/*
* Copyright (c) 2007-2012, Oracle and/or its affiliates. All rights reserved.
* ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*/
/*
* Copyright 2001-2004 The Apache Software Foundation.
*
* Licensed 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: MultiDOM.java,v 1.5 2005/09/28 13:48:36 pvedula Exp $
*/
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.xml.internal.serializer.SerializationHandler;
import com.sun.org.apache.xalan.internal.xsltc.TransletException;
import com.sun.org.apache.xalan.internal.xsltc.runtime.BasisLibrary;
import com.sun.org.apache.xalan.internal.xsltc.runtime.Hashtable;
import com.sun.org.apache.xml.internal.dtm.DTM;
import com.sun.org.apache.xml.internal.dtm.Axis;
import com.sun.org.apache.xml.internal.dtm.DTMAxisIterator;
import com.sun.org.apache.xml.internal.dtm.DTMManager;
import com.sun.org.apache.xml.internal.dtm.ref.DTMAxisIteratorBase;
import com.sun.org.apache.xml.internal.dtm.ref.DTMDefaultBase;
import com.sun.org.apache.xml.internal.utils.SuballocatedIntVector;
import org.w3c.dom.Node;
import org.w3c.dom.NodeList;
/**
* @author Jacek Ambroziak
* @author Morten Jorgensen
* @author Erwin Bolwidt <ejb@klomp.org>
*/
public final class MultiDOM implements DOM {
private static final int NO_TYPE = DOM.FIRST_TYPE - 2;
private static final int INITIAL_SIZE = 4;
private DOM[] _adapters;
private DOMAdapter _main;
private DTMManager _dtmManager;
private int _free;
private int _size;
private Hashtable _documents = new Hashtable();
private final class AxisIterator extends DTMAxisIteratorBase {
// constitutive data
private final int _axis;
private final int _type;
// implementation mechanism
private DTMAxisIterator _source;
private int _dtmId = -1;
public AxisIterator(final int axis, final int type) {
_axis = axis;
_type = type;
}
public int next() {
if (_source == null) {
return(END);
}
return _source.next();
}
public void setRestartable(boolean flag) {
if (_source != null) {
_source.setRestartable(flag);
}
}
public DTMAxisIterator setStartNode(final int node) {
if (node == DTM.NULL) {
return this;
}
int dom = node >>> DTMManager.IDENT_DTM_NODE_BITS;
// Get a new source first time and when mask changes
if (_source == null || _dtmId != dom) {
if (_type == NO_TYPE) {
_source = _adapters[dom].getAxisIterator(_axis);
} else if (_axis == Axis.CHILD) {
_source = _adapters[dom].getTypedChildren(_type);
} else {
_source = _adapters[dom].getTypedAxisIterator(_axis, _type);
}
}
_dtmId = dom;
_source.setStartNode(node);
return this;
}
public DTMAxisIterator reset() {
if (_source != null) {
_source.reset();
}
return this;
}
public int getLast() {
if (_source != null) {
return _source.getLast();
}
else {
return END;
}
}
public int getPosition() {
if (_source != null) {
return _source.getPosition();
}
else {
return END;
}
}
public boolean isReverse() {
return Axis.isReverse(_axis);
}
public void setMark() {
if (_source != null) {
_source.setMark();
}
}
public void gotoMark() {
if (_source != null) {
_source.gotoMark();
}
}
public DTMAxisIterator cloneIterator() {
final AxisIterator clone = new AxisIterator(_axis, _type);
if (_source != null) {
clone._source = _source.cloneIterator();
}
clone._dtmId = _dtmId;
return clone;
}
} // end of AxisIterator
/**************************************************************
* This is a specialised iterator for predicates comparing node or
* attribute values to variable or parameter values.
*/
private final class NodeValueIterator extends DTMAxisIteratorBase {
private DTMAxisIterator _source;
private String _value;
private boolean _op;
private final boolean _isReverse;
private int _returnType = RETURN_PARENT;
public NodeValueIterator(DTMAxisIterator source, int returnType,
String value, boolean op) {
_source = source;
_returnType = returnType;
_value = value;
_op = op;
_isReverse = source.isReverse();
}
public boolean isReverse() {
return _isReverse;
}
public DTMAxisIterator cloneIterator() {
try {
NodeValueIterator clone = (NodeValueIterator)super.clone();
clone._source = _source.cloneIterator();
clone.setRestartable(false);
return clone.reset();
}
catch (CloneNotSupportedException e) {
BasisLibrary.runTimeError(BasisLibrary.ITERATOR_CLONE_ERR,
e.toString());
return null;
}
}
public void setRestartable(boolean isRestartable) {
_isRestartable = isRestartable;
_source.setRestartable(isRestartable);
}
public DTMAxisIterator reset() {
_source.reset();
return resetPosition();
}
public int next() {
int node;
while ((node = _source.next()) != END) {
String val = getStringValueX(node);
if (_value.equals(val) == _op) {
if (_returnType == RETURN_CURRENT)
return returnNode(node);
else
return returnNode(getParent(node));
}
}
return END;
}
public DTMAxisIterator setStartNode(int node) {
if (_isRestartable) {
_source.setStartNode(_startNode = node);
return resetPosition();
}
return this;
}
public void setMark() {
_source.setMark();
}
public void gotoMark() {
_source.gotoMark();
}
}
public MultiDOM(DOM main) {
_size = INITIAL_SIZE;
_free = 1;
_adapters = new DOM[INITIAL_SIZE];
DOMAdapter adapter = (DOMAdapter)main;
_adapters[0] = adapter;
_main = adapter;
DOM dom = adapter.getDOMImpl();
if (dom instanceof DTMDefaultBase) {
_dtmManager = ((DTMDefaultBase)dom).getManager();
}
// %HZ% %REVISIT% Is this the right thing to do here? In the old
// %HZ% %REVISIT% version, the main document did not get added through
// %HZ% %REVISIT% a call to addDOMAdapter, which meant it couldn't be
// %HZ% %REVISIT% found by a call to getDocumentMask. The problem is
// %HZ% %REVISIT% TransformerHandler is typically constructed with a
// %HZ% %REVISIT% system ID equal to the stylesheet's URI; with SAX
// %HZ% %REVISIT% input, it ends up giving that URI to the document.
// %HZ% %REVISIT% Then, any references to document('') are resolved
// %HZ% %REVISIT% using the stylesheet's URI.
// %HZ% %REVISIT% MultiDOM.getDocumentMask is called to verify that
// %HZ% %REVISIT% a document associated with that URI has not been
// %HZ% %REVISIT% encountered, and that method ends up returning the
// %HZ% %REVISIT% mask of the main document, when what we really what
// %HZ% %REVISIT% is to read the stylesheet itself!
addDOMAdapter(adapter, false);
}
public int nextMask() {
return _free;
}
public void setupMapping(String[] names, String[] uris, int[] types, String[] namespaces) {
// This method only has a function in DOM adapters
}
public int addDOMAdapter(DOMAdapter adapter) {
return addDOMAdapter(adapter, true);
}
private int addDOMAdapter(DOMAdapter adapter, boolean indexByURI) {
// Add the DOM adapter to the array of DOMs
DOM dom = adapter.getDOMImpl();
int domNo = 1;
int dtmSize = 1;
SuballocatedIntVector dtmIds = null;
if (dom instanceof DTMDefaultBase) {
DTMDefaultBase dtmdb = (DTMDefaultBase)dom;
dtmIds = dtmdb.getDTMIDs();
dtmSize = dtmIds.size();
domNo = dtmIds.elementAt(dtmSize-1) >>> DTMManager.IDENT_DTM_NODE_BITS;
}
else if (dom instanceof SimpleResultTreeImpl) {
SimpleResultTreeImpl simpleRTF = (SimpleResultTreeImpl)dom;
domNo = simpleRTF.getDocument() >>> DTMManager.IDENT_DTM_NODE_BITS;
}
if (domNo >= _size) {
int oldSize = _size;
do {
_size *= 2;
} while (_size <= domNo);
final DOMAdapter[] newArray = new DOMAdapter[_size];
System.arraycopy(_adapters, 0, newArray, 0, oldSize);
_adapters = newArray;
}
_free = domNo + 1;
if (dtmSize == 1) {
_adapters[domNo] = adapter;
}
else if (dtmIds != null) {
int domPos = 0;
for (int i = dtmSize - 1; i >= 0; i--) {
domPos = dtmIds.elementAt(i) >>> DTMManager.IDENT_DTM_NODE_BITS;
_adapters[domPos] = adapter;
}
domNo = domPos;
}
// Store reference to document (URI) in hashtable
if (indexByURI) {
String uri = adapter.getDocumentURI(0);
_documents.put(uri, new Integer(domNo));
}
// If the dom is an AdaptiveResultTreeImpl, we need to create a
// DOMAdapter around its nested dom object (if it is non-null) and
// add the DOMAdapter to the list.
if (dom instanceof AdaptiveResultTreeImpl) {
AdaptiveResultTreeImpl adaptiveRTF = (AdaptiveResultTreeImpl)dom;
DOM nestedDom = adaptiveRTF.getNestedDOM();
if (nestedDom != null) {
DOMAdapter newAdapter = new DOMAdapter(nestedDom,
adapter.getNamesArray(),
adapter.getUrisArray(),
adapter.getTypesArray(),
adapter.getNamespaceArray());
addDOMAdapter(newAdapter);
}
}
return domNo;
}
public int getDocumentMask(String uri) {
Integer domIdx = (Integer)_documents.get(uri);
if (domIdx == null) {
return(-1);
} else {
return domIdx.intValue();
}
}
public DOM getDOMAdapter(String uri) {
Integer domIdx = (Integer)_documents.get(uri);
if (domIdx == null) {
return(null);
} else {
return(_adapters[domIdx.intValue()]);
}
}
public int getDocument()
{
return _main.getDocument();
}
public DTMManager getDTMManager() {
return _dtmManager;
}
/**
* Returns singleton iterator containing the document root
*/
public DTMAxisIterator getIterator() {
// main source document @ 0
return _main.getIterator();
}
public String getStringValue() {
return _main.getStringValue();
}
public DTMAxisIterator getChildren(final int node) {
return _adapters[getDTMId(node)].getChildren(node);
}
public DTMAxisIterator getTypedChildren(final int type) {
return new AxisIterator(Axis.CHILD, type);
}
public DTMAxisIterator getAxisIterator(final int axis) {
return new AxisIterator(axis, NO_TYPE);
}
public DTMAxisIterator getTypedAxisIterator(final int axis, final int type)
{
return new AxisIterator(axis, type);
}
public DTMAxisIterator getNthDescendant(int node, int n,
boolean includeself)
{
return _adapters[getDTMId(node)].getNthDescendant(node, n, includeself);
}
public DTMAxisIterator getNodeValueIterator(DTMAxisIterator iterator,
int type, String value,
boolean op)
{
return(new NodeValueIterator(iterator, type, value, op));
}
public DTMAxisIterator getNamespaceAxisIterator(final int axis,
final int ns)
{
DTMAxisIterator iterator = _main.getNamespaceAxisIterator(axis, ns);
return(iterator);
}
public DTMAxisIterator orderNodes(DTMAxisIterator source, int node) {
return _adapters[getDTMId(node)].orderNodes(source, node);
}
public int getExpandedTypeID(final int node) {
if (node != DTM.NULL) {
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getExpandedTypeID(node);
}
else {
return DTM.NULL;
}
}
public int getNamespaceType(final int node) {
return _adapters[getDTMId(node)].getNamespaceType(node);
}
public int getNSType(int node)
{
return _adapters[getDTMId(node)].getNSType(node);
}
public int getParent(final int node) {
if (node == DTM.NULL) {
return DTM.NULL;
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getParent(node);
}
public int getAttributeNode(final int type, final int el) {
if (el == DTM.NULL) {
return DTM.NULL;
}
return _adapters[el >>> DTMManager.IDENT_DTM_NODE_BITS].getAttributeNode(type, el);
}
public String getNodeName(final int node) {
if (node == DTM.NULL) {
return "";
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getNodeName(node);
}
public String getNodeNameX(final int node) {
if (node == DTM.NULL) {
return "";
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getNodeNameX(node);
}
public String getNamespaceName(final int node) {
if (node == DTM.NULL) {
return "";
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getNamespaceName(node);
}
public String getStringValueX(final int node) {
if (node == DTM.NULL) {
return "";
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getStringValueX(node);
}
public void copy(final int node, SerializationHandler handler)
throws TransletException
{
if (node != DTM.NULL) {
_adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].copy(node, handler);
}
}
public void copy(DTMAxisIterator nodes, SerializationHandler handler)
throws TransletException
{
int node;
while ((node = nodes.next()) != DTM.NULL) {
_adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].copy(node, handler);
}
}
public String shallowCopy(final int node, SerializationHandler handler)
throws TransletException
{
if (node == DTM.NULL) {
return "";
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].shallowCopy(node, handler);
}
public boolean lessThan(final int node1, final int node2) {
if (node1 == DTM.NULL) {
return true;
}
if (node2 == DTM.NULL) {
return false;
}
final int dom1 = getDTMId(node1);
final int dom2 = getDTMId(node2);
return dom1 == dom2 ? _adapters[dom1].lessThan(node1, node2)
: dom1 < dom2;
}
public void characters(final int textNode, SerializationHandler handler)
throws TransletException
{
if (textNode != DTM.NULL) {
_adapters[textNode >>> DTMManager.IDENT_DTM_NODE_BITS].characters(textNode, handler);
}
}
public void setFilter(StripFilter filter) {
for (int dom=0; dom<_free; dom++) {
if (_adapters[dom] != null) {
_adapters[dom].setFilter(filter);
}
}
}
public Node makeNode(int index) {
if (index == DTM.NULL) {
return null;
}
return _adapters[getDTMId(index)].makeNode(index);
}
public Node makeNode(DTMAxisIterator iter) {
// TODO: gather nodes from all DOMs ?
return _main.makeNode(iter);
}
public NodeList makeNodeList(int index) {
if (index == DTM.NULL) {
return null;
}
return _adapters[getDTMId(index)].makeNodeList(index);
}
public NodeList makeNodeList(DTMAxisIterator iter) {
// TODO: gather nodes from all DOMs ?
return _main.makeNodeList(iter);
}
public String getLanguage(int node) {
return _adapters[getDTMId(node)].getLanguage(node);
}
public int getSize() {
int size = 0;
for (int i=0; i<_size; i++) {
size += _adapters[i].getSize();
}
return(size);
}
public String getDocumentURI(int node) {
if (node == DTM.NULL) {
node = DOM.NULL;
}
return _adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].getDocumentURI(0);
}
public boolean isElement(final int node) {
if (node == DTM.NULL) {
return false;
}
return(_adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].isElement(node));
}
public boolean isAttribute(final int node) {
if (node == DTM.NULL) {
return false;
}
return(_adapters[node >>> DTMManager.IDENT_DTM_NODE_BITS].isAttribute(node));
}
public int getDTMId(int nodeHandle)
{
if (nodeHandle == DTM.NULL)
return 0;
int id = nodeHandle >>> DTMManager.IDENT_DTM_NODE_BITS;
while (id >= 2 && _adapters[id] == _adapters[id-1]) {
id--;
}
return id;
}
public DOM getDTM(int nodeHandle) {
return _adapters[getDTMId(nodeHandle)];
}
public int getNodeIdent(int nodeHandle)
{
return _adapters[nodeHandle >>> DTMManager.IDENT_DTM_NODE_BITS].getNodeIdent(nodeHandle);
}
public int getNodeHandle(int nodeId)
{
return _main.getNodeHandle(nodeId);
}
public DOM getResultTreeFrag(int initSize, int rtfType)
{
return _main.getResultTreeFrag(initSize, rtfType);
}
public DOM getResultTreeFrag(int initSize, int rtfType, boolean addToManager)
{
return _main.getResultTreeFrag(initSize, rtfType, addToManager);
}
public DOM getMain()
{
return _main;
}
/**
* Returns a DOMBuilder class wrapped in a SAX adapter.
*/
public SerializationHandler getOutputDomBuilder()
{
return _main.getOutputDomBuilder();
}
public String lookupNamespace(int node, String prefix)
throws TransletException
{
return _main.lookupNamespace(node, prefix);
}
// %HZ% Does this method make any sense here???
public String getUnparsedEntityURI(String entity) {
return _main.getUnparsedEntityURI(entity);
}
// %HZ% Does this method make any sense here???
public Hashtable getElementsWithIDs() {
return _main.getElementsWithIDs();
}
}