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/*
* Copyright (C) 1999 Lars Knoll (knoll@kde.org)
* (C) 1999 Antti Koivisto (koivisto@kde.org)
* (C) 2001 Dirk Mueller (mueller@kde.org)
* Copyright (C) 2004, 2005, 2006, 2007, 2009, 2010, 2011 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.
*
*/
#ifndef ContainerNode_h
#define ContainerNode_h
#include "ExceptionCodePlaceholder.h"
#include "Node.h"
#include <wtf/OwnPtr.h>
#include <wtf/Vector.h>
namespace WebCore {
class FloatPoint;
class RenderElement;
typedef void (*NodeCallback)(Node&, unsigned);
namespace Private {
template<class GenericNode, class GenericNodeContainer>
void addChildNodesToDeletionQueue(GenericNode*& head, GenericNode*& tail, GenericNodeContainer&);
};
class NoEventDispatchAssertion {
public:
NoEventDispatchAssertion()
{
#ifndef NDEBUG
if (!isMainThread())
return;
s_count++;
#endif
}
~NoEventDispatchAssertion()
{
#ifndef NDEBUG
if (!isMainThread())
return;
ASSERT(s_count);
s_count--;
#endif
}
#ifndef NDEBUG
static bool isEventDispatchForbidden()
{
if (!isMainThread())
return false;
return s_count;
}
#endif
private:
#ifndef NDEBUG
static unsigned s_count;
#endif
};
class ContainerNode : public Node {
friend class PostAttachCallbackDisabler;
public:
virtual ~ContainerNode();
Node* firstChild() const { return m_firstChild; }
Node* lastChild() const { return m_lastChild; }
bool hasChildNodes() const { return m_firstChild; }
unsigned childNodeCount() const;
Node* childNode(unsigned index) const;
bool insertBefore(PassRefPtr<Node> newChild, Node* refChild, ExceptionCode& = ASSERT_NO_EXCEPTION);
bool replaceChild(PassRefPtr<Node> newChild, Node* oldChild, ExceptionCode& = ASSERT_NO_EXCEPTION);
bool removeChild(Node* child, ExceptionCode& = ASSERT_NO_EXCEPTION);
bool appendChild(PassRefPtr<Node> newChild, ExceptionCode& = ASSERT_NO_EXCEPTION);
// These methods are only used during parsing.
// They don't send DOM mutation events or handle reparenting.
// However, arbitrary code may be run by beforeload handlers.
void parserAppendChild(PassRefPtr<Node>);
void parserRemoveChild(Node&);
void parserInsertBefore(PassRefPtr<Node> newChild, Node* refChild);
void removeChildren();
void takeAllChildrenFrom(ContainerNode*);
void cloneChildNodes(ContainerNode* clone);
virtual LayoutRect boundingBox() const override;
enum ChildChangeType { ElementInserted, ElementRemoved, TextInserted, TextRemoved, TextChanged, AllChildrenRemoved, NonContentsChildChanged };
enum ChildChangeSource { ChildChangeSourceParser, ChildChangeSourceAPI };
struct ChildChange {
ChildChangeType type;
Element* previousSiblingElement;
Element* nextSiblingElement;
ChildChangeSource source;
};
virtual void childrenChanged(const ChildChange&);
void disconnectDescendantFrames();
virtual bool childShouldCreateRenderer(const Node&) const { return true; }
using Node::setAttributeEventListener;
void setAttributeEventListener(const AtomicString& eventType, const QualifiedName& attributeName, const AtomicString& value);
RenderElement* renderer() const;
Element* querySelector(const AtomicString& selectors, ExceptionCode&);
RefPtr<NodeList> querySelectorAll(const AtomicString& selectors, ExceptionCode&);
PassRefPtr<NodeList> getElementsByTagName(const AtomicString&);
PassRefPtr<NodeList> getElementsByTagNameNS(const AtomicString& namespaceURI, const AtomicString& localName);
PassRefPtr<NodeList> getElementsByName(const String& elementName);
PassRefPtr<NodeList> getElementsByClassName(const String& classNames);
PassRefPtr<RadioNodeList> radioNodeList(const AtomicString&);
protected:
explicit ContainerNode(Document*, ConstructionType = CreateContainer);
static void queuePostAttachCallback(NodeCallback, Node&, unsigned = 0);
static bool postAttachCallbacksAreSuspended();
template<class GenericNode, class GenericNodeContainer>
friend void appendChildToContainer(GenericNode* child, GenericNodeContainer&);
template<class GenericNode, class GenericNodeContainer>
friend void Private::addChildNodesToDeletionQueue(GenericNode*& head, GenericNode*& tail, GenericNodeContainer&);
void removeDetachedChildren();
void setFirstChild(Node* child) { m_firstChild = child; }
void setLastChild(Node* child) { m_lastChild = child; }
private:
void removeBetween(Node* previousChild, Node* nextChild, Node& oldChild);
void insertBeforeCommon(Node& nextChild, Node& oldChild);
static void dispatchPostAttachCallbacks();
static void suspendPostAttachCallbacks(Document&);
static void resumePostAttachCallbacks(Document&);
bool getUpperLeftCorner(FloatPoint&) const;
bool getLowerRightCorner(FloatPoint&) const;
void notifyChildInserted(Node& child, ChildChangeSource);
void notifyChildRemoved(Node& child, Node* previousSibling, Node* nextSibling, ChildChangeSource);
void updateTreeAfterInsertion(Node& child);
bool isContainerNode() const = delete;
void willRemoveChild(Node& child);
Node* m_firstChild;
Node* m_lastChild;
};
inline bool isContainerNode(const Node& node) { return node.isContainerNode(); }
void isContainerNode(const ContainerNode&); // Catch unnecessary runtime check of type known at compile time.
NODE_TYPE_CASTS(ContainerNode)
inline ContainerNode::ContainerNode(Document* document, ConstructionType type)
: Node(document, type)
, m_firstChild(0)
, m_lastChild(0)
{
}
inline unsigned Node::childNodeCount() const
{
if (!isContainerNode())
return 0;
return toContainerNode(this)->childNodeCount();
}
inline Node* Node::childNode(unsigned index) const
{
if (!isContainerNode())
return 0;
return toContainerNode(this)->childNode(index);
}
inline Node* Node::firstChild() const
{
if (!isContainerNode())
return 0;
return toContainerNode(this)->firstChild();
}
inline Node* Node::lastChild() const
{
if (!isContainerNode())
return 0;
return toContainerNode(this)->lastChild();
}
inline Node* Node::highestAncestor() const
{
Node* node = const_cast<Node*>(this);
Node* highest = node;
for (; node; node = node->parentNode())
highest = node;
return highest;
}
inline bool Node::needsNodeRenderingTraversalSlowPath() const
{
if (getFlag(NeedsNodeRenderingTraversalSlowPathFlag))
return true;
ContainerNode* parent = parentOrShadowHostNode();
return parent && parent->getFlag(NeedsNodeRenderingTraversalSlowPathFlag);
}
inline bool Node::isTreeScope() const
{
return treeScope().rootNode() == this;
}
// This constant controls how much buffer is initially allocated
// for a Node Vector that is used to store child Nodes of a given Node.
// FIXME: Optimize the value.
const int initialNodeVectorSize = 11;
typedef Vector<Ref<Node>, initialNodeVectorSize> NodeVector;
inline void getChildNodes(Node& node, NodeVector& nodes)
{
ASSERT(nodes.isEmpty());
for (Node* child = node.firstChild(); child; child = child->nextSibling())
nodes.append(*child);
}
class ChildNodesLazySnapshot {
WTF_MAKE_NONCOPYABLE(ChildNodesLazySnapshot);
WTF_MAKE_FAST_ALLOCATED;
public:
explicit ChildNodesLazySnapshot(Node& parentNode)
: m_currentNode(parentNode.firstChild())
, m_currentIndex(0)
{
m_nextSnapshot = latestSnapshot;
latestSnapshot = this;
}
~ChildNodesLazySnapshot()
{
latestSnapshot = m_nextSnapshot;
}
// Returns 0 if there is no next Node.
PassRefPtr<Node> nextNode()
{
if (LIKELY(!hasSnapshot())) {
RefPtr<Node> node = m_currentNode;
if (node)
m_currentNode = node->nextSibling();
return node.release();
}
Vector<RefPtr<Node>>& nodeVector = *m_childNodes;
if (m_currentIndex >= nodeVector.size())
return 0;
return nodeVector[m_currentIndex++];
}
void takeSnapshot()
{
if (hasSnapshot())
return;
m_childNodes = adoptPtr(new Vector<RefPtr<Node>>());
Node* node = m_currentNode.get();
while (node) {
m_childNodes->append(node);
node = node->nextSibling();
}
}
ChildNodesLazySnapshot* nextSnapshot() { return m_nextSnapshot; }
bool hasSnapshot() { return !!m_childNodes.get(); }
static void takeChildNodesLazySnapshot()
{
ChildNodesLazySnapshot* snapshot = latestSnapshot;
while (snapshot && !snapshot->hasSnapshot()) {
snapshot->takeSnapshot();
snapshot = snapshot->nextSnapshot();
}
}
private:
static ChildNodesLazySnapshot* latestSnapshot;
RefPtr<Node> m_currentNode;
unsigned m_currentIndex;
OwnPtr<Vector<RefPtr<Node>>> m_childNodes; // Lazily instantiated.
ChildNodesLazySnapshot* m_nextSnapshot;
};
} // namespace WebCore
#endif // ContainerNode_h
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