Source/core/dom/NodeTraversal.h - chromium/blink - Git at Google

 /*
  * 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, 2008, 2009, 2010, 2011, 2012 Apple Inc. All rights reserved.
  * Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
  *
  * 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 NodeTraversal_h
 #define NodeTraversal_h

 #include "core/dom/Element.h"

 namespace WebCore {

 namespace ElementTraversal {

 // First element child of the node.
 Element* firstWithin(const Node*);
 Element* firstWithin(const ContainerNode*);

 // Pre-order traversal skipping non-element nodes.
 Element* next(const Node*);
 Element* next(const Node*, const Node* stayWithin);
 Element* next(const ContainerNode*);
 Element* next(const ContainerNode*, const Node* stayWithin);

 // Like next, but skips children.
 Element* nextSkippingChildren(const Node*);
 Element* nextSkippingChildren(const Node*, const Node* stayWithin);
 Element* nextSkippingChildren(const ContainerNode*);
 Element* nextSkippingChildren(const ContainerNode*, const Node* stayWithin);

 // Pre-order traversal including the pseudo-elements.
 Element* previousIncludingPseudo(const Node*, const Node* stayWithin = 0);
 Element* nextIncludingPseudo(const Node*, const Node* stayWithin = 0);
 Element* nextIncludingPseudoSkippingChildren(const Node*, const Node* stayWithin = 0);

 // Utility function to traverse only the element and pseudo-element siblings of a node.
 Element* pseudoAwarePreviousSibling(const Node*);

 }

 namespace NodeTraversal {

 // Does a pre-order traversal of the tree to find the next node after this one.
 // This uses the same order that tags appear in the source file. If the stayWithin
 // argument is non-null, the traversal will stop once the specified node is reached.
 // This can be used to restrict traversal to a particular sub-tree.
 Node* next(const Node*);
 Node* next(const Node*, const Node* stayWithin);
 Node* next(const ContainerNode*);
 Node* next(const ContainerNode*, const Node* stayWithin);

 // Like next, but skips children and starts with the next sibling.
 Node* nextSkippingChildren(const Node*);
 Node* nextSkippingChildren(const Node*, const Node* stayWithin);
 Node* nextSkippingChildren(const ContainerNode*);
 Node* nextSkippingChildren(const ContainerNode*, const Node* stayWithin);

 // Does a reverse pre-order traversal to find the node that comes before the current one in document order
 Node* previous(const Node*, const Node* stayWithin = 0);

 // Like previous, but skips children and starts with the next sibling.
 Node* previousSkippingChildren(const Node*, const Node* stayWithin = 0);

 // Like next, but visits parents after their children.
 Node* nextPostOrder(const Node*, const Node* stayWithin = 0);

 // Like previous/previousSkippingChildren, but visits parents before their children.
 Node* previousPostOrder(const Node*, const Node* stayWithin = 0);
 Node* previousSkippingChildrenPostOrder(const Node*, const Node* stayWithin = 0);

 // Pre-order traversal including the pseudo-elements.
 Node* previousIncludingPseudo(const Node*, const Node* stayWithin = 0);
 Node* nextIncludingPseudo(const Node*, const Node* stayWithin = 0);
 Node* nextIncludingPseudoSkippingChildren(const Node*, const Node* stayWithin = 0);

 }

 namespace ElementTraversal {
 template <class NodeType>
 inline Element* firstElementWithinTemplate(NodeType* current)
 {
     // Except for the root containers, only elements can have element children.
     Node* node = current->firstChild();
     while (node && !node->isElementNode())
         node = node->nextSibling();
     return toElement(node);
 }
 inline Element* firstWithin(const ContainerNode* current) { return firstElementWithinTemplate(current); }
 inline Element* firstWithin(const Node* current) { return firstElementWithinTemplate(current); }

 template <class NodeType>
 inline Element* traverseNextElementTemplate(NodeType* current)
 {
     Node* node = NodeTraversal::next(current);
     while (node && !node->isElementNode())
         node = NodeTraversal::nextSkippingChildren(node);
     return toElement(node);
 }
 inline Element* next(const ContainerNode* current) { return traverseNextElementTemplate(current); }
 inline Element* next(const Node* current) { return traverseNextElementTemplate(current); }

 template <class NodeType>
 inline Element* traverseNextElementTemplate(NodeType* current, const Node* stayWithin)
 {
     Node* node = NodeTraversal::next(current, stayWithin);
     while (node && !node->isElementNode())
         node = NodeTraversal::nextSkippingChildren(node, stayWithin);
     return toElement(node);
 }
 inline Element* next(const ContainerNode* current, const Node* stayWithin) { return traverseNextElementTemplate(current, stayWithin); }
 inline Element* next(const Node* current, const Node* stayWithin) { return traverseNextElementTemplate(current, stayWithin); }

 template <class NodeType>
 inline Element* traverseNextElementSkippingChildrenTemplate(NodeType* current)
 {
     Node* node = NodeTraversal::nextSkippingChildren(current);
     while (node && !node->isElementNode())
         node = NodeTraversal::nextSkippingChildren(node);
     return toElement(node);
 }
 inline Element* nextSkippingChildren(const ContainerNode* current) { return traverseNextElementSkippingChildrenTemplate(current); }
 inline Element* nextSkippingChildren(const Node* current) { return traverseNextElementSkippingChildrenTemplate(current); }

 template <class NodeType>
 inline Element* traverseNextElementSkippingChildrenTemplate(NodeType* current, const Node* stayWithin)
 {
     Node* node = NodeTraversal::nextSkippingChildren(current, stayWithin);
     while (node && !node->isElementNode())
         node = NodeTraversal::nextSkippingChildren(node, stayWithin);
     return toElement(node);
 }
 inline Element* nextSkippingChildren(const ContainerNode* current, const Node* stayWithin) { return traverseNextElementSkippingChildrenTemplate(current, stayWithin); }
 inline Element* nextSkippingChildren(const Node* current, const Node* stayWithin) { return traverseNextElementSkippingChildrenTemplate(current, stayWithin); }

 inline Element* previousIncludingPseudo(const Node* current, const Node* stayWithin)
 {
     Node* node = NodeTraversal::previousIncludingPseudo(current, stayWithin);
     while (node && !node->isElementNode())
         node = NodeTraversal::previousIncludingPseudo(node, stayWithin);
     return toElement(node);
 }

 inline Element* nextIncludingPseudo(const Node* current, const Node* stayWithin)
 {
     Node* node = NodeTraversal::nextIncludingPseudo(current, stayWithin);
     while (node && !node->isElementNode())
         node = NodeTraversal::nextIncludingPseudo(node, stayWithin);
     return toElement(node);
 }

 inline Element* nextIncludingPseudoSkippingChildren(const Node* current, const Node* stayWithin)
 {
     Node* node = NodeTraversal::nextIncludingPseudoSkippingChildren(current, stayWithin);
     while (node && !node->isElementNode())
         node = NodeTraversal::nextIncludingPseudoSkippingChildren(node, stayWithin);
     return toElement(node);
 }

 inline Element* pseudoAwarePreviousSibling(const Node* current)
 {
     Node* node = current->pseudoAwarePreviousSibling();
     while (node && !node->isElementNode())
         node = node->pseudoAwarePreviousSibling();
     return toElement(node);
 }

 }

 namespace NodeTraversal {

 Node* nextAncestorSibling(const Node*);
 Node* nextAncestorSibling(const Node*, const Node* stayWithin);

 template <class NodeType>
 inline Node* traverseNextTemplate(NodeType* current)
 {
     if (current->firstChild())
         return current->firstChild();
     if (current->nextSibling())
         return current->nextSibling();
     return nextAncestorSibling(current);
 }
 inline Node* next(const Node* current) { return traverseNextTemplate(current); }
 inline Node* next(const ContainerNode* current) { return traverseNextTemplate(current); }

 template <class NodeType>
 inline Node* traverseNextTemplate(NodeType* current, const Node* stayWithin)
 {
     if (current->firstChild())
         return current->firstChild();
     if (current == stayWithin)
         return 0;
     if (current->nextSibling())
         return current->nextSibling();
     return nextAncestorSibling(current, stayWithin);
 }
 inline Node* next(const Node* current, const Node* stayWithin) { return traverseNextTemplate(current, stayWithin); }
 inline Node* next(const ContainerNode* current, const Node* stayWithin) { return traverseNextTemplate(current, stayWithin); }

 template <class NodeType>
 inline Node* traverseNextSkippingChildrenTemplate(NodeType* current)
 {
     if (current->nextSibling())
         return current->nextSibling();
     return nextAncestorSibling(current);
 }
 inline Node* nextSkippingChildren(const Node* current) { return traverseNextSkippingChildrenTemplate(current); }
 inline Node* nextSkippingChildren(const ContainerNode* current) { return traverseNextSkippingChildrenTemplate(current); }

 template <class NodeType>
 inline Node* traverseNextSkippingChildrenTemplate(NodeType* current, const Node* stayWithin)
 {
     if (current == stayWithin)
         return 0;
     if (current->nextSibling())
         return current->nextSibling();
     return nextAncestorSibling(current, stayWithin);
 }
 inline Node* nextSkippingChildren(const Node* current, const Node* stayWithin) { return traverseNextSkippingChildrenTemplate(current, stayWithin); }
 inline Node* nextSkippingChildren(const ContainerNode* current, const Node* stayWithin) { return traverseNextSkippingChildrenTemplate(current, stayWithin); }

 }

 }

 #endif
	/*
	* 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, 2008, 2009, 2010, 2011, 2012 Apple Inc. All rights reserved.
	* Copyright (C) 2008, 2009 Torch Mobile Inc. All rights reserved. (http://www.torchmobile.com/)
	*
	* 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 NodeTraversal_h
	#define NodeTraversal_h

	#include "core/dom/Element.h"

	namespace WebCore {

	namespace ElementTraversal {

	// First element child of the node.
	Element* firstWithin(const Node*);
	Element* firstWithin(const ContainerNode*);

	// Pre-order traversal skipping non-element nodes.
	Element* next(const Node*);
	Element* next(const Node, const Node stayWithin);
	Element* next(const ContainerNode*);
	Element* next(const ContainerNode, const Node stayWithin);

	// Like next, but skips children.
	Element* nextSkippingChildren(const Node*);
	Element* nextSkippingChildren(const Node, const Node stayWithin);
	Element* nextSkippingChildren(const ContainerNode*);
	Element* nextSkippingChildren(const ContainerNode, const Node stayWithin);

	// Pre-order traversal including the pseudo-elements.
	Element* previousIncludingPseudo(const Node, const Node stayWithin = 0);
	Element* nextIncludingPseudo(const Node, const Node stayWithin = 0);
	Element* nextIncludingPseudoSkippingChildren(const Node, const Node stayWithin = 0);

	// Utility function to traverse only the element and pseudo-element siblings of a node.
	Element* pseudoAwarePreviousSibling(const Node*);

	}

	namespace NodeTraversal {

	// Does a pre-order traversal of the tree to find the next node after this one.
	// This uses the same order that tags appear in the source file. If the stayWithin
	// argument is non-null, the traversal will stop once the specified node is reached.
	// This can be used to restrict traversal to a particular sub-tree.
	Node* next(const Node*);
	Node* next(const Node, const Node stayWithin);
	Node* next(const ContainerNode*);
	Node* next(const ContainerNode, const Node stayWithin);

	// Like next, but skips children and starts with the next sibling.
	Node* nextSkippingChildren(const Node*);
	Node* nextSkippingChildren(const Node, const Node stayWithin);
	Node* nextSkippingChildren(const ContainerNode*);
	Node* nextSkippingChildren(const ContainerNode, const Node stayWithin);

	// Does a reverse pre-order traversal to find the node that comes before the current one in document order
	Node* previous(const Node, const Node stayWithin = 0);

	// Like previous, but skips children and starts with the next sibling.
	Node* previousSkippingChildren(const Node, const Node stayWithin = 0);

	// Like next, but visits parents after their children.
	Node* nextPostOrder(const Node, const Node stayWithin = 0);

	// Like previous/previousSkippingChildren, but visits parents before their children.
	Node* previousPostOrder(const Node, const Node stayWithin = 0);
	Node* previousSkippingChildrenPostOrder(const Node, const Node stayWithin = 0);

	// Pre-order traversal including the pseudo-elements.
	Node* previousIncludingPseudo(const Node, const Node stayWithin = 0);
	Node* nextIncludingPseudo(const Node, const Node stayWithin = 0);
	Node* nextIncludingPseudoSkippingChildren(const Node, const Node stayWithin = 0);

	}

	namespace ElementTraversal {
	template <class NodeType>
	inline Element* firstElementWithinTemplate(NodeType* current)
	{
	// Except for the root containers, only elements can have element children.
	Node* node = current->firstChild();
	while (node && !node->isElementNode())
	node = node->nextSibling();
	return toElement(node);
	}
	inline Element* firstWithin(const ContainerNode* current) { return firstElementWithinTemplate(current); }
	inline Element* firstWithin(const Node* current) { return firstElementWithinTemplate(current); }

	template <class NodeType>
	inline Element* traverseNextElementTemplate(NodeType* current)
	{
	Node* node = NodeTraversal::next(current);
	while (node && !node->isElementNode())
	node = NodeTraversal::nextSkippingChildren(node);
	return toElement(node);
	}
	inline Element* next(const ContainerNode* current) { return traverseNextElementTemplate(current); }
	inline Element* next(const Node* current) { return traverseNextElementTemplate(current); }

	template <class NodeType>
	inline Element* traverseNextElementTemplate(NodeType* current, const Node* stayWithin)
	{
	Node* node = NodeTraversal::next(current, stayWithin);
	while (node && !node->isElementNode())
	node = NodeTraversal::nextSkippingChildren(node, stayWithin);
	return toElement(node);
	}
	inline Element* next(const ContainerNode* current, const Node* stayWithin) { return traverseNextElementTemplate(current, stayWithin); }
	inline Element* next(const Node* current, const Node* stayWithin) { return traverseNextElementTemplate(current, stayWithin); }

	template <class NodeType>
	inline Element* traverseNextElementSkippingChildrenTemplate(NodeType* current)
	{
	Node* node = NodeTraversal::nextSkippingChildren(current);
	while (node && !node->isElementNode())
	node = NodeTraversal::nextSkippingChildren(node);
	return toElement(node);
	}
	inline Element* nextSkippingChildren(const ContainerNode* current) { return traverseNextElementSkippingChildrenTemplate(current); }
	inline Element* nextSkippingChildren(const Node* current) { return traverseNextElementSkippingChildrenTemplate(current); }

	template <class NodeType>
	inline Element* traverseNextElementSkippingChildrenTemplate(NodeType* current, const Node* stayWithin)
	{
	Node* node = NodeTraversal::nextSkippingChildren(current, stayWithin);
	while (node && !node->isElementNode())
	node = NodeTraversal::nextSkippingChildren(node, stayWithin);
	return toElement(node);
	}
	inline Element* nextSkippingChildren(const ContainerNode* current, const Node* stayWithin) { return traverseNextElementSkippingChildrenTemplate(current, stayWithin); }
	inline Element* nextSkippingChildren(const Node* current, const Node* stayWithin) { return traverseNextElementSkippingChildrenTemplate(current, stayWithin); }

	inline Element* previousIncludingPseudo(const Node* current, const Node* stayWithin)
	{
	Node* node = NodeTraversal::previousIncludingPseudo(current, stayWithin);
	while (node && !node->isElementNode())
	node = NodeTraversal::previousIncludingPseudo(node, stayWithin);
	return toElement(node);
	}

	inline Element* nextIncludingPseudo(const Node* current, const Node* stayWithin)
	{
	Node* node = NodeTraversal::nextIncludingPseudo(current, stayWithin);
	while (node && !node->isElementNode())
	node = NodeTraversal::nextIncludingPseudo(node, stayWithin);
	return toElement(node);
	}

	inline Element* nextIncludingPseudoSkippingChildren(const Node* current, const Node* stayWithin)
	{
	Node* node = NodeTraversal::nextIncludingPseudoSkippingChildren(current, stayWithin);
	while (node && !node->isElementNode())
	node = NodeTraversal::nextIncludingPseudoSkippingChildren(node, stayWithin);
	return toElement(node);
	}

	inline Element* pseudoAwarePreviousSibling(const Node* current)
	{
	Node* node = current->pseudoAwarePreviousSibling();
	while (node && !node->isElementNode())
	node = node->pseudoAwarePreviousSibling();
	return toElement(node);
	}

	}

	namespace NodeTraversal {

	Node* nextAncestorSibling(const Node*);
	Node* nextAncestorSibling(const Node, const Node stayWithin);

	template <class NodeType>
	inline Node* traverseNextTemplate(NodeType* current)
	{
	if (current->firstChild())
	return current->firstChild();
	if (current->nextSibling())
	return current->nextSibling();
	return nextAncestorSibling(current);
	}
	inline Node* next(const Node* current) { return traverseNextTemplate(current); }
	inline Node* next(const ContainerNode* current) { return traverseNextTemplate(current); }

	template <class NodeType>
	inline Node* traverseNextTemplate(NodeType* current, const Node* stayWithin)
	{
	if (current->firstChild())
	return current->firstChild();
	if (current == stayWithin)
	return 0;
	if (current->nextSibling())
	return current->nextSibling();
	return nextAncestorSibling(current, stayWithin);
	}
	inline Node* next(const Node* current, const Node* stayWithin) { return traverseNextTemplate(current, stayWithin); }
	inline Node* next(const ContainerNode* current, const Node* stayWithin) { return traverseNextTemplate(current, stayWithin); }

	template <class NodeType>
	inline Node* traverseNextSkippingChildrenTemplate(NodeType* current)
	{
	if (current->nextSibling())
	return current->nextSibling();
	return nextAncestorSibling(current);
	}
	inline Node* nextSkippingChildren(const Node* current) { return traverseNextSkippingChildrenTemplate(current); }
	inline Node* nextSkippingChildren(const ContainerNode* current) { return traverseNextSkippingChildrenTemplate(current); }

	template <class NodeType>
	inline Node* traverseNextSkippingChildrenTemplate(NodeType* current, const Node* stayWithin)
	{
	if (current == stayWithin)
	return 0;
	if (current->nextSibling())
	return current->nextSibling();
	return nextAncestorSibling(current, stayWithin);
	}
	inline Node* nextSkippingChildren(const Node* current, const Node* stayWithin) { return traverseNextSkippingChildrenTemplate(current, stayWithin); }
	inline Node* nextSkippingChildren(const ContainerNode* current, const Node* stayWithin) { return traverseNextSkippingChildrenTemplate(current, stayWithin); }

	}

	}

	#endif