/** * This file is part of the DOM implementation for KDE. * * (C) 1999 Lars Knoll (knoll@kde.org) * (C) 2000 Frederik Holljen (frederik.holljen@hig.no) * (C) 2001 Peter Kelly (pmk@post.com) * Copyright (C) 2004 Apple Computer, Inc. * * 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include "xml/dom2_traversalimpl.h" #include "dom/dom_exception.h" #include "xml/dom_docimpl.h" #include "htmltags.h" namespace DOM { NodeFilterImpl::NodeFilterImpl(NodeFilterCondition *condition) : m_condition(condition) { if (m_condition) m_condition->ref(); } NodeFilterImpl::~NodeFilterImpl() { if (m_condition) m_condition->deref(); } short NodeFilterImpl::acceptNode(const Node &node) const { // cast to short silences "enumeral and non-enumeral types in return" warning return m_condition ? m_condition->acceptNode(node) : static_cast(NodeFilter::FILTER_ACCEPT); } // -------------------------------------------------------------- TraversalImpl::TraversalImpl(NodeImpl *rootNode, long whatToShow, NodeFilterImpl *nodeFilter, bool expandEntityReferences) : m_root(rootNode), m_whatToShow(whatToShow), m_filter(nodeFilter), m_expandEntityReferences(expandEntityReferences) { if (root()) root()->ref(); if (filter()) filter()->ref(); } TraversalImpl::~TraversalImpl() { if (root()) root()->deref(); if (filter()) filter()->deref(); } short TraversalImpl::acceptNode(NodeImpl *node) const { // FIXME: If XML is implemented we have to check expandEntityRerefences in this function. // The bid twiddling here is done to map DOM node types, which are given as integers from // 1 through 12, to whatToShow bit masks. if (node && ((1 << (node->nodeType()-1)) & m_whatToShow) != 0) // cast to short silences "enumeral and non-enumeral types in return" warning return m_filter ? m_filter->acceptNode(node) : static_cast(NodeFilter::FILTER_ACCEPT); return NodeFilter::FILTER_SKIP; } // -------------------------------------------------------------- NodeIteratorImpl::NodeIteratorImpl(NodeImpl *rootNode, long whatToShow, NodeFilterImpl *filter, bool expandEntityReferences) :TraversalImpl(rootNode, whatToShow, filter, expandEntityReferences), m_referenceNode(0), m_beforeReferenceNode(true), m_detached(false), m_doc(0) { if (root()) { setDocument(root()->getDocument()); if (document()) { document()->attachNodeIterator(this); document()->ref(); } } } NodeIteratorImpl::~NodeIteratorImpl() { if (referenceNode()) referenceNode()->deref(); if (document()) { document()->detachNodeIterator(this); document()->deref(); } } NodeImpl *NodeIteratorImpl::findNextNode(NodeImpl *node) const { while ((node = node->traverseNextNode())) { // 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. if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) break; } return node; } NodeImpl *NodeIteratorImpl::nextNode(int &exceptioncode) { if (detached()) { exceptioncode = DOMException::INVALID_STATE_ERR; return 0; } NodeImpl *node = referenceNode() ? referenceNode() : root(); if (!pointerBeforeReferenceNode() || acceptNode(node) != NodeFilter::FILTER_ACCEPT) node = findNextNode(node); if (node) setReferenceNode(node); setPointerBeforeReferenceNode(false); return node; } NodeImpl *NodeIteratorImpl::findPreviousNode(NodeImpl *node) const { while ((node = node->traversePreviousNode())) { // 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. if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) break; } return node; } NodeImpl *NodeIteratorImpl::previousNode(int &exceptioncode) { NodeImpl *node = referenceNode() ? referenceNode() : root(); if (pointerBeforeReferenceNode() || acceptNode(node) != NodeFilter::FILTER_ACCEPT) node = findPreviousNode(node); if (node) setReferenceNode(node); setPointerBeforeReferenceNode(); return node; } void NodeIteratorImpl::detach(int &/*exceptioncode*/) { if (!detached() && document()) document()->detachNodeIterator(this); setDetached(); } void NodeIteratorImpl::setReferenceNode(NodeImpl *node) { if (node == m_referenceNode) return; NodeImpl *old = m_referenceNode; m_referenceNode = node; if (m_referenceNode) m_referenceNode->ref(); if (old) old->deref(); } void NodeIteratorImpl::setDocument(DocumentImpl *doc) { if (doc == m_doc) return; DocumentImpl *old = m_doc; m_doc = doc; if (m_doc) m_doc->ref(); if (old) old->deref(); } void NodeIteratorImpl::notifyBeforeNodeRemoval(NodeImpl *removedNode) { // 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 || removedNode == root()) return; bool willRemoveReferenceNode = removedNode == referenceNode(); bool willRemoveReferenceNodeAncestor = referenceNode() && referenceNode()->isAncestor(removedNode); if (!willRemoveReferenceNode && !willRemoveReferenceNodeAncestor) return; if (pointerBeforeReferenceNode()) { NodeImpl *node = findNextNode(removedNode); 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->isAncestor(removedNode)) node = findNextNode(node); } if (node) setReferenceNode(node); } else { node = findPreviousNode(removedNode); 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->isAncestor(removedNode)) node = findPreviousNode(node); } if (node) { // Removing last node. // Need to move the pointer after the node preceding the // new reference node. setReferenceNode(node); setPointerBeforeReferenceNode(false); } } } } else { NodeImpl *node = findPreviousNode(removedNode); 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->isAncestor(removedNode)) node = findPreviousNode(node); } if (node) setReferenceNode(node); } else { node = findNextNode(removedNode); // 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->isAncestor(removedNode)) node = findPreviousNode(node); } if (node) setReferenceNode(node); } } } // -------------------------------------------------------------- TreeWalkerImpl::TreeWalkerImpl(NodeImpl *rootNode, long whatToShow, NodeFilterImpl *filter, bool expandEntityReferences) : TraversalImpl(rootNode, whatToShow, filter, expandEntityReferences), m_current(rootNode) { if (currentNode()) currentNode()->ref(); } TreeWalkerImpl::~TreeWalkerImpl() { if (currentNode()) currentNode()->deref(); } void TreeWalkerImpl::setCurrentNode(NodeImpl *node, int &exceptioncode) { if (!node) { exceptioncode = DOMException::NOT_SUPPORTED_ERR; return; } if (node == m_current) return; NodeImpl *old = m_current; m_current = node; if (m_current) m_current->ref(); if (old) old->deref(); } void TreeWalkerImpl::setCurrentNode(NodeImpl *node) { assert(node); int dummy; setCurrentNode(node, dummy); } NodeImpl *TreeWalkerImpl::parentNode() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->parentNode(); node && node != root(); node = node->parentNode()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) { setCurrentNode(node); result = node; break; } } return result; } NodeImpl *TreeWalkerImpl::firstChild() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->firstChild(); node; node = node->nextSibling()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) { setCurrentNode(node); result = node; break; } } return result; } NodeImpl *TreeWalkerImpl::lastChild() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->lastChild(); node; node = node->previousSibling()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) { setCurrentNode(node); result = node; break; } } return result; } NodeImpl *TreeWalkerImpl::previousSibling() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->previousSibling(); node; node = node->previousSibling()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) { setCurrentNode(node); result = node; break; } } return result; } NodeImpl *TreeWalkerImpl::nextSibling() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->nextSibling(); node; node = node->nextSibling()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT) { setCurrentNode(node); result = node; break; } } return result; } NodeImpl *TreeWalkerImpl::previousNode() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->traversePreviousNode(); node; node = node->traversePreviousNode()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT && !ancestorRejected(node)) { setCurrentNode(node); result = node; break; } } return result; } NodeImpl *TreeWalkerImpl::nextNode() { NodeImpl *result = 0; for (NodeImpl *node = currentNode()->traverseNextNode(); node; node = node->traverseNextNode()) { if (acceptNode(node) == NodeFilter::FILTER_ACCEPT && !ancestorRejected(node)) { setCurrentNode(node); result = node; break; } } return result; } bool TreeWalkerImpl::ancestorRejected(const NodeImpl *node) const { for (NodeImpl *a = node->parentNode(); a && a != root(); a = a->parentNode()) if (acceptNode(a) == NodeFilter::FILTER_REJECT) return true; return false; } } // namespace DOM