/* * Copyright 2005 Frerich Raabe * Copyright (C) 2006 Apple Computer, Inc. * Copyright (C) 2007 Alexey Proskuryakov * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "XPathStep.h" #if ENABLE(XPATH) #include "Document.h" #include "Element.h" #include "NamedAttrMap.h" #include "XPathNSResolver.h" #include "XPathParser.h" #include "XPathUtil.h" namespace WebCore { namespace XPath { Step::Step(Axis axis, const NodeTest& nodeTest, const Vector& predicates) : m_axis(axis) , m_nodeTest(nodeTest) , m_predicates(predicates) { } Step::~Step() { deleteAllValues(m_predicates); } void Step::evaluate(Node* context, NodeSet& nodes) const { nodesInAxis(context, nodes); EvaluationContext& evaluationContext = Expression::evaluationContext(); for (unsigned i = 0; i < m_predicates.size(); i++) { Predicate* predicate = m_predicates[i]; NodeSet newNodes; if (!nodes.isSorted()) newNodes.markSorted(false); evaluationContext.size = nodes.size(); evaluationContext.position = 1; for (unsigned j = 0; j < nodes.size(); j++) { Node* node = nodes[j]; Expression::evaluationContext().node = node; EvaluationContext backupCtx = evaluationContext; if (predicate->evaluate()) newNodes.append(node); evaluationContext = backupCtx; ++evaluationContext.position; } nodes.swap(newNodes); } } void Step::nodesInAxis(Node* context, NodeSet& nodes) const { ASSERT(nodes.isEmpty()); switch (m_axis) { case ChildAxis: if (context->isAttributeNode()) // In XPath model, attribute nodes do not have children. return; for (Node* n = context->firstChild(); n; n = n->nextSibling()) if (nodeMatches(n)) nodes.append(n); return; case DescendantAxis: if (context->isAttributeNode()) // In XPath model, attribute nodes do not have children. return; for (Node* n = context->firstChild(); n; n = n->traverseNextNode(context)) if (nodeMatches(n)) nodes.append(n); return; case ParentAxis: if (context->isAttributeNode()) { Node* n = static_cast(context)->ownerElement(); if (nodeMatches(n)) nodes.append(n); } else { Node* n = context->parentNode(); if (n && nodeMatches(n)) nodes.append(n); } return; case AncestorAxis: { Node* n = context; if (context->isAttributeNode()) { n = static_cast(context)->ownerElement(); if (nodeMatches(n)) nodes.append(n); } for (n = n->parentNode(); n; n = n->parentNode()) if (nodeMatches(n)) nodes.append(n); nodes.reverse(); return; } case FollowingSiblingAxis: if (context->nodeType() == Node::ATTRIBUTE_NODE || context->nodeType() == Node::XPATH_NAMESPACE_NODE) return; for (Node* n = context->nextSibling(); n; n = n->nextSibling()) if (nodeMatches(n)) nodes.append(n); return; case PrecedingSiblingAxis: if (context->nodeType() == Node::ATTRIBUTE_NODE || context->nodeType() == Node::XPATH_NAMESPACE_NODE) return; for (Node* n = context->previousSibling(); n; n = n->previousSibling()) if (nodeMatches(n)) nodes.append(n); nodes.reverse(); return; case FollowingAxis: if (context->isAttributeNode()) { Node* p = static_cast(context)->ownerElement(); while ((p = p->traverseNextNode())) if (nodeMatches(p)) nodes.append(p); } else { for (Node* p = context; !isRootDomNode(p); p = p->parentNode()) { for (Node* n = p->nextSibling(); n; n = n->nextSibling()) { if (nodeMatches(n)) nodes.append(n); for (Node* c = n->firstChild(); c; c = c->traverseNextNode(n)) if (nodeMatches(c)) nodes.append(c); } } } return; case PrecedingAxis: if (context->isAttributeNode()) context = static_cast(context)->ownerElement(); for (Node* p = context; !isRootDomNode(p); p = p->parentNode()) { for (Node* n = p->previousSibling(); n ; n = n->previousSibling()) { if (nodeMatches(n)) nodes.append(n); for (Node* c = n->firstChild(); c; c = c->traverseNextNode(n)) if (nodeMatches(c)) nodes.append(c); } } nodes.markSorted(false); return; case AttributeAxis: { if (context->nodeType() != Node::ELEMENT_NODE) return; // Avoid lazily creating attribute nodes for attributes that we do not need anyway. if (m_nodeTest.kind() == NodeTest::NameTest && m_nodeTest.data() != "*") { RefPtr n = static_cast(context)->getAttributeNodeNS(m_nodeTest.namespaceURI(), m_nodeTest.data()); if (n && n->namespaceURI() != "http://www.w3.org/2000/xmlns/") // In XPath land, namespace nodes are not accessible on the attribute axis. nodes.append(n.release()); return; } NamedAttrMap* attrs = context->attributes(); if (!attrs) return; for (unsigned long i = 0; i < attrs->length(); ++i) { RefPtr n = attrs->item(i); if (nodeMatches(n.get())) nodes.append(n.release()); } return; } case NamespaceAxis: // XPath namespace nodes are not implemented yet. return; case SelfAxis: if (nodeMatches(context)) nodes.append(context); return; case DescendantOrSelfAxis: if (nodeMatches(context)) nodes.append(context); if (context->isAttributeNode()) // In XPath model, attribute nodes do not have children. return; for (Node* n = context->firstChild(); n; n = n->traverseNextNode(context)) if (nodeMatches(n)) nodes.append(n); return; case AncestorOrSelfAxis: { if (nodeMatches(context)) nodes.append(context); Node* n = context; if (context->isAttributeNode()) { n = static_cast(context)->ownerElement(); if (nodeMatches(n)) nodes.append(n); } for (n = n->parentNode(); n; n = n->parentNode()) if (nodeMatches(n)) nodes.append(n); nodes.reverse(); return; } } ASSERT_NOT_REACHED(); } bool Step::nodeMatches(Node* node) const { switch (m_nodeTest.kind()) { case NodeTest::TextNodeTest: return node->nodeType() == Node::TEXT_NODE || node->nodeType() == Node::CDATA_SECTION_NODE; case NodeTest::CommentNodeTest: return node->nodeType() == Node::COMMENT_NODE; case NodeTest::ProcessingInstructionNodeTest: { const String& name = m_nodeTest.data(); return node->nodeType() == Node::PROCESSING_INSTRUCTION_NODE && (name.isEmpty() || node->nodeName() == name); } case NodeTest::ElementNodeTest: return node->isElementNode(); case NodeTest::AnyNodeTest: return true; case NodeTest::NameTest: { const String& name = m_nodeTest.data(); const String& namespaceURI = m_nodeTest.namespaceURI(); if (m_axis == AttributeAxis) { ASSERT(node->isAttributeNode()); // In XPath land, namespace nodes are not accessible on the attribute axis. if (node->namespaceURI() == "http://www.w3.org/2000/xmlns/") return false; if (name == "*") return namespaceURI.isEmpty() || node->namespaceURI() == namespaceURI; return node->localName() == name && node->namespaceURI() == namespaceURI; } if (m_axis == NamespaceAxis) { // Node test on the namespace axis is not implemented yet return false; } if (name == "*") return node->nodeType() == primaryNodeType(m_axis) && (namespaceURI.isEmpty() || namespaceURI == node->namespaceURI()); // We use tagQName here because we don't want the element name in uppercase // like we get with HTML elements. // Paths without namespaces should match HTML elements in HTML documents despite those having an XHTML namespace. return node->nodeType() == Node::ELEMENT_NODE && static_cast(node)->tagQName().localName() == name && ((node->isHTMLElement() && node->document()->isHTMLDocument() && namespaceURI.isNull()) || namespaceURI == node->namespaceURI()); } } ASSERT_NOT_REACHED(); return false; } Node::NodeType Step::primaryNodeType(Axis axis) const { switch (axis) { case AttributeAxis: return Node::ATTRIBUTE_NODE; case NamespaceAxis: return Node::XPATH_NAMESPACE_NODE; default: return Node::ELEMENT_NODE; } } } } #endif // ENABLE(XPATH)