Source/WebCore/dom/ElementDescendantIterator.h - WebKit - Git at Google

 /*
  * Copyright (C) 2014 Apple Inc. All rights reserved.
  *
  * 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 APPLE INC. ``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 APPLE INC. OR
  * CONTRIBUTORS 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.
  */

 #pragma once

 #include "Element.h"
 #include "ElementIteratorAssertions.h"
 #include "ElementTraversal.h"
 #include <wtf/Vector.h>

 namespace WebCore {

 class ElementDescendantIterator {
 public:
     ElementDescendantIterator();
     explicit ElementDescendantIterator(Element* current);

     ElementDescendantIterator& operator++();
     ElementDescendantIterator& operator--();

     Element& operator*();
     Element* operator->();

     bool operator==(const ElementDescendantIterator& other) const;
     bool operator!=(const ElementDescendantIterator& other) const;

     void dropAssertions();

 private:
     Element* m_current;
     Vector<Element*, 16> m_ancestorSiblingStack;

 #if !ASSERT_DISABLED
     ElementIteratorAssertions m_assertions;
 #endif
 };

 class ElementDescendantConstIterator {
 public:
     ElementDescendantConstIterator();
     explicit ElementDescendantConstIterator(const Element*);

     ElementDescendantConstIterator& operator++();

     const Element& operator*() const;
     const Element* operator->() const;

     bool operator==(const ElementDescendantConstIterator& other) const;
     bool operator!=(const ElementDescendantConstIterator& other) const;

     void dropAssertions();

 private:
     const Element* m_current;
     Vector<Element*, 16> m_ancestorSiblingStack;

 #if !ASSERT_DISABLED
     ElementIteratorAssertions m_assertions;
 #endif
 };

 class ElementDescendantIteratorAdapter {
 public:
     ElementDescendantIteratorAdapter(ContainerNode& root);
     ElementDescendantIterator begin();
     ElementDescendantIterator end();
     ElementDescendantIterator last();

 private:
     ContainerNode& m_root;
 };

 class ElementDescendantConstIteratorAdapter {
 public:
     ElementDescendantConstIteratorAdapter(const ContainerNode& root);
     ElementDescendantConstIterator begin() const;
     ElementDescendantConstIterator end() const;
     ElementDescendantConstIterator last() const;

 private:
     const ContainerNode& m_root;
 };

 ElementDescendantIteratorAdapter elementDescendants(ContainerNode&);
 ElementDescendantConstIteratorAdapter elementDescendants(const ContainerNode&);

 // ElementDescendantIterator

 inline ElementDescendantIterator::ElementDescendantIterator()
     : m_current(nullptr)
 {
 }

 inline ElementDescendantIterator::ElementDescendantIterator(Element* current)
     : m_current(current)
 #if !ASSERT_DISABLED
     , m_assertions(current)
 #endif
 {
     m_ancestorSiblingStack.uncheckedAppend(nullptr);
 }

 inline void ElementDescendantIterator::dropAssertions()
 {
 #if !ASSERT_DISABLED
     m_assertions.clear();
 #endif
 }

 ALWAYS_INLINE ElementDescendantIterator& ElementDescendantIterator::operator++()
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());

     Element* firstChild = ElementTraversal::firstChild(*m_current);
     Element* nextSibling = ElementTraversal::nextSibling(*m_current);

     if (firstChild) {
         if (nextSibling)
             m_ancestorSiblingStack.append(nextSibling);
         m_current = firstChild;
         return *this;
     }

     if (nextSibling) {
         m_current = nextSibling;
         return *this;
     }

     m_current = m_ancestorSiblingStack.takeLast();

 #if !ASSERT_DISABLED
     // Drop the assertion when the iterator reaches the end.
     if (!m_current)
         m_assertions.dropEventDispatchAssertion();
 #endif

     return *this;
 }

 ALWAYS_INLINE ElementDescendantIterator& ElementDescendantIterator::operator--()
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());

     Element* previousSibling = ElementTraversal::previousSibling(*m_current);

     if (!previousSibling) {
         m_current = m_current->parentElement();
         // The stack optimizes for forward traversal only, this just maintains consistency.
         if (m_current->nextSibling() && m_current->nextSibling() == m_ancestorSiblingStack.last())
             m_ancestorSiblingStack.removeLast();
         return *this;
     }

     Element* deepestSibling = previousSibling;
     while (Element* lastChild = ElementTraversal::lastChild(*deepestSibling))
         deepestSibling = lastChild;
     ASSERT(deepestSibling);

     if (deepestSibling != previousSibling)
         m_ancestorSiblingStack.append(m_current);

     m_current = deepestSibling;

 #if !ASSERT_DISABLED
     // Drop the assertion when the iterator reaches the end.
     if (!m_current)
         m_assertions.dropEventDispatchAssertion();
 #endif

     return *this;
 }

 inline Element& ElementDescendantIterator::operator*()
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());
     return *m_current;
 }

 inline Element* ElementDescendantIterator::operator->()
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());
     return m_current;
 }

 inline bool ElementDescendantIterator::operator==(const ElementDescendantIterator& other) const
 {
     ASSERT(!m_assertions.domTreeHasMutated());
     return m_current == other.m_current;
 }

 inline bool ElementDescendantIterator::operator!=(const ElementDescendantIterator& other) const
 {
     return !(*this == other);
 }

 // ElementDescendantConstIterator

 inline ElementDescendantConstIterator::ElementDescendantConstIterator()
     : m_current(nullptr)
 {
 }

 inline ElementDescendantConstIterator::ElementDescendantConstIterator(const Element* current)
     : m_current(current)
 #if !ASSERT_DISABLED
     , m_assertions(current)
 #endif
 {
     m_ancestorSiblingStack.uncheckedAppend(nullptr);
 }

 inline void ElementDescendantConstIterator::dropAssertions()
 {
 #if !ASSERT_DISABLED
     m_assertions.clear();
 #endif
 }

 ALWAYS_INLINE ElementDescendantConstIterator& ElementDescendantConstIterator::operator++()
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());

     Element* firstChild = ElementTraversal::firstChild(*m_current);
     Element* nextSibling = ElementTraversal::nextSibling(*m_current);

     if (firstChild) {
         if (nextSibling)
             m_ancestorSiblingStack.append(nextSibling);
         m_current = firstChild;
         return *this;
     }

     if (nextSibling) {
         m_current = nextSibling;
         return *this;
     }

     m_current = m_ancestorSiblingStack.takeLast();

 #if !ASSERT_DISABLED
     // Drop the assertion when the iterator reaches the end.
     if (!m_current)
         m_assertions.dropEventDispatchAssertion();
 #endif

     return *this;
 }

 inline const Element& ElementDescendantConstIterator::operator*() const
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());
     return *m_current;
 }

 inline const Element* ElementDescendantConstIterator::operator->() const
 {
     ASSERT(m_current);
     ASSERT(!m_assertions.domTreeHasMutated());
     return m_current;
 }

 inline bool ElementDescendantConstIterator::operator==(const ElementDescendantConstIterator& other) const
 {
     ASSERT(!m_assertions.domTreeHasMutated());
     return m_current == other.m_current;
 }

 inline bool ElementDescendantConstIterator::operator!=(const ElementDescendantConstIterator& other) const
 {
     return !(*this == other);
 }

 // ElementDescendantIteratorAdapter

 inline ElementDescendantIteratorAdapter::ElementDescendantIteratorAdapter(ContainerNode& root)
     : m_root(root)
 {
 }

 inline ElementDescendantIterator ElementDescendantIteratorAdapter::begin()
 {
     return ElementDescendantIterator(ElementTraversal::firstChild(m_root));
 }

 inline ElementDescendantIterator ElementDescendantIteratorAdapter::end()
 {
     return ElementDescendantIterator();
 }

 inline ElementDescendantIterator ElementDescendantIteratorAdapter::last()
 {
     return ElementDescendantIterator(ElementTraversal::lastWithin(m_root));
 }

 // ElementDescendantConstIteratorAdapter

 inline ElementDescendantConstIteratorAdapter::ElementDescendantConstIteratorAdapter(const ContainerNode& root)
     : m_root(root)
 {
 }

 inline ElementDescendantConstIterator ElementDescendantConstIteratorAdapter::begin() const
 {
     return ElementDescendantConstIterator(ElementTraversal::firstChild(m_root));
 }

 inline ElementDescendantConstIterator ElementDescendantConstIteratorAdapter::end() const
 {
     return ElementDescendantConstIterator();
 }

 inline ElementDescendantConstIterator ElementDescendantConstIteratorAdapter::last() const
 {
     return ElementDescendantConstIterator(ElementTraversal::lastWithin(m_root));
 }

 // Standalone functions

 inline ElementDescendantIteratorAdapter elementDescendants(ContainerNode& root)
 {
     return ElementDescendantIteratorAdapter(root);
 }

 inline ElementDescendantConstIteratorAdapter elementDescendants(const ContainerNode& root)
 {
     return ElementDescendantConstIteratorAdapter(root);
 }

 } // namespace WebCore

 namespace std {
 template <> struct iterator_traits<WebCore::ElementDescendantIterator> {
     typedef WebCore::Element value_type;
 };
 template <> struct iterator_traits<WebCore::ElementDescendantConstIterator> {
     typedef const WebCore::Element value_type;
 };
 }
	/*
	* Copyright (C) 2014 Apple Inc. All rights reserved.
	*
	* 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 APPLE INC. ``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 APPLE INC. OR
	* CONTRIBUTORS 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.
	*/

	#pragma once

	#include "Element.h"
	#include "ElementIteratorAssertions.h"
	#include "ElementTraversal.h"
	#include <wtf/Vector.h>

	namespace WebCore {

	class ElementDescendantIterator {
	public:
	ElementDescendantIterator();
	explicit ElementDescendantIterator(Element* current);

	ElementDescendantIterator& operator++();
	ElementDescendantIterator& operator--();

	Element& operator*();
	Element* operator->();

	bool operator==(const ElementDescendantIterator& other) const;
	bool operator!=(const ElementDescendantIterator& other) const;

	void dropAssertions();

	private:
	Element* m_current;
	Vector<Element*, 16> m_ancestorSiblingStack;

	#if !ASSERT_DISABLED
	ElementIteratorAssertions m_assertions;
	#endif
	};

	class ElementDescendantConstIterator {
	public:
	ElementDescendantConstIterator();
	explicit ElementDescendantConstIterator(const Element*);

	ElementDescendantConstIterator& operator++();

	const Element& operator*() const;
	const Element* operator->() const;

	bool operator==(const ElementDescendantConstIterator& other) const;
	bool operator!=(const ElementDescendantConstIterator& other) const;

	void dropAssertions();

	private:
	const Element* m_current;
	Vector<Element*, 16> m_ancestorSiblingStack;

	#if !ASSERT_DISABLED
	ElementIteratorAssertions m_assertions;
	#endif
	};

	class ElementDescendantIteratorAdapter {
	public:
	ElementDescendantIteratorAdapter(ContainerNode& root);
	ElementDescendantIterator begin();
	ElementDescendantIterator end();
	ElementDescendantIterator last();

	private:
	ContainerNode& m_root;
	};

	class ElementDescendantConstIteratorAdapter {
	public:
	ElementDescendantConstIteratorAdapter(const ContainerNode& root);
	ElementDescendantConstIterator begin() const;
	ElementDescendantConstIterator end() const;
	ElementDescendantConstIterator last() const;

	private:
	const ContainerNode& m_root;
	};

	ElementDescendantIteratorAdapter elementDescendants(ContainerNode&);
	ElementDescendantConstIteratorAdapter elementDescendants(const ContainerNode&);

	// ElementDescendantIterator

	inline ElementDescendantIterator::ElementDescendantIterator()
	: m_current(nullptr)
	{
	}

	inline ElementDescendantIterator::ElementDescendantIterator(Element* current)
	: m_current(current)
	#if !ASSERT_DISABLED
	, m_assertions(current)
	#endif
	{
	m_ancestorSiblingStack.uncheckedAppend(nullptr);
	}

	inline void ElementDescendantIterator::dropAssertions()
	{
	#if !ASSERT_DISABLED
	m_assertions.clear();
	#endif
	}

	ALWAYS_INLINE ElementDescendantIterator& ElementDescendantIterator::operator++()
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());

	Element* firstChild = ElementTraversal::firstChild(*m_current);
	Element* nextSibling = ElementTraversal::nextSibling(*m_current);

	if (firstChild) {
	if (nextSibling)
	m_ancestorSiblingStack.append(nextSibling);
	m_current = firstChild;
	return *this;
	}

	if (nextSibling) {
	m_current = nextSibling;
	return *this;
	}

	m_current = m_ancestorSiblingStack.takeLast();

	#if !ASSERT_DISABLED
	// Drop the assertion when the iterator reaches the end.
	if (!m_current)
	m_assertions.dropEventDispatchAssertion();
	#endif

	return *this;
	}

	ALWAYS_INLINE ElementDescendantIterator& ElementDescendantIterator::operator--()
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());

	Element* previousSibling = ElementTraversal::previousSibling(*m_current);

	if (!previousSibling) {
	m_current = m_current->parentElement();
	// The stack optimizes for forward traversal only, this just maintains consistency.
	if (m_current->nextSibling() && m_current->nextSibling() == m_ancestorSiblingStack.last())
	m_ancestorSiblingStack.removeLast();
	return *this;
	}

	Element* deepestSibling = previousSibling;
	while (Element* lastChild = ElementTraversal::lastChild(*deepestSibling))
	deepestSibling = lastChild;
	ASSERT(deepestSibling);

	if (deepestSibling != previousSibling)
	m_ancestorSiblingStack.append(m_current);

	m_current = deepestSibling;

	#if !ASSERT_DISABLED
	// Drop the assertion when the iterator reaches the end.
	if (!m_current)
	m_assertions.dropEventDispatchAssertion();
	#endif

	return *this;
	}

	inline Element& ElementDescendantIterator::operator*()
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());
	return *m_current;
	}

	inline Element* ElementDescendantIterator::operator->()
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());
	return m_current;
	}

	inline bool ElementDescendantIterator::operator==(const ElementDescendantIterator& other) const
	{
	ASSERT(!m_assertions.domTreeHasMutated());
	return m_current == other.m_current;
	}

	inline bool ElementDescendantIterator::operator!=(const ElementDescendantIterator& other) const
	{
	return !(*this == other);
	}

	// ElementDescendantConstIterator

	inline ElementDescendantConstIterator::ElementDescendantConstIterator()
	: m_current(nullptr)
	{
	}

	inline ElementDescendantConstIterator::ElementDescendantConstIterator(const Element* current)
	: m_current(current)
	#if !ASSERT_DISABLED
	, m_assertions(current)
	#endif
	{
	m_ancestorSiblingStack.uncheckedAppend(nullptr);
	}

	inline void ElementDescendantConstIterator::dropAssertions()
	{
	#if !ASSERT_DISABLED
	m_assertions.clear();
	#endif
	}

	ALWAYS_INLINE ElementDescendantConstIterator& ElementDescendantConstIterator::operator++()
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());

	Element* firstChild = ElementTraversal::firstChild(*m_current);
	Element* nextSibling = ElementTraversal::nextSibling(*m_current);

	if (firstChild) {
	if (nextSibling)
	m_ancestorSiblingStack.append(nextSibling);
	m_current = firstChild;
	return *this;
	}

	if (nextSibling) {
	m_current = nextSibling;
	return *this;
	}

	m_current = m_ancestorSiblingStack.takeLast();

	#if !ASSERT_DISABLED
	// Drop the assertion when the iterator reaches the end.
	if (!m_current)
	m_assertions.dropEventDispatchAssertion();
	#endif

	return *this;
	}

	inline const Element& ElementDescendantConstIterator::operator*() const
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());
	return *m_current;
	}

	inline const Element* ElementDescendantConstIterator::operator->() const
	{
	ASSERT(m_current);
	ASSERT(!m_assertions.domTreeHasMutated());
	return m_current;
	}

	inline bool ElementDescendantConstIterator::operator==(const ElementDescendantConstIterator& other) const
	{
	ASSERT(!m_assertions.domTreeHasMutated());
	return m_current == other.m_current;
	}

	inline bool ElementDescendantConstIterator::operator!=(const ElementDescendantConstIterator& other) const
	{
	return !(*this == other);
	}

	// ElementDescendantIteratorAdapter

	inline ElementDescendantIteratorAdapter::ElementDescendantIteratorAdapter(ContainerNode& root)
	: m_root(root)
	{
	}

	inline ElementDescendantIterator ElementDescendantIteratorAdapter::begin()
	{
	return ElementDescendantIterator(ElementTraversal::firstChild(m_root));
	}

	inline ElementDescendantIterator ElementDescendantIteratorAdapter::end()
	{
	return ElementDescendantIterator();
	}

	inline ElementDescendantIterator ElementDescendantIteratorAdapter::last()
	{
	return ElementDescendantIterator(ElementTraversal::lastWithin(m_root));
	}

	// ElementDescendantConstIteratorAdapter

	inline ElementDescendantConstIteratorAdapter::ElementDescendantConstIteratorAdapter(const ContainerNode& root)
	: m_root(root)
	{
	}

	inline ElementDescendantConstIterator ElementDescendantConstIteratorAdapter::begin() const
	{
	return ElementDescendantConstIterator(ElementTraversal::firstChild(m_root));
	}

	inline ElementDescendantConstIterator ElementDescendantConstIteratorAdapter::end() const
	{
	return ElementDescendantConstIterator();
	}

	inline ElementDescendantConstIterator ElementDescendantConstIteratorAdapter::last() const
	{
	return ElementDescendantConstIterator(ElementTraversal::lastWithin(m_root));
	}

	// Standalone functions

	inline ElementDescendantIteratorAdapter elementDescendants(ContainerNode& root)
	{
	return ElementDescendantIteratorAdapter(root);
	}

	inline ElementDescendantConstIteratorAdapter elementDescendants(const ContainerNode& root)
	{
	return ElementDescendantConstIteratorAdapter(root);
	}

	} // namespace WebCore

	namespace std {
	template <> struct iterator_traits<WebCore::ElementDescendantIterator> {
	typedef WebCore::Element value_type;
	};
	template <> struct iterator_traits<WebCore::ElementDescendantConstIterator> {
	typedef const WebCore::Element value_type;
	};
	}