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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
*
* 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 org.apache.xerces.dom;
import org.w3c.dom.DOMException;
import org.w3c.dom.Node;
import org.w3c.dom.traversal.NodeFilter;
import org.w3c.dom.traversal.NodeIterator;
/** DefaultNodeIterator implements a NodeIterator, which iterates a
* DOM tree in the expected depth first way.
*
* The whatToShow and filter functionality is implemented as expected.
*
*
This class also has method removeNode to enable iterator "fix-up"
* on DOM remove. It is expected that the DOM implementation call removeNode
* right before the actual DOM transformation. If not called by the DOM,
* the client could call it before doing the removal.
*
* @xerces.internal
*
* @version $Id: NodeIteratorImpl.java 447266 2006-09-18 05:57:49Z mrglavas $
*/
public class NodeIteratorImpl implements NodeIterator {
//
// Data
//
/** The DocumentImpl which created this iterator, so it can be detached. */
private DocumentImpl fDocument;
/** The root. */
private Node fRoot;
/** The whatToShow mask. */
private int fWhatToShow = NodeFilter.SHOW_ALL;
/** The NodeFilter reference. */
private NodeFilter fNodeFilter;
/** If detach is called, the fDetach flag is true, otherwise flase. */
private boolean fDetach = false;
//
// Iterator state - current node and direction.
//
// Note: The current node and direction are sufficient to implement
// the desired behaviour of the current pointer being _between_
// two nodes. The fCurrentNode is actually the last node returned,
// and the
// direction is whether the pointer is in front or behind this node.
// (usually akin to whether the node was returned via nextNode())
// (eg fForward = true) or previousNode() (eg fForward = false).
// Note also, if removing a Node, the fCurrentNode
// can be placed on a Node which would not pass filters.
/** The last Node returned. */
private Node fCurrentNode;
/** The direction of the iterator on the fCurrentNode.
*
* nextNode() == fForward = true;
* previousNode() == fForward = false;
*
*/
private boolean fForward = true;
/** When TRUE, the children of entites references are returned in the iterator. */
private boolean fEntityReferenceExpansion;
//
// Constructor
//
/** Public constructor */
public NodeIteratorImpl( DocumentImpl document,
Node root,
int whatToShow,
NodeFilter nodeFilter,
boolean entityReferenceExpansion) {
fDocument = document;
fRoot = root;
fCurrentNode = null;
fWhatToShow = whatToShow;
fNodeFilter = nodeFilter;
fEntityReferenceExpansion = entityReferenceExpansion;
}
public Node getRoot() {
return fRoot;
}
// Implementation Note: Note that the iterator looks at whatToShow
// and filter values at each call, and therefore one _could_ add
// setters for these values and alter them while iterating!
/** Return the whatToShow value */
public int getWhatToShow() {
return fWhatToShow;
}
/** Return the filter */
public NodeFilter getFilter() {
return fNodeFilter;
}
/** Return whether children entity references are included in the iterator. */
public boolean getExpandEntityReferences() {
return fEntityReferenceExpansion;
}
/** Return the next Node in the Iterator. The node is the next node in
* depth-first order which also passes the filter, and whatToShow.
* If there is no next node which passes these criteria, then return null.
*/
public Node nextNode() {
if( fDetach) {
throw new DOMException(
DOMException.INVALID_STATE_ERR,
DOMMessageFormatter.formatMessage(DOMMessageFormatter.DOM_DOMAIN, "INVALID_STATE_ERR", null));
}
// if root is null there is no next node.
if (fRoot == null) return null;
Node nextNode = fCurrentNode;
boolean accepted = false; // the next node has not been accepted.
accepted_loop:
while (!accepted) {
// if last direction is not forward, repeat node.
if (!fForward && nextNode!=null) {
//System.out.println("nextNode():!fForward:"+fCurrentNode.getNodeName());
nextNode = fCurrentNode;
} else {
// else get the next node via depth-first
if (!fEntityReferenceExpansion
&& nextNode != null
&& nextNode.getNodeType() == Node.ENTITY_REFERENCE_NODE) {
nextNode = nextNode(nextNode, false);
} else {
nextNode = nextNode(nextNode, true);
}
}
fForward = true; //REVIST: should direction be set forward before null check?
// nothing in the list. return null.
if (nextNode == null) return null;
// does node pass the filters and whatToShow?
accepted = acceptNode(nextNode);
if (accepted) {
// if so, then the node is the current node.
fCurrentNode = nextNode;
return fCurrentNode;
} else
continue accepted_loop;
} // while (!accepted) {
// no nodes, or no accepted nodes.
return null;
}
/** Return the previous Node in the Iterator. The node is the next node in
* _backwards_ depth-first order which also passes the filter, and whatToShow.
*/
public Node previousNode() {
if( fDetach) {
throw new DOMException(
DOMException.INVALID_STATE_ERR,
DOMMessageFormatter.formatMessage(DOMMessageFormatter.DOM_DOMAIN, "INVALID_STATE_ERR", null));
}
// if the root is null, or the current node is null, return null.
if (fRoot == null || fCurrentNode == null) return null;
Node previousNode = fCurrentNode;
boolean accepted = false;
accepted_loop:
while (!accepted) {
if (fForward && previousNode != null) {
//repeat last node.
previousNode = fCurrentNode;
} else {
// get previous node in backwards depth first order.
previousNode = previousNode(previousNode);
}
// we are going backwards
fForward = false;
// if the new previous node is null, we're at head or past the root,
// so return null.
if (previousNode == null) return null;
// check if node passes filters and whatToShow.
accepted = acceptNode(previousNode);
if (accepted) {
// if accepted, update the current node, and return it.
fCurrentNode = previousNode;
return fCurrentNode;
} else
continue accepted_loop;
}
// there are no nodes?
return null;
}
/** The node is accepted if it passes the whatToShow and the filter. */
boolean acceptNode(Node node) {
if (fNodeFilter == null) {
return ( fWhatToShow & (1 << node.getNodeType()-1)) != 0 ;
} else {
return ((fWhatToShow & (1 << node.getNodeType()-1)) != 0 )
&& fNodeFilter.acceptNode(node) == NodeFilter.FILTER_ACCEPT;
}
}
/** Return node, if matches or any parent if matches. */
Node matchNodeOrParent(Node node) {
// Additions and removals in the underlying data structure may occur
// before any iterations, and in this case the reference_node is null.
if (fCurrentNode == null) return null;
// check if the removed node is an _ancestor_ of the
// reference node
for (Node n = fCurrentNode; n != fRoot; n = n.getParentNode()) {
if (node == n) return n;
}
return null;
}
/** The method nextNode(Node, boolean) returns the next node
* from the actual DOM tree.
*
* The boolean visitChildren determines whether to visit the children.
* The result is the nextNode.
*/
Node nextNode(Node node, boolean visitChildren) {
if (node == null) return fRoot;
Node result;
// only check children if we visit children.
if (visitChildren) {
//if hasChildren, return 1st child.
if (node.hasChildNodes()) {
result = node.getFirstChild();
return result;
}
}
if (node == fRoot) { //if Root has no kids
return null;
}
// if hasSibling, return sibling
result = node.getNextSibling();
if (result != null) return result;
// return parent's 1st sibling.
Node parent = node.getParentNode();
while (parent != null && parent != fRoot) {
result = parent.getNextSibling();
if (result != null) {
return result;
} else {
parent = parent.getParentNode();
}
} // while (parent != null && parent != fRoot) {
// end of list, return null
return null;
}
/** The method previousNode(Node) returns the previous node
* from the actual DOM tree.
*/
Node previousNode(Node node) {
Node result;
// if we're at the root, return null.
if (node == fRoot) return null;
// get sibling
result = node.getPreviousSibling();
if (result == null) {
//if 1st sibling, return parent
result = node.getParentNode();
return result;
}
// if sibling has children, keep getting last child of child.
if (result.hasChildNodes()
&& !(!fEntityReferenceExpansion
&& result != null
&& result.getNodeType() == Node.ENTITY_REFERENCE_NODE))
{
while (result.hasChildNodes()) {
result = result.getLastChild();
}
}
return result;
}
/** Fix-up the iterator on a remove. Called by DOM or otherwise,
* before an actual DOM remove.
*/
public void removeNode(Node node) {
// Implementation note: Fix-up means setting the current node properly
// after a remove.
if (node == null) return;
Node deleted = matchNodeOrParent(node);
if (deleted == null) return;
if (fForward) {
fCurrentNode = previousNode(deleted);
} else
// if (!fForward)
{
Node next = nextNode(deleted, false);
if (next!=null) {
// normal case: there _are_ nodes following this in the iterator.
fCurrentNode = next;
} else {
// the last node in the iterator is to be removed,
// so we set the current node to be the previous one.
fCurrentNode = previousNode(deleted);
fForward = true;
}
}
}
public void detach() {
fDetach = true;
fDocument.removeNodeIterator(this);
}
}