/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #ifndef INCLUDED_SW_INC_SWTABLE_HXX #define INCLUDED_SW_INC_SWTABLE_HXX #include #include "tblenum.hxx" #include "swtypes.hxx" #include "calbck.hxx" #include "swrect.hxx" #include "swtblfmt.hxx" #include "docary.hxx" #include "nodeoffset.hxx" #include #include #include #include #include class SwStartNode; class SwFormat; class Color; class SwHTMLTableLayout; class SwTableLine; class SwTableBox; class SwTableNode; class SwTabCols; class SwDoc; class SwSelBoxes; class SwTableCalcPara; struct SwPosition; class SwNodeIndex; class SwNode; class SfxPoolItem; class SwUndoTableMerge; class SwUndo; class SwPaM; class SwUndoTableCpyTable; class SwBoxSelection; struct SwSaveRowSpan; struct Parm; class SwServerObject; void sw_GetTableBoxColStr( sal_uInt16 nCol, OUString& rNm ); class SwTableLines { std::vector m_vLines; public: typedef std::vector::size_type size_type; typedef std::vector::iterator iterator; typedef std::vector::const_iterator const_iterator; // free's any remaining child objects ~SwTableLines(); bool empty() const { return m_vLines.empty(); } size_type size() const { return m_vLines.size(); } iterator begin() { return m_vLines.begin(); } const_iterator begin() const { return m_vLines.begin(); } iterator end() { return m_vLines.end(); } const_iterator end() const { return m_vLines.end(); } SwTableLine* front() const { return m_vLines.front(); } SwTableLine* back() const { return m_vLines.back(); } void clear() { m_vLines.clear(); } iterator erase( iterator aIt ) { return m_vLines.erase( aIt ); } iterator erase( iterator aFirst, iterator aLast ) { return m_vLines.erase( aFirst, aLast ); } iterator insert( iterator aIt, SwTableLine* pLine ) { return m_vLines.insert( aIt, pLine ); } template void insert( iterator aIt, TInputIterator aFirst, TInputIterator aLast ) { m_vLines.insert( aIt, aFirst, aLast ); } void push_back( SwTableLine* pLine ) { m_vLines.push_back( pLine ); } void reserve( size_type nSize ) { m_vLines.reserve( nSize ); } SwTableLine*& operator[]( size_type nPos ) { return m_vLines[ nPos ]; } SwTableLine* operator[]( size_type nPos ) const { return m_vLines[ nPos ]; } // return USHRT_MAX if not found, else index of position sal_uInt16 GetPos(const SwTableLine* pBox) const { const_iterator it = std::find(begin(), end(), pBox); return it == end() ? USHRT_MAX : it - begin(); } }; using SwTableBoxes = std::vector; // Save content-bearing box-pointers additionally in a sorted array // (for calculation in table). class SwTableSortBoxes : public o3tl::sorted_vector {}; /// SwTable is one table in the document model, containing rows (which contain cells). class SW_DLLPUBLIC SwTable: public SwClient //Client of FrameFormat. { protected: SwTableLines m_aLines; SwTableSortBoxes m_TabSortContentBoxes; tools::SvRef m_xRefObj; // In case DataServer -> pointer is set. std::shared_ptr m_xHTMLLayout; // Usually, the table node of a SwTable can be accessed by getting a box // out of m_TabSortContentBoxes, which know their SwStartNode. But in some rare // cases, we need to know the table node of a SwTable, before the table // boxes have been build (SwTableNode::MakeCopy with tables in tables). SwTableNode* m_pTableNode; // Should that be adjustable for every table? TableChgMode m_eTableChgMode; sal_uInt16 m_nGraphicsThatResize; // Count of Grfs that initiate a resize of table // at HTML-import. sal_uInt16 m_nRowsToRepeat; // Number of rows to repeat on every page. /// Name of the table style to be applied on this table. OUString maTableStyleName; bool m_bModifyLocked :1; bool m_bNewModel :1; // false: old SubTableModel; true: new RowSpanModel virtual void SwClientNotify(const SwModify&, const SfxHint&) override; public: enum SearchType { SEARCH_NONE, // Default: expand to rectangle SEARCH_ROW, // row selection SEARCH_COL // column selection }; explicit SwTable(); virtual ~SwTable() override; // @@@ public copy ctor, but no copy assignment? SwTable( const SwTable& rTable ); // no copy of the lines !! virtual const SwTable* DynCastTable() const override { return this; } private: // @@@ public copy ctor, but no copy assignment? SwTable & operator= (const SwTable &) = delete; bool OldMerge( SwDoc*, const SwSelBoxes&, SwTableBox*, SwUndoTableMerge* ); bool OldSplitRow( SwDoc&, const SwSelBoxes&, sal_uInt16, bool ); bool NewMerge( SwDoc*, const SwSelBoxes&, const SwSelBoxes& rMerged, SwUndoTableMerge* ); bool NewSplitRow( SwDoc&, const SwSelBoxes&, sal_uInt16, bool ); std::optional CollectBoxSelection( const SwPaM& rPam ) const; void InsertSpannedRow( SwDoc& rDoc, sal_uInt16 nIdx, sal_uInt16 nCnt ); bool InsertRow_( SwDoc*, const SwSelBoxes&, sal_uInt16 nCnt, bool bBehind ); bool NewInsertCol( SwDoc&, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, bool ); void FindSuperfluousRows_( SwSelBoxes& rBoxes, SwTableLine*, SwTableLine* ); void AdjustWidths( const tools::Long nOld, const tools::Long nNew ); void NewSetTabCols( Parm &rP, const SwTabCols &rNew, const SwTabCols &rOld, const SwTableBox *pStart, bool bCurRowOnly ); void ConvertSubtableBox(sal_uInt16 const nRow, sal_uInt16 const nBox); public: SwHTMLTableLayout *GetHTMLTableLayout() { return m_xHTMLLayout.get(); } const SwHTMLTableLayout *GetHTMLTableLayout() const { return m_xHTMLLayout.get(); } void SetHTMLTableLayout(std::shared_ptr const& r); //Change of property! sal_uInt16 IncGrfsThatResize() { return ++m_nGraphicsThatResize; } sal_uInt16 DecGrfsThatResize() { return m_nGraphicsThatResize ? --m_nGraphicsThatResize : 0; } void LockModify() { m_bModifyLocked = true; } // Must be used always void UnlockModify() { m_bModifyLocked = false;} // in pairs! void SetTableModel( bool bNew ){ m_bNewModel = bNew; } bool IsNewModel() const { return m_bNewModel; } /// Return the table style name of this table. const OUString& GetTableStyleName() const { return maTableStyleName; } /// Set the new table style name for this table. void SetTableStyleName(const OUString& rName) { maTableStyleName = rName; } sal_uInt16 GetRowsToRepeat() const { return std::min( o3tl::narrowing(GetTabLines().size()), m_nRowsToRepeat ); } void SetRowsToRepeat( sal_uInt16 nNumOfRows ) { m_nRowsToRepeat = nNumOfRows; } bool IsHeadline( const SwTableLine& rLine ) const; SwTableLines &GetTabLines() { return m_aLines; } const SwTableLines &GetTabLines() const { return m_aLines; } SwTableFormat* GetFrameFormat() { return static_cast(GetRegisteredIn()); } SwTableFormat* GetFrameFormat() const { return const_cast(static_cast(GetRegisteredIn())); } void GetTabCols( SwTabCols &rToFill, const SwTableBox *pStart, bool bHidden = false, bool bCurRowOnly = false ) const; void SetTabCols( const SwTabCols &rNew, const SwTabCols &rOld, const SwTableBox *pStart, bool bCurRowOnly ); // The following functions are for new table model only... void CreateSelection( const SwPaM& rPam, SwSelBoxes& rBoxes, const SearchType eSearchType, bool bProtect ) const; void CreateSelection( const SwNode* pStart, const SwNode* pEnd, SwSelBoxes& rBoxes, const SearchType eSearchType, bool bProtect ) const; void ExpandSelection( SwSelBoxes& rBoxes ) const; // When a table is split into two tables, the row spans which overlaps // the split have to be corrected and stored for undo // SwSavRowSpan is the structure needed by Undo to undo the split operation // CleanUpRowSpan corrects the (top of the) second table and delivers the structure // for Undo std::unique_ptr CleanUpTopRowSpan( sal_uInt16 nSplitLine ); // RestoreRowSpan is called by Undo to restore the old row span values void RestoreRowSpan( const SwSaveRowSpan& ); // CleanUpBottomRowSpan corrects the overhanging row spans at the end of the first table void CleanUpBottomRowSpan( sal_uInt16 nDelLines ); // The following functions are "pseudo-virtual", i.e. they are different for old and new table model // It's not allowed to change the table model after the first call of one of these functions. bool Merge( SwDoc* pDoc, const SwSelBoxes& rBoxes, const SwSelBoxes& rMerged, SwTableBox* pMergeBox, SwUndoTableMerge* pUndo ) { return m_bNewModel ? NewMerge( pDoc, rBoxes, rMerged, pUndo ) : OldMerge( pDoc, rBoxes, pMergeBox, pUndo ); } bool SplitRow( SwDoc& rDoc, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, bool bSameHeight ) { return m_bNewModel ? NewSplitRow( rDoc, rBoxes, nCnt, bSameHeight ) : OldSplitRow( rDoc, rBoxes, nCnt, bSameHeight ); } bool PrepareMerge( const SwPaM& rPam, SwSelBoxes& rBoxes, SwSelBoxes& rMerged, SwTableBox** ppMergeBox, SwUndoTableMerge* pUndo ); void ExpandColumnSelection( SwSelBoxes& rBoxes, tools::Long &rMin, tools::Long &rMax ) const; void PrepareDeleteCol( tools::Long nMin, tools::Long nMax ); bool InsertCol( SwDoc&, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, bool bBehind ); bool InsertRow( SwDoc*, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, bool bBehind ); void PrepareDelBoxes( const SwSelBoxes& rBoxes ); bool DeleteSel( SwDoc*, const SwSelBoxes& rBoxes, const SwSelBoxes* pMerged, SwUndo* pUndo, const bool bDelMakeFrames, const bool bCorrBorder ); bool SplitCol( SwDoc& rDoc, const SwSelBoxes& rBoxes, sal_uInt16 nCnt ); void FindSuperfluousRows( SwSelBoxes& rBoxes ) { FindSuperfluousRows_( rBoxes, nullptr, nullptr ); } void CheckRowSpan( SwTableLine* &rpLine, bool bUp ) const; SwTableSortBoxes& GetTabSortBoxes() { return m_TabSortContentBoxes; } const SwTableSortBoxes& GetTabSortBoxes() const { return m_TabSortContentBoxes; } // Read 1st number and delete it from string (used by GetTableBox and SwTableField). // #i80314# // add 3rd parameter in order to control validation check on static sal_uInt16 GetBoxNum( OUString& rStr, bool bFirst = false, const bool bPerformValidCheck = false ); // Search content-bearing box with that name. // #i80314# // add 2nd parameter in order to control validation check in called method // const SwTableBox* GetTableBox( const OUString& rName, const bool bPerformValidCheck = false ) const; // Copy selected boxes to another document. bool MakeCopy( SwDoc&, const SwPosition&, const SwSelBoxes&, bool bCpyName = false, const OUString& rStyleName = "" ) const; // Copy table in this bool InsTable( const SwTable& rCpyTable, const SwNodeIndex&, SwUndoTableCpyTable* pUndo ); bool InsTable( const SwTable& rCpyTable, const SwSelBoxes&, SwUndoTableCpyTable* pUndo ); bool InsNewTable( const SwTable& rCpyTable, const SwSelBoxes&, SwUndoTableCpyTable* pUndo ); // Copy headline of table (with content!) into another one. void CopyHeadlineIntoTable( SwTableNode& rTableNd ); // Get box, whose start index is set on nBoxStt. SwTableBox* GetTableBox( SwNodeOffset nSttIdx ); const SwTableBox* GetTableBox( SwNodeOffset nSttIdx ) const { return const_cast(this)->GetTableBox( nSttIdx ); } // Returns true if table contains nestings. bool IsTableComplex() const; // Returns true if table or selection is balanced. bool IsTableComplexForChart( std::u16string_view aSel ) const; // Search all content-bearing boxes of the base line on which this box stands. // rBoxes as a return value for immediate use. // bToTop = true -> up to base line, false-> else only line of box. static SwSelBoxes& SelLineFromBox( const SwTableBox* pBox, SwSelBoxes& rBoxes, bool bToTop = true ); // Get information from client. virtual bool GetInfo( SfxPoolItem& ) const override; // Search in format for registered table. static SwTable * FindTable( SwFrameFormat const*const pFormat ); // Clean up structure of subtables a bit: // convert row with 1 box with subtable; box with subtable with 1 row; // by removing the subtable (both recursively) void GCLines(); // Returns the table node via m_TabSortContentBoxes or pTableNode. SwTableNode* GetTableNode() const; void SetTableNode( SwTableNode* pNode ) { m_pTableNode = pNode; } // Data server methods. void SetRefObject( SwServerObject* ); const SwServerObject* GetObject() const { return m_xRefObj.get(); } SwServerObject* GetObject() { return m_xRefObj.get(); } // Fill data for chart. void UpdateCharts() const; TableChgMode GetTableChgMode() const { return m_eTableChgMode; } void SetTableChgMode( TableChgMode eMode ) { m_eTableChgMode = eMode; } bool SetColWidth( SwTableBox& rCurrentBox, TableChgWidthHeightType eType, SwTwips nAbsDiff, SwTwips nRelDiff, std::unique_ptr* ppUndo ); bool SetRowHeight( SwTableBox& rCurrentBox, TableChgWidthHeightType eType, SwTwips nAbsDiff, SwTwips nRelDiff, std::unique_ptr* ppUndo ); void RegisterToFormat( SwFormat& rFormat ); #ifdef DBG_UTIL void CheckConsistency() const; #endif bool HasLayout() const; bool CanConvertSubtables() const; void ConvertSubtables(); // is it a table deleted completely with change tracking bool IsDeleted() const; // is it a table with deleted row(s) bool HasDeletedRow() const; // it doesn't contain box content (except single empty nested tables of the boxes // which could remain after deletion of text content of the selected table) bool IsEmpty() const; void dumpAsXml(xmlTextWriterPtr pWriter) const; }; /// SwTableLine is one table row in the document model. class SW_DLLPUBLIC SwTableLine final : public SwClient // Client of FrameFormat. { SwTableBoxes m_aBoxes; SwTableBox *m_pUpper; RedlineType m_eRedlineType; public: SwTableLine( SwTableLineFormat*, sal_uInt16 nBoxes, SwTableBox *pUp ); virtual ~SwTableLine() override; SwTableBoxes &GetTabBoxes() { return m_aBoxes; } const SwTableBoxes &GetTabBoxes() const { return m_aBoxes; } sal_uInt16 GetBoxPos(const SwTableBox* pBox) const { SwTableBoxes::const_iterator it = std::find(m_aBoxes.begin(), m_aBoxes.end(), pBox); return it == m_aBoxes.end() ? USHRT_MAX : it - m_aBoxes.begin(); } SwTableBox *GetUpper() { return m_pUpper; } const SwTableBox *GetUpper() const { return m_pUpper; } void SetUpper( SwTableBox *pNew ) { m_pUpper = pNew; } SwFrameFormat* GetFrameFormat() { return static_cast(GetRegisteredIn()); } SwFrameFormat* GetFrameFormat() const { return const_cast(static_cast(GetRegisteredIn())); } // Creates an own FrameFormat if more lines depend on it. SwFrameFormat* ClaimFrameFormat(); void ChgFrameFormat( SwTableLineFormat* pNewFormat ); // Search next/previous box with content. SwTableBox* FindNextBox( const SwTable&, const SwTableBox* =nullptr, bool bOvrTableLns=true ) const; SwTableBox* FindPreviousBox( const SwTable&, const SwTableBox* =nullptr, bool bOvrTableLns=true ) const; SwTwips GetTableLineHeight( bool& bLayoutAvailable ) const; bool hasSoftPageBreak() const; // it doesn't contain box content (except single empty nested tables of the boxes // which could remain after deletion of text content of the selected table row) bool IsEmpty() const; // Update TextChangesOnly property based on the redlines of the table row. // rRedlinePos: search from this redline index to speed up SwTable::IsDeleted(). // bUpdateProperty: don't update HasTextChangesOnly property, if bUpdateProperty = false. // Set rRedlinePos after the last redline index of the table row. // Return with the redline, which associated to the row change (latest deletion // in the case of deleted row, the first insertion in the case of row insertion // or npos, if TextChangesOnly is true, i.e. the table row is not deleted or inserted). // Cache also the type of the redline associated to the changed table row. SwRedlineTable::size_type UpdateTextChangesOnly( SwRedlineTable::size_type& rRedlinePos, bool bUpdateProperty = true) const; // is it a tracked deleted row bool IsDeleted(SwRedlineTable::size_type& rRedlinePos) const; // set/get (if it's possible, cached) redline type RedlineType GetRedlineType() const; void SetRedlineType(RedlineType eType) { m_eRedlineType = eType; } }; /// SwTableBox is one table cell in the document model. class SW_DLLPUBLIC SwTableBox final : public SwClient //Client of FrameFormat. { friend class SwNodes; // Transpose index. friend void DelBoxNode(SwTableSortBoxes const &); // Delete StartNode* ! friend class SwXMLTableContext; SwTableBox( const SwTableBox & ) = delete; SwTableBox &operator=( const SwTableBox &) = delete; SwTableLines m_aLines; const SwStartNode * m_pStartNode; SwTableLine *m_pUpper; std::optional mxUserColor; std::optional mxNumFormatColor; sal_Int32 mnRowSpan; bool mbDummyFlag; /// Do we contain any direct formatting? bool mbDirectFormatting; // In case Format contains formulas/values already, // a new one must be created for the new box. static SwTableBoxFormat* CheckBoxFormat( SwTableBoxFormat* ); public: SwTableBox( SwTableBoxFormat*, sal_uInt16 nLines, SwTableLine *pUp ); SwTableBox( SwTableBoxFormat*, const SwStartNode&, SwTableLine *pUp ); SwTableBox( SwTableBoxFormat*, const SwNodeIndex&, SwTableLine *pUp ); virtual ~SwTableBox() override; SwTableLines &GetTabLines() { return m_aLines; } const SwTableLines &GetTabLines() const { return m_aLines; } SwTableLine *GetUpper() { return m_pUpper; } const SwTableLine *GetUpper() const { return m_pUpper; } void SetUpper( SwTableLine *pNew ) { m_pUpper = pNew; } SwFrameFormat* GetFrameFormat() { return static_cast(GetRegisteredIn()); } SwFrameFormat* GetFrameFormat() const { return const_cast(static_cast(GetRegisteredIn())); } /// Set that this table box contains formatting that is not set by the table style. void SetDirectFormatting(bool bDirect) { mbDirectFormatting = bDirect; } /// Do we contain any direct formatting (ie. something not affected by the table style)? bool HasDirectFormatting() const { return mbDirectFormatting; } // Creates its own FrameFormat if more boxes depend on it. SwFrameFormat* ClaimFrameFormat(); void ChgFrameFormat( SwTableBoxFormat *pNewFormat, bool bNeedToReregister = true ); void RemoveFromTable(); const SwStartNode *GetSttNd() const { return m_pStartNode; } SwNodeOffset GetSttIdx() const; // it doesn't contain box content or if bWithRemainingNestedTable = true, // it contains only an empty nested table as box content (which // could remain after deletion of the text content of the selected box). bool IsEmpty( bool bWithRemainingNestedTable = true ) const; // Search next/previous box with content. SwTableBox* FindNextBox( const SwTable&, const SwTableBox*, bool bOvrTableLns=true ) const; SwTableBox* FindPreviousBox( const SwTable&, const SwTableBox* ) const; // Return name of this box. It is determined dynamically and // is calculated from the position in the lines/boxes/table. OUString GetName() const; // Return "value" of box (for calculating in table). double GetValue( SwTableCalcPara& rPara ) const; // Computes "coordinates" of a box, used to computed selection // width or height when inserting cols or rows Point GetCoordinates() const; bool IsInHeadline( const SwTable* pTable ) const; // Contains box contents, that can be formatted as a number? bool HasNumContent( double& rNum, sal_uInt32& rFormatIndex, bool& rIsEmptyTextNd ) const; SwNodeOffset IsValidNumTextNd( bool bCheckAttr = true ) const; // If a table formula is set, test if box contents is congruent with number. // (For Redo of change of NumFormat!). bool IsNumberChanged() const; // Is that a formula box or a box with numeric contents (AutoSum)? // What it is indicated by the return value - the WhichId of the attribute. // Empty boxes have the return value USHRT_MAX !! sal_uInt16 IsFormulaOrValueBox() const; // Loading of a document requires an actualization of cells with values void ActualiseValueBox(); // Access on internal data - currently used for the NumFormatter. const std::optional& GetSaveUserColor() const { return mxUserColor; } const std::optional& GetSaveNumFormatColor() const { return mxNumFormatColor; } void SetSaveUserColor(std::optional p ) { mxUserColor = p; } void SetSaveNumFormatColor( std::optional p ) { mxNumFormatColor = p; } sal_Int32 getRowSpan() const { return mnRowSpan; } void setRowSpan( sal_Int32 nNewRowSpan ); bool getDummyFlag() const; void setDummyFlag( bool bDummy ); SwTableBox& FindStartOfRowSpan( const SwTable&, sal_uInt16 nMaxStep = USHRT_MAX ); const SwTableBox& FindStartOfRowSpan( const SwTable& rTable, sal_uInt16 nMaxStep = USHRT_MAX ) const { return const_cast(this)->FindStartOfRowSpan( rTable, nMaxStep ); } SwTableBox& FindEndOfRowSpan( const SwTable&, sal_uInt16 nMaxStep ); const SwTableBox& FindEndOfRowSpan( const SwTable& rTable, sal_uInt16 nMaxStep ) const { return const_cast(this)->FindEndOfRowSpan( rTable, nMaxStep ); } void RegisterToFormat( SwFormat& rFormat ) ; }; class SwCellFrame; class SW_DLLPUBLIC SwTableCellInfo { struct Impl; std::unique_ptr m_pImpl; const SwCellFrame * getCellFrame() const; SwTableCellInfo(SwTableCellInfo const&) = delete; SwTableCellInfo& operator=(SwTableCellInfo const&) = delete; public: SwTableCellInfo(const SwTable * pTable); ~SwTableCellInfo(); bool getNext(); SwRect getRect() const; const SwTableBox * getTableBox() const; }; #endif // INCLUDED_SW_INC_SWTABLE_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */