xfa/fxfa/layout/cxfa_layoutpagemgr.h - pdfium - Git at Google

 // Copyright 2014 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_LAYOUT_CXFA_LAYOUTPAGEMGR_H_
 #define XFA_FXFA_LAYOUT_CXFA_LAYOUTPAGEMGR_H_

 #include <iterator>
 #include <list>
 #include <map>
 #include <vector>

 #include "xfa/fxfa/layout/cxfa_itemlayoutprocessor.h"

 class CXFA_ContainerRecord;
 class CXFA_LayoutItem;
 class CXFA_Node;

 class CXFA_LayoutPageMgr {
  public:
   explicit CXFA_LayoutPageMgr(CXFA_LayoutProcessor* pLayoutProcessor);
   ~CXFA_LayoutPageMgr();

   bool InitLayoutPage(CXFA_Node* pFormNode);
   bool PrepareFirstPage(CXFA_Node* pRootSubform);
   float GetAvailHeight();
   bool GetNextAvailContentHeight(float fChildHeight);
   void SubmitContentItem(CXFA_ContentLayoutItem* pContentLayoutItem,
                          CXFA_ItemLayoutProcessor::Result eStatus);
   void FinishPaginatedPageSets();
   void SyncLayoutData();
   int32_t GetPageCount() const;
   CXFA_ContainerLayoutItem* GetPage(int32_t index) const;
   int32_t GetPageIndex(const CXFA_ContainerLayoutItem* pPage) const;
   inline CXFA_ContainerLayoutItem* GetRootLayoutItem() const {
     return m_pPageSetLayoutItemRoot;
   }
   bool ProcessBreakBeforeOrAfter(CXFA_Node* pBreakNode,
                                  bool bBefore,
                                  CXFA_Node*& pBreakLeaderNode,
                                  CXFA_Node*& pBreakTrailerNode,
                                  bool* pCreatePage);
   bool ProcessOverflow(CXFA_Node* pFormNode,
                        CXFA_Node*& pLeaderNode,
                        CXFA_Node*& pTrailerNode,
                        bool bCreatePage);
   CXFA_Node* QueryOverflow(CXFA_Node* pFormNode);
   CXFA_Node* ProcessBookendLeader(const CXFA_Node* pBookendNode);
   CXFA_Node* ProcessBookendTrailer(const CXFA_Node* pBookendNode);

  private:
   bool AppendNewPage(bool bFirstTemPage);
   void ReorderPendingLayoutRecordToTail(CXFA_ContainerRecord* pNewRecord,
                                         CXFA_ContainerRecord* pPrevRecord);
   void RemoveLayoutRecord(CXFA_ContainerRecord* pNewRecord,
                           CXFA_ContainerRecord* pPrevRecord);
   CXFA_ContainerRecord* GetCurrentContainerRecord() {
     return *m_CurrentContainerRecordIter;
   }
   std::list<CXFA_ContainerRecord*>::iterator GetTailPosition() {
     auto iter = m_ProposedContainerRecords.end();
     return !m_ProposedContainerRecords.empty() ? std::prev(iter) : iter;
   }
   CXFA_ContainerRecord* CreateContainerRecord(CXFA_Node* pPageNode,
                                               bool bCreateNew);
   void AddPageAreaLayoutItem(CXFA_ContainerRecord* pNewRecord,
                              CXFA_Node* pNewPageArea);
   void AddContentAreaLayoutItem(CXFA_ContainerRecord* pNewRecord,
                                 CXFA_Node* pContentArea);
   bool RunBreak(XFA_Element eBreakType,
                 XFA_AttributeValue eTargetType,
                 CXFA_Node* pTarget,
                 bool bStartNew);
   CXFA_Node* BreakOverflow(CXFA_Node* pOverflowNode,
                            CXFA_Node*& pLeaderTemplate,
                            CXFA_Node*& pTrailerTemplate,
                            bool bCreatePage);
   CXFA_Node* ProcessBookendLeaderOrTrailer(const CXFA_Node* pBookendNode,
                                            bool bLeader);
   CXFA_Node* ResolveBookendLeaderOrTrailer(const CXFA_Node* pBookendNode,
                                            bool bLeader);
   bool ExecuteBreakBeforeOrAfter(CXFA_Node* pCurNode,
                                  bool bBefore,
                                  CXFA_Node*& pBreakLeaderTemplate,
                                  CXFA_Node*& pBreakTrailerTemplate);

   int32_t CreateMinPageRecord(CXFA_Node* pPageArea,
                               bool bTargetPageArea,
                               bool bCreateLast);
   void CreateMinPageSetRecord(CXFA_Node* pPageSet, bool bCreateAll);
   void CreateNextMinRecord(CXFA_Node* pRecordNode);
   bool FindPageAreaFromPageSet(CXFA_Node* pPageSet,
                                CXFA_Node* pStartChild,
                                CXFA_Node* pTargetPageArea,
                                CXFA_Node* pTargetContentArea,
                                bool bNewPage,
                                bool bQuery);
   bool FindPageAreaFromPageSet_Ordered(CXFA_Node* pPageSet,
                                        CXFA_Node* pStartChild,
                                        CXFA_Node* pTargetPageArea,
                                        CXFA_Node* pTargetContentArea,
                                        bool bNewPage,
                                        bool bQuery);
   bool FindPageAreaFromPageSet_SimplexDuplex(
       CXFA_Node* pPageSet,
       CXFA_Node* pStartChild,
       CXFA_Node* pTargetPageArea,
       CXFA_Node* pTargetContentArea,
       bool bNewPage,
       bool bQuery,
       XFA_AttributeValue ePreferredPosition);
   bool MatchPageAreaOddOrEven(CXFA_Node* pPageArea);
   CXFA_Node* GetNextAvailPageArea(CXFA_Node* pTargetPageArea,
                                   CXFA_Node* pTargetContentArea,
                                   bool bNewPage,
                                   bool bQuery);
   bool GetNextContentArea(CXFA_Node* pTargetContentArea);
   void InitPageSetMap();
   void ProcessLastPageSet();
   bool IsPageSetRootOrderedOccurrence() const {
     return m_ePageSetMode == XFA_AttributeValue::OrderedOccurrence;
   }
   void ClearData();
   void MergePageSetContents();
   void LayoutPageSetContents();
   void PrepareLayout();
   void SaveLayoutItem(CXFA_LayoutItem* pParentLayoutItem);
   void ProcessSimplexOrDuplexPageSets(
       CXFA_ContainerLayoutItem* pPageSetLayoutItem,
       bool bIsSimplex);

   CXFA_LayoutProcessor* m_pLayoutProcessor;
   CXFA_Node* m_pTemplatePageSetRoot;
   CXFA_ContainerLayoutItem* m_pPageSetLayoutItemRoot;
   CXFA_ContainerLayoutItem* m_pPageSetCurRoot;
   std::list<CXFA_ContainerRecord*> m_ProposedContainerRecords;
   std::list<CXFA_ContainerRecord*>::iterator m_CurrentContainerRecordIter;
   CXFA_Node* m_pCurPageArea;
   int32_t m_nAvailPages;
   int32_t m_nCurPageCount;
   XFA_AttributeValue m_ePageSetMode;
   bool m_bCreateOverFlowPage;
   std::map<CXFA_Node*, int32_t> m_pPageSetMap;
   std::vector<CXFA_ContainerLayoutItem*> m_PageArray;
 };

 #endif  // XFA_FXFA_LAYOUT_CXFA_LAYOUTPAGEMGR_H_
	// Copyright 2014 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_LAYOUT_CXFA_LAYOUTPAGEMGR_H_
	#define XFA_FXFA_LAYOUT_CXFA_LAYOUTPAGEMGR_H_

	#include <iterator>
	#include <list>
	#include <map>
	#include <vector>

	#include "xfa/fxfa/layout/cxfa_itemlayoutprocessor.h"

	class CXFA_ContainerRecord;
	class CXFA_LayoutItem;
	class CXFA_Node;

	class CXFA_LayoutPageMgr {
	public:
	explicit CXFA_LayoutPageMgr(CXFA_LayoutProcessor* pLayoutProcessor);
	~CXFA_LayoutPageMgr();

	bool InitLayoutPage(CXFA_Node* pFormNode);
	bool PrepareFirstPage(CXFA_Node* pRootSubform);
	float GetAvailHeight();
	bool GetNextAvailContentHeight(float fChildHeight);
	void SubmitContentItem(CXFA_ContentLayoutItem* pContentLayoutItem,
	CXFA_ItemLayoutProcessor::Result eStatus);
	void FinishPaginatedPageSets();
	void SyncLayoutData();
	int32_t GetPageCount() const;
	CXFA_ContainerLayoutItem* GetPage(int32_t index) const;
	int32_t GetPageIndex(const CXFA_ContainerLayoutItem* pPage) const;
	inline CXFA_ContainerLayoutItem* GetRootLayoutItem() const {
	return m_pPageSetLayoutItemRoot;
	}
	bool ProcessBreakBeforeOrAfter(CXFA_Node* pBreakNode,
	bool bBefore,
	CXFA_Node*& pBreakLeaderNode,
	CXFA_Node*& pBreakTrailerNode,
	bool* pCreatePage);
	bool ProcessOverflow(CXFA_Node* pFormNode,
	CXFA_Node*& pLeaderNode,
	CXFA_Node*& pTrailerNode,
	bool bCreatePage);
	CXFA_Node* QueryOverflow(CXFA_Node* pFormNode);
	CXFA_Node* ProcessBookendLeader(const CXFA_Node* pBookendNode);
	CXFA_Node* ProcessBookendTrailer(const CXFA_Node* pBookendNode);

	private:
	bool AppendNewPage(bool bFirstTemPage);
	void ReorderPendingLayoutRecordToTail(CXFA_ContainerRecord* pNewRecord,
	CXFA_ContainerRecord* pPrevRecord);
	void RemoveLayoutRecord(CXFA_ContainerRecord* pNewRecord,
	CXFA_ContainerRecord* pPrevRecord);
	CXFA_ContainerRecord* GetCurrentContainerRecord() {
	return *m_CurrentContainerRecordIter;
	}
	std::list<CXFA_ContainerRecord*>::iterator GetTailPosition() {
	auto iter = m_ProposedContainerRecords.end();
	return !m_ProposedContainerRecords.empty() ? std::prev(iter) : iter;
	}
	CXFA_ContainerRecord* CreateContainerRecord(CXFA_Node* pPageNode,
	bool bCreateNew);
	void AddPageAreaLayoutItem(CXFA_ContainerRecord* pNewRecord,
	CXFA_Node* pNewPageArea);
	void AddContentAreaLayoutItem(CXFA_ContainerRecord* pNewRecord,
	CXFA_Node* pContentArea);
	bool RunBreak(XFA_Element eBreakType,
	XFA_AttributeValue eTargetType,
	CXFA_Node* pTarget,
	bool bStartNew);
	CXFA_Node* BreakOverflow(CXFA_Node* pOverflowNode,
	CXFA_Node*& pLeaderTemplate,
	CXFA_Node*& pTrailerTemplate,
	bool bCreatePage);
	CXFA_Node* ProcessBookendLeaderOrTrailer(const CXFA_Node* pBookendNode,
	bool bLeader);
	CXFA_Node* ResolveBookendLeaderOrTrailer(const CXFA_Node* pBookendNode,
	bool bLeader);
	bool ExecuteBreakBeforeOrAfter(CXFA_Node* pCurNode,
	bool bBefore,
	CXFA_Node*& pBreakLeaderTemplate,
	CXFA_Node*& pBreakTrailerTemplate);

	int32_t CreateMinPageRecord(CXFA_Node* pPageArea,
	bool bTargetPageArea,
	bool bCreateLast);
	void CreateMinPageSetRecord(CXFA_Node* pPageSet, bool bCreateAll);
	void CreateNextMinRecord(CXFA_Node* pRecordNode);
	bool FindPageAreaFromPageSet(CXFA_Node* pPageSet,
	CXFA_Node* pStartChild,
	CXFA_Node* pTargetPageArea,
	CXFA_Node* pTargetContentArea,
	bool bNewPage,
	bool bQuery);
	bool FindPageAreaFromPageSet_Ordered(CXFA_Node* pPageSet,
	CXFA_Node* pStartChild,
	CXFA_Node* pTargetPageArea,
	CXFA_Node* pTargetContentArea,
	bool bNewPage,
	bool bQuery);
	bool FindPageAreaFromPageSet_SimplexDuplex(
	CXFA_Node* pPageSet,
	CXFA_Node* pStartChild,
	CXFA_Node* pTargetPageArea,
	CXFA_Node* pTargetContentArea,
	bool bNewPage,
	bool bQuery,
	XFA_AttributeValue ePreferredPosition);
	bool MatchPageAreaOddOrEven(CXFA_Node* pPageArea);
	CXFA_Node* GetNextAvailPageArea(CXFA_Node* pTargetPageArea,
	CXFA_Node* pTargetContentArea,
	bool bNewPage,
	bool bQuery);
	bool GetNextContentArea(CXFA_Node* pTargetContentArea);
	void InitPageSetMap();
	void ProcessLastPageSet();
	bool IsPageSetRootOrderedOccurrence() const {
	return m_ePageSetMode == XFA_AttributeValue::OrderedOccurrence;
	}
	void ClearData();
	void MergePageSetContents();
	void LayoutPageSetContents();
	void PrepareLayout();
	void SaveLayoutItem(CXFA_LayoutItem* pParentLayoutItem);
	void ProcessSimplexOrDuplexPageSets(
	CXFA_ContainerLayoutItem* pPageSetLayoutItem,
	bool bIsSimplex);

	CXFA_LayoutProcessor* m_pLayoutProcessor;
	CXFA_Node* m_pTemplatePageSetRoot;
	CXFA_ContainerLayoutItem* m_pPageSetLayoutItemRoot;
	CXFA_ContainerLayoutItem* m_pPageSetCurRoot;
	std::list<CXFA_ContainerRecord*> m_ProposedContainerRecords;
	std::list<CXFA_ContainerRecord*>::iterator m_CurrentContainerRecordIter;
	CXFA_Node* m_pCurPageArea;
	int32_t m_nAvailPages;
	int32_t m_nCurPageCount;
	XFA_AttributeValue m_ePageSetMode;
	bool m_bCreateOverFlowPage;
	std::map<CXFA_Node*, int32_t> m_pPageSetMap;
	std::vector<CXFA_ContainerLayoutItem*> m_PageArray;
	};

	#endif // XFA_FXFA_LAYOUT_CXFA_LAYOUTPAGEMGR_H_