/* * Copyright (C) 1999 Lars Knoll (knoll@kde.org) * Copyright (C) 2000 Frederik Holljen (frederik.holljen@hig.no) * Copyright (C) 2001 Peter Kelly (pmk@post.com) * Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com) * Copyright (C) 2004, 2008 Apple Inc. All rights reserved. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public License * along with this library; see the file COPYING.LIB. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. * */ #include "config.h" #include "NodeIterator.h" #include "Document.h" #include "ExceptionCode.h" #include "NodeFilter.h" #include "ScriptState.h" namespace WebCore { NodeIterator::NodePointer::NodePointer() { } NodeIterator::NodePointer::NodePointer(PassRefPtr<Node> n, bool b) : node(n) , isPointerBeforeNode(b) { } void NodeIterator::NodePointer::clear() { node.clear(); } bool NodeIterator::NodePointer::moveToNext(Node* root) { if (!node) return false; if (isPointerBeforeNode) { isPointerBeforeNode = false; return true; } node = node->traverseNextNode(root); return node; } bool NodeIterator::NodePointer::moveToPrevious(Node* root) { if (!node) return false; if (!isPointerBeforeNode) { isPointerBeforeNode = true; return true; } node = node->traversePreviousNode(root); return node; } NodeIterator::NodeIterator(PassRefPtr<Node> rootNode, unsigned whatToShow, PassRefPtr<NodeFilter> filter, bool expandEntityReferences) : Traversal(rootNode, whatToShow, filter, expandEntityReferences) , m_referenceNode(root(), true) , m_detached(false) { // Document type nodes may have a null document. But since they can't have children, there is no need to listen for modifications to these. ASSERT(root()->document() || root()->nodeType() == Node::DOCUMENT_TYPE_NODE); if (Document* ownerDocument = root()->document()) ownerDocument->attachNodeIterator(this); } NodeIterator::~NodeIterator() { if (Document* ownerDocument = root()->document()) ownerDocument->detachNodeIterator(this); } PassRefPtr<Node> NodeIterator::nextNode(ScriptState* state, ExceptionCode& ec) { if (m_detached) { ec = INVALID_STATE_ERR; return 0; } RefPtr<Node> result; m_candidateNode = m_referenceNode; while (m_candidateNode.moveToNext(root())) { // NodeIterators treat the DOM tree as a flat list of nodes. // In other words, FILTER_REJECT does not pass over descendants // of the rejected node. Hence, FILTER_REJECT is the same as FILTER_SKIP. RefPtr<Node> provisionalResult = m_candidateNode.node; bool nodeWasAccepted = acceptNode(state, provisionalResult.get()) == NodeFilter::FILTER_ACCEPT; if (state && state->hadException()) break; if (nodeWasAccepted) { m_referenceNode = m_candidateNode; result = provisionalResult.release(); break; } } m_candidateNode.clear(); return result.release(); } PassRefPtr<Node> NodeIterator::previousNode(ScriptState* state, ExceptionCode& ec) { if (m_detached) { ec = INVALID_STATE_ERR; return 0; } RefPtr<Node> result; m_candidateNode = m_referenceNode; while (m_candidateNode.moveToPrevious(root())) { // NodeIterators treat the DOM tree as a flat list of nodes. // In other words, FILTER_REJECT does not pass over descendants // of the rejected node. Hence, FILTER_REJECT is the same as FILTER_SKIP. RefPtr<Node> provisionalResult = m_candidateNode.node; bool nodeWasAccepted = acceptNode(state, provisionalResult.get()) == NodeFilter::FILTER_ACCEPT; if (state && state->hadException()) break; if (nodeWasAccepted) { m_referenceNode = m_candidateNode; result = provisionalResult.release(); break; } } m_candidateNode.clear(); return result.release(); } void NodeIterator::detach() { if (Document* ownerDocument = root()->document()) ownerDocument->detachNodeIterator(this); m_detached = true; m_referenceNode.node.clear(); } void NodeIterator::nodeWillBeRemoved(Node* removedNode) { updateForNodeRemoval(removedNode, m_candidateNode); updateForNodeRemoval(removedNode, m_referenceNode); } void NodeIterator::updateForNodeRemoval(Node* removedNode, NodePointer& referenceNode) const { ASSERT(!m_detached); ASSERT(removedNode); ASSERT(root()->document()); ASSERT(root()->document() == removedNode->document()); // Iterator is not affected if the removed node is the reference node and is the root. // or if removed node is not the reference node, or the ancestor of the reference node. if (!removedNode->isDescendantOf(root())) return; bool willRemoveReferenceNode = removedNode == referenceNode.node; bool willRemoveReferenceNodeAncestor = referenceNode.node && referenceNode.node->isDescendantOf(removedNode); if (!willRemoveReferenceNode && !willRemoveReferenceNodeAncestor) return; if (referenceNode.isPointerBeforeNode) { Node* node = removedNode->traverseNextNode(root()); if (node) { // Move out from under the node being removed if the reference node is // a descendant of the node being removed. if (willRemoveReferenceNodeAncestor) { while (node && node->isDescendantOf(removedNode)) node = node->traverseNextNode(root()); } if (node) referenceNode.node = node; } else { node = removedNode->traversePreviousNode(root()); if (node) { // Move out from under the node being removed if the reference node is // a descendant of the node being removed. if (willRemoveReferenceNodeAncestor) { while (node && node->isDescendantOf(removedNode)) node = node->traversePreviousNode(root()); } if (node) { // Removing last node. // Need to move the pointer after the node preceding the // new reference node. referenceNode.node = node; referenceNode.isPointerBeforeNode = false; } } } } else { Node* node = removedNode->traversePreviousNode(root()); if (node) { // Move out from under the node being removed if the reference node is // a descendant of the node being removed. if (willRemoveReferenceNodeAncestor) { while (node && node->isDescendantOf(removedNode)) node = node->traversePreviousNode(root()); } if (node) referenceNode.node = node; } else { node = removedNode->traverseNextNode(root()); // Move out from under the node being removed if the reference node is // a descendant of the node being removed. if (willRemoveReferenceNodeAncestor) { while (node && node->isDescendantOf(removedNode)) node = node->traversePreviousNode(root()); } if (node) referenceNode.node = node; } } } } // namespace WebCore