumentURI(int node) { if (_dom != null) { return _dom.getDocumentURI(node); } else { return "adaptive_rtf" + _documentURIIndex++; } } public void setFilter(StripFilter filter) { if (_dom != null) { _dom.setFilter(filter); } else { super.setFilter(filter); } } public void setupMapping(String[] names, String[] uris, int[] types, String[] namespaces) { if (_dom != null) { _dom.setupMapping(names, uris, types, namespaces); } else { super.setupMapping(names, uris, types, namespaces); } } public boolean isElement(final int node) { if (_dom != null) { return _dom.isElement(node); } else { return super.isElement(node); } } public boolean isAttribute(final int node) { if (_dom != null) { return _dom.isAttribute(node); } else { return super.isAttribute(node); } } public String lookupNamespace(int node, String prefix) throws TransletException { if (_dom != null) { return _dom.lookupNamespace(node, prefix); } else { return super.lookupNamespace(node, prefix); } } /** * Return the node identity from a node handle. */ public final int getNodeIdent(final int nodehandle) { if (_dom != null) { return _dom.getNodeIdent(nodehandle); } else { return super.getNodeIdent(nodehandle); } } /** * Return the node handle from a node identity. */ public final int getNodeHandle(final int nodeId) { if (_dom != null) { return _dom.getNodeHandle(nodeId); } else { return super.getNodeHandle(nodeId); } } public DOM getResultTreeFrag(int initialSize, int rtfType) { if (_dom != null) { return _dom.getResultTreeFrag(initialSize, rtfType); } else { return super.getResultTreeFrag(initialSize, rtfType); } } public SerializationHandler getOutputDomBuilder() { return this; } public int getNSType(int node) { if (_dom != null) { return _dom.getNSType(node); } else { return super.getNSType(node); } } public String getUnparsedEntityURI(String name) { if (_dom != null) { return _dom.getUnparsedEntityURI(name); } else { return super.getUnparsedEntityURI(name); } } public Map<String, Integer> getElementsWithIDs() { if (_dom != null) { return _dom.getElementsWithIDs(); } else { return super.getElementsWithIDs(); } } /** Implementation of the SerializationHandler interfaces **/ /** The code in some of the following interfaces are copied from SAXAdapter. **/ private void maybeEmitStartElement() throws SAXException { if (_openElementName != null) { int index; if ((index =_openElementName.indexOf(':')) < 0) _dom.startElement(null, _openElementName, _openElementName, _attributes); else { String uri =_dom.getNamespaceURI(_openElementName.substring(0,index)); _dom.startElement(uri, _openElementName.substring(index+1), _openElementName, _attributes); } _openElementName = null; } } // Create and initialize the wrapped SAXImpl object private void prepareNewDOM() throws SAXException { _dom = (SAXImpl)_dtmManager.getDTM(null, true, _wsfilter, true, false, false, _initSize, _buildIdIndex); _dom.startDocument(); // Flush pending Text nodes to SAXImpl for (int i = 0; i < _size; i++) { String str = _textArray[i]; _dom.characters(str.toCharArray(), 0, str.length()); } _size = 0; } public void startDocument() throws SAXException { } public void endDocument() throws SAXException { if (_dom != null) { _dom.endDocument(); } else { super.endDocument(); } } public void characters(String str) throws SAXException { if (_dom != null) { characters(str.toCharArray(), 0, str.length()); } else { super.characters(str); } } public void characters(char[] ch, int offset, int length) throws SAXException { if (_dom != null) { maybeEmitStartElement(); _dom.characters(ch, offset, length); } else { super.characters(ch, offset, length); } } public boolean setEscaping(boolean escape) throws SAXException { if (_dom != null) { return _dom.setEscaping(escape); } else { return super.setEscaping(escape); } } public void startElement(String elementName) throws SAXException { if (_dom == null) { prepareNewDOM(); } maybeEmitStartElement(); _openElementName = elementName; _attributes.clear(); } public void startElement(String uri, String localName, String qName) throws SAXException { startElement(qName); } public void startElement(String uri, String localName, String qName, Attributes attributes) throws SAXException { startElement(qName); } public void endElement(String elementName) throws SAXException { maybeEmitStartElement(); _dom.endElement(null, null, elementName); } public void endElement(String uri, String localName, String qName) throws SAXException { endElement(qName); } public void addAttribute(String qName, String value) { // "prefix:localpart" or "localpart" int colonpos = qName.indexOf(':'); String uri = EMPTY_STRING; String localName = qName; if (colonpos >0) { String prefix = qName.substring(0, colonpos); localName = qName.substring(colonpos+1); uri = _dom.getNamespaceURI(prefix); } addAttribute(uri, localName, qName, "CDATA", value); } public void addUniqueAttribute(String qName, String value, int flags) throws SAXException { addAttribute(qName, value); } public void addAttribute(String uri, String localName, String qname, String type, String value) { if (_openElementName != null) { _attributes.addAttribute(uri, localName, qname, type, value); } else { BasisLibrary.runTimeError(BasisLibrary.STRAY_ATTRIBUTE_ERR, qname); } } public void namespaceAfterStartElement(String prefix, String uri) throws SAXException { if (_dom == null) { prepareNewDOM(); } _dom.startPrefixMapping(prefix, uri); } public void comment(String comment) throws SAXException { if (_dom == null) { prepareNewDOM(); } maybeEmitStartElement(); char[] chars = comment.toCharArray(); _dom.comment(chars, 0, chars.length); } public void comment(char[] chars, int offset, int length) throws SAXException { if (_dom == null) { prepareNewDOM(); } maybeEmitStartElement(); _dom.comment(chars, offset, length); } public void processingInstruction(String target, String data) throws SAXException { if (_dom == null) { prepareNewDOM(); } maybeEmitStartElement(); _dom.processingInstruction(target, data); } /** Implementation of the DTM interfaces **/ public void setFeature(String featureId, boolean state) { if (_dom != null) { _dom.setFeature(featureId, state); } } public void setProperty(String property, Object value) { if (_dom != null) { _dom.setProperty(property, value); } } public DTMAxisTraverser getAxisTraverser(final int axis) { if (_dom != null) { return _dom.getAxisTraverser(axis); } else { return super.getAxisTraverser(axis); } } public boolean hasChildNodes(int nodeHandle) { if (_dom != null) { return _dom.hasChildNodes(nodeHandle); } else { return super.hasChildNodes(nodeHandle); } } public int getFirstChild(int nodeHandle) { if (_dom != null) { return _dom.getFirstChild(nodeHandle); } else { return super.getFirstChild(nodeHandle); } } public int getLastChild(int nodeHandle) { if (_dom != null) { return _dom.getLastChild(nodeHandle); } else { return super.getLastChild(nodeHandle); } } public int getAttributeNode(int elementHandle, String namespaceURI, String name) { if (_dom != null) { return _dom.getAttributeNode(elementHandle, namespaceURI, name); } else { return super.getAttributeNode(elementHandle, namespaceURI, name); } } public int getFirstAttribute(int nodeHandle) { if (_dom != null) { return _dom.getFirstAttribute(nodeHandle); } else { return super.getFirstAttribute(nodeHandle); } } public int getFirstNamespaceNode(int nodeHandle, boolean inScope) { if (_dom != null) { return _dom.getFirstNamespaceNode(nodeHandle, inScope); } else { return super.getFirstNamespaceNode(nodeHandle, inScope); } } public int getNextSibling(int nodeHandle) { if (_dom != null) { return _dom.getNextSibling(nodeHandle); } else { return super.getNextSibling(nodeHandle); } } public int getPreviousSibling(int nodeHandle) { if (_dom != null) { return _dom.getPreviousSibling(nodeHandle); } else { return super.getPreviousSibling(nodeHandle); } } public int getNextAttribute(int nodeHandle) { if (_dom != null) { return _dom.getNextAttribute(nodeHandle); } else { return super.getNextAttribute(nodeHandle); } } public int getNextNamespaceNode(int baseHandle, int namespaceHandle, boolean inScope) { if (_dom != null) { return _dom.getNextNamespaceNode(baseHandle, namespaceHandle, inScope); } else { return super.getNextNamespaceNode(baseHandle, namespaceHandle, inScope); } } public int getOwnerDocument(int nodeHandle) { if (_dom != null) { return _dom.getOwnerDocument(nodeHandle); } else { return super.getOwnerDocument(nodeHandle); } } public int getDocumentRoot(int nodeHandle) { if (_dom != null) { return _dom.getDocumentRoot(nodeHandle); } else { return super.getDocumentRoot(nodeHandle); } } public XMLString getStringValue(int nodeHandle) { if (_dom != null) { return _dom.getStringValue(nodeHandle); } else { return super.getStringValue(nodeHandle); } } public int getStringValueChunkCount(int nodeHandle) { if (_dom != null) { return _dom.getStringValueChunkCount(nodeHandle); } else { return super.getStringValueChunkCount(nodeHandle); } } public char[] getStringValueChunk(int nodeHandle, int chunkIndex, int[] startAndLen) { if (_dom != null) { return _dom.getStringValueChunk(nodeHandle, chunkIndex, startAndLen); } else { return super.getStringValueChunk(nodeHandle, chunkIndex, startAndLen); } } public int getExpandedTypeID(String namespace, String localName, int type) { if (_dom != null) { return _dom.getExpandedTypeID(namespace, localName, type); } else { return super.getExpandedTypeID(namespace, localName, type); } } public String getLocalNameFromExpandedNameID(int ExpandedNameID) { if (_dom != null) { return _dom.getLocalNameFromExpandedNameID(ExpandedNameID); } else { return super.getLocalNameFromExpandedNameID(ExpandedNameID); } } public String getNamespaceFromExpandedNameID(int ExpandedNameID) { if (_dom != null) { return _dom.getNamespaceFromExpandedNameID(ExpandedNameID); } else { return super.getNamespaceFromExpandedNameID(ExpandedNameID); } } public String getLocalName(int nodeHandle) { if (_dom != null) { return _dom.getLocalName(nodeHandle); } else { return super.getLocalName(nodeHandle); } } public String getPrefix(int nodeHandle) { if (_dom != null) { return _dom.getPrefix(nodeHandle); } else { return super.getPrefix(nodeHandle); } } public String getNamespaceURI(int nodeHandle) { if (_dom != null) { return _dom.getNamespaceURI(nodeHandle); } else { return super.getNamespaceURI(nodeHandle); } } public String getNodeValue(int nodeHandle) { if (_dom != null) { return _dom.getNodeValue(nodeHandle); } else { return super.getNodeValue(nodeHandle); } } public short getNodeType(int nodeHandle) { if (_dom != null) { return _dom.getNodeType(nodeHandle); } else { return super.getNodeType(nodeHandle); } } public short getLevel(int nodeHandle) { if (_dom != null) { return _dom.getLevel(nodeHandle); } else { return super.getLevel(nodeHandle); } } public boolean isSupported(String feature, String version) { if (_dom != null) { return _dom.isSupported(feature, version); } else { return super.isSupported(feature, version); } } public String getDocumentBaseURI() { if (_dom != null) { return _dom.getDocumentBaseURI(); } else { return super.getDocumentBaseURI(); } } public void setDocumentBaseURI(String baseURI) { if (_dom != null) { _dom.setDocumentBaseURI(baseURI); } else { super.setDocumentBaseURI(baseURI); } } public String getDocumentSystemIdentifier(int nodeHandle) { if (_dom != null) { return _dom.getDocumentSystemIdentifier(nodeHandle); } else { return super.getDocumentSystemIdentifier(nodeHandle); } } public String getDocumentEncoding(int nodeHandle) { if (_dom != null) { return _dom.getDocumentEncoding(nodeHandle); } else { return super.getDocumentEncoding(nodeHandle); } } public String getDocumentStandalone(int nodeHandle) { if (_dom != null) { return _dom.getDocumentStandalone(nodeHandle); } else { return super.getDocumentStandalone(nodeHandle); } } public String getDocumentVersion(int documentHandle) { if (_dom != null) { return _dom.getDocumentVersion(documentHandle); } else { return super.getDocumentVersion(documentHandle); } } public boolean getDocumentAllDeclarationsProcessed() { if (_dom != null) { return _dom.getDocumentAllDeclarationsProcessed(); } else { return super.getDocumentAllDeclarationsProcessed(); } } public String getDocumentTypeDeclarationSystemIdentifier() { if (_dom != null) { return _dom.getDocumentTypeDeclarationSystemIdentifier(); } else { return super.getDocumentTypeDeclarationSystemIdentifier(); } } public String getDocumentTypeDeclarationPublicIdentifier() { if (_dom != null) { return _dom.getDocumentTypeDeclarationPublicIdentifier(); } else { return super.getDocumentTypeDeclarationPublicIdentifier(); } } public int getElementById(String elementId) { if (_dom != null) { return _dom.getElementById(elementId); } else { return super.getElementById(elementId); } } public boolean supportsPreStripping() { if (_dom != null) { return _dom.supportsPreStripping(); } else { return super.supportsPreStripping(); } } public boolean isNodeAfter(int firstNodeHandle, int secondNodeHandle) { if (_dom != null) { return _dom.isNodeAfter(firstNodeHandle, secondNodeHandle); } else { return super.isNodeAfter(firstNodeHandle, secondNodeHandle); } } public boolean isCharacterElementContentWhitespace(int nodeHandle) { if (_dom != null) { return _dom.isCharacterElementContentWhitespace(nodeHandle); } else { return super.isCharacterElementContentWhitespace(nodeHandle); } } public boolean isDocumentAllDeclarationsProcessed(int documentHandle) { if (_dom != null) { return _dom.isDocumentAllDeclarationsProcessed(documentHandle); } else { return super.isDocumentAllDeclarationsProcessed(documentHandle); } } public boolean isAttributeSpecified(int attributeHandle) { if (_dom != null) { return _dom.isAttributeSpecified(attributeHandle); } else { return super.isAttributeSpecified(attributeHandle); } } public void dispatchCharactersEvents(int nodeHandle, org.xml.sax.ContentHandler ch, boolean normalize) throws org.xml.sax.SAXException { if (_dom != null) { _dom.dispatchCharactersEvents(nodeHandle, ch, normalize); } else { super.dispatchCharactersEvents(nodeHandle, ch, normalize); } } public void dispatchToEvents(int nodeHandle, org.xml.sax.ContentHandler ch) throws org.xml.sax.SAXException { if (_dom != null) { _dom.dispatchToEvents(nodeHandle, ch); } else { super.dispatchToEvents(nodeHandle, ch); } } public org.w3c.dom.Node getNode(int nodeHandle) { if (_dom != null) { return _dom.getNode(nodeHandle); } else { return super.getNode(nodeHandle); } } public boolean needsTwoThreads() { if (_dom != null) { return _dom.needsTwoThreads(); } else { return super.needsTwoThreads(); } } public org.xml.sax.ContentHandler getContentHandler() { if (_dom != null) { return _dom.getContentHandler(); } else { return super.getContentHandler(); } } public org.xml.sax.ext.LexicalHandler getLexicalHandler() { if (_dom != null) { return _dom.getLexicalHandler(); } else { return super.getLexicalHandler(); } } public org.xml.sax.EntityResolver getEntityResolver() { if (_dom != null) { return _dom.getEntityResolver(); } else { return super.getEntityResolver(); } } public org.xml.sax.DTDHandler getDTDHandler() { if (_dom != null) { return _dom.getDTDHandler(); } else { return super.getDTDHandler(); } } public org.xml.sax.ErrorHandler getErrorHandler() { if (_dom != null) { return _dom.getErrorHandler(); } else { return super.getErrorHandler(); } } public org.xml.sax.ext.DeclHandler getDeclHandler() { if (_dom != null) { return _dom.getDeclHandler(); } else { return super.getDeclHandler(); } } public void appendChild(int newChild, boolean clone, boolean cloneDepth) { if (_dom != null) { _dom.appendChild(newChild, clone, cloneDepth); } else { super.appendChild(newChild, clone, cloneDepth); } } public void appendTextChild(String str) { if (_dom != null) { _dom.appendTextChild(str); } else { super.appendTextChild(str); } } public SourceLocator getSourceLocatorFor(int node) { if (_dom != null) { return _dom.getSourceLocatorFor(node); } else { return super.getSourceLocatorFor(node); } } public void documentRegistration() { if (_dom != null) { _dom.documentRegistration(); } else { super.documentRegistration(); } } public void documentRelease() { if (_dom != null) { _dom.documentRelease(); } else { super.documentRelease(); } } public void release() { if (_dom != null) { _dom.release(); _dom = null; } super.release(); } }
⏎ com/sun/org/apache/xalan/internal/xsltc/dom/AdaptiveResultTreeImpl.java
Or download all of them as a single archive file:
File name: java.xml-17.0.5-src.zip File size: 5047495 bytes Release date: 2022-09-13 Download
⇒ JDK 17 java.xml.crypto.jmod - XML Crypto Module
2023-07-17, 58365👍, 1💬
Popular Posts:
How to show the XML parsing flow with sax\DocumentTracer.java provided in the Apache Xerces package?...
JDK 11 jdk.xml.dom.jmod is the JMOD file for JDK 11 XML DOM module. JDK 11 XML DOM module compiled c...
What is the sax\Counter.java provided in the Apache Xerces package? I have Apache Xerces 2.11.0 inst...
How to download and install javamail-1_2.zip? The JavaMail API is a set of abstract APIs that model ...
Woodstox 6.4.0 Source Code Files are provided at the Woodstox GitHub Website . You can download them...