xfa/fxfa/parser/cxfa_nodeiteratortemplate.h - pdfium - Git at Google

 // Copyright 2017 PDFium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com

 #ifndef XFA_FXFA_PARSER_CXFA_NODEITERATORTEMPLATE_H_
 #define XFA_FXFA_PARSER_CXFA_NODEITERATORTEMPLATE_H_

 #include "core/fxcrt/unowned_ptr.h"
 #include "v8/include/cppgc/macros.h"

 template <class NodeType,
           class TraverseStrategy,
           typename HolderType = UnownedPtr<NodeType>>
 class CXFA_NodeIteratorTemplate {
   CPPGC_STACK_ALLOCATED();  // Allows Raw/Unowned |HolderType|.

  public:
   explicit CXFA_NodeIteratorTemplate(NodeType* pRoot)
       : m_pRoot(pRoot), m_pCurrent(pRoot) {}

   NodeType* GetRoot() const { return static_cast<NodeType*>(m_pRoot); }
   NodeType* GetCurrent() const { return static_cast<NodeType*>(m_pCurrent); }

   void Reset() { m_pCurrent = m_pRoot; }
   bool SetCurrent(NodeType* pNode) {
     if (!RootReachableFromNode(pNode)) {
       m_pCurrent = nullptr;
       return false;
     }
     m_pCurrent = pNode;
     return true;
   }

   NodeType* MoveToPrev() {
     if (!m_pRoot)
       return nullptr;
     if (!m_pCurrent) {
       m_pCurrent = LastDescendant(static_cast<NodeType*>(m_pRoot));
       return static_cast<NodeType*>(m_pCurrent);
     }
     NodeType* pSibling =
         PreviousSiblingWithinSubtree(static_cast<NodeType*>(m_pCurrent));
     if (pSibling) {
       m_pCurrent = LastDescendant(pSibling);
       return static_cast<NodeType*>(m_pCurrent);
     }
     NodeType* pParent = ParentWithinSubtree(static_cast<NodeType*>(m_pCurrent));
     if (pParent)
       m_pCurrent = pParent;
     return pParent;
   }

   NodeType* MoveToNext() {
     if (!m_pRoot || !m_pCurrent)
       return nullptr;
     NodeType* pChild =
         TraverseStrategy::GetFirstChild(static_cast<NodeType*>(m_pCurrent));
     if (pChild) {
       m_pCurrent = pChild;
       return pChild;
     }
     return SkipChildrenAndMoveToNext();
   }

   NodeType* SkipChildrenAndMoveToNext() {
     if (!m_pRoot)
       return nullptr;
     NodeType* pNode = static_cast<NodeType*>(m_pCurrent);
     while (pNode) {
       NodeType* pSibling = NextSiblingWithinSubtree(pNode);
       if (pSibling) {
         m_pCurrent = pSibling;
         return pSibling;
       }
       pNode = ParentWithinSubtree(pNode);
     }
     m_pCurrent = nullptr;
     return nullptr;
   }

  private:
   bool RootReachableFromNode(NodeType* pNode) {
     return pNode && (pNode == m_pRoot ||
                      RootReachableFromNode(TraverseStrategy::GetParent(pNode)));
   }

   NodeType* ParentWithinSubtree(NodeType* pNode) {
     return pNode && pNode != m_pRoot ? TraverseStrategy::GetParent(pNode)
                                      : nullptr;
   }

   NodeType* NextSiblingWithinSubtree(NodeType* pNode) {
     return pNode != m_pRoot ? TraverseStrategy::GetNextSibling(pNode) : nullptr;
   }

   NodeType* PreviousSiblingWithinSubtree(NodeType* pNode) {
     NodeType* pParent = ParentWithinSubtree(pNode);
     if (!pParent)
       return nullptr;
     NodeType* pCurrent = TraverseStrategy::GetFirstChild(pParent);
     NodeType* pPrevious = nullptr;
     while (pCurrent != pNode) {
       pPrevious = pCurrent;
       pCurrent = TraverseStrategy::GetNextSibling(pCurrent);
     }
     return pPrevious;
   }

   NodeType* LastChild(NodeType* pNode) {
     NodeType* pPrevious = nullptr;
     NodeType* pChild = TraverseStrategy::GetFirstChild(pNode);
     while (pChild) {
       pPrevious = pChild;
       pChild = NextSiblingWithinSubtree(pChild);
     }
     return pPrevious;
   }

   NodeType* LastDescendant(NodeType* pNode) {
     NodeType* pChild = LastChild(pNode);
     return pChild ? LastDescendant(pChild) : pNode;
   }

   HolderType m_pRoot;
   HolderType m_pCurrent;
 };

 #endif  // XFA_FXFA_PARSER_CXFA_NODEITERATORTEMPLATE_H_
	// Copyright 2017 PDFium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com

	#ifndef XFA_FXFA_PARSER_CXFA_NODEITERATORTEMPLATE_H_
	#define XFA_FXFA_PARSER_CXFA_NODEITERATORTEMPLATE_H_

	#include "core/fxcrt/unowned_ptr.h"
	#include "v8/include/cppgc/macros.h"

	template <class NodeType,
	class TraverseStrategy,
	typename HolderType = UnownedPtr<NodeType>>
	class CXFA_NodeIteratorTemplate {
	CPPGC_STACK_ALLOCATED(); // Allows Raw/Unowned \|HolderType\|.

	public:
	explicit CXFA_NodeIteratorTemplate(NodeType* pRoot)
	: m_pRoot(pRoot), m_pCurrent(pRoot) {}

	NodeType* GetRoot() const { return static_cast<NodeType*>(m_pRoot); }
	NodeType* GetCurrent() const { return static_cast<NodeType*>(m_pCurrent); }

	void Reset() { m_pCurrent = m_pRoot; }
	bool SetCurrent(NodeType* pNode) {
	if (!RootReachableFromNode(pNode)) {
	m_pCurrent = nullptr;
	return false;
	}
	m_pCurrent = pNode;
	return true;
	}

	NodeType* MoveToPrev() {
	if (!m_pRoot)
	return nullptr;
	if (!m_pCurrent) {
	m_pCurrent = LastDescendant(static_cast<NodeType*>(m_pRoot));
	return static_cast<NodeType*>(m_pCurrent);
	}
	NodeType* pSibling =
	PreviousSiblingWithinSubtree(static_cast<NodeType*>(m_pCurrent));
	if (pSibling) {
	m_pCurrent = LastDescendant(pSibling);
	return static_cast<NodeType*>(m_pCurrent);
	}
	NodeType* pParent = ParentWithinSubtree(static_cast<NodeType*>(m_pCurrent));
	if (pParent)
	m_pCurrent = pParent;
	return pParent;
	}

	NodeType* MoveToNext() {
	if (!m_pRoot \|\| !m_pCurrent)
	return nullptr;
	NodeType* pChild =
	TraverseStrategy::GetFirstChild(static_cast<NodeType*>(m_pCurrent));
	if (pChild) {
	m_pCurrent = pChild;
	return pChild;
	}
	return SkipChildrenAndMoveToNext();
	}

	NodeType* SkipChildrenAndMoveToNext() {
	if (!m_pRoot)
	return nullptr;
	NodeType* pNode = static_cast<NodeType*>(m_pCurrent);
	while (pNode) {
	NodeType* pSibling = NextSiblingWithinSubtree(pNode);
	if (pSibling) {
	m_pCurrent = pSibling;
	return pSibling;
	}
	pNode = ParentWithinSubtree(pNode);
	}
	m_pCurrent = nullptr;
	return nullptr;
	}

	private:
	bool RootReachableFromNode(NodeType* pNode) {
	return pNode && (pNode == m_pRoot \|\|
	RootReachableFromNode(TraverseStrategy::GetParent(pNode)));
	}

	NodeType* ParentWithinSubtree(NodeType* pNode) {
	return pNode && pNode != m_pRoot ? TraverseStrategy::GetParent(pNode)
	: nullptr;
	}

	NodeType* NextSiblingWithinSubtree(NodeType* pNode) {
	return pNode != m_pRoot ? TraverseStrategy::GetNextSibling(pNode) : nullptr;
	}

	NodeType* PreviousSiblingWithinSubtree(NodeType* pNode) {
	NodeType* pParent = ParentWithinSubtree(pNode);
	if (!pParent)
	return nullptr;
	NodeType* pCurrent = TraverseStrategy::GetFirstChild(pParent);
	NodeType* pPrevious = nullptr;
	while (pCurrent != pNode) {
	pPrevious = pCurrent;
	pCurrent = TraverseStrategy::GetNextSibling(pCurrent);
	}
	return pPrevious;
	}

	NodeType* LastChild(NodeType* pNode) {
	NodeType* pPrevious = nullptr;
	NodeType* pChild = TraverseStrategy::GetFirstChild(pNode);
	while (pChild) {
	pPrevious = pChild;
	pChild = NextSiblingWithinSubtree(pChild);
	}
	return pPrevious;
	}

	NodeType* LastDescendant(NodeType* pNode) {
	NodeType* pChild = LastChild(pNode);
	return pChild ? LastDescendant(pChild) : pNode;
	}

	HolderType m_pRoot;
	HolderType m_pCurrent;
	};

	#endif // XFA_FXFA_PARSER_CXFA_NODEITERATORTEMPLATE_H_