/* -*- 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 . */ #include #include #include #include "tableundo.hxx" #include #include "tablerow.hxx" #include "tablecolumn.hxx" using namespace ::com::sun::star::uno; using namespace ::com::sun::star::table; namespace sdr::table { CellUndo::CellUndo( SdrObject* pObjRef, const CellRef& xCell ) : SdrUndoAction(xCell->GetObject().getSdrModelFromSdrObject()) ,mxObjRef( pObjRef ) ,mxCell( xCell ) ,mbUndo( true ) { if( mxCell.is() && mxObjRef.is() ) { getDataFromCell( maUndoData ); mxObjRef->AddObjectUser( *this ); } } CellUndo::~CellUndo() { if( mxObjRef.is() ) mxObjRef->RemoveObjectUser( *this ); dispose(); } void CellUndo::dispose() { mxCell.clear(); delete maUndoData.mpProperties; maUndoData.mpProperties = nullptr; delete maRedoData.mpProperties; maRedoData.mpProperties = nullptr; maUndoData.mpOutlinerParaObject.reset(); maRedoData.mpOutlinerParaObject.reset(); } void CellUndo::ObjectInDestruction(const SdrObject& ) { dispose(); } void CellUndo::Undo() { if( mxCell.is() && mbUndo ) { if( maRedoData.mpProperties == nullptr ) getDataFromCell( maRedoData ); setDataToCell( maUndoData ); mbUndo = false; } } void CellUndo::Redo() { if( mxCell.is() && !mbUndo ) { setDataToCell( maRedoData ); mbUndo = true; } } bool CellUndo::Merge( SfxUndoAction *pNextAction ) { CellUndo* pNext = dynamic_cast< CellUndo* >( pNextAction ); return pNext && pNext->mxCell.get() == mxCell.get(); } void CellUndo::setDataToCell( const Data& rData ) { if( rData.mpProperties ) mxCell->mpProperties.reset(Cell::CloneProperties( rData.mpProperties, *mxObjRef, *mxCell )); else mxCell->mpProperties.reset(); if( rData.mpOutlinerParaObject ) mxCell->SetOutlinerParaObject( *rData.mpOutlinerParaObject ); else mxCell->RemoveOutlinerParaObject(); mxCell->msFormula = rData.msFormula; mxCell->mfValue = rData.mfValue; mxCell->mnError = rData.mnError; mxCell->mbMerged = rData.mbMerged; mxCell->mnRowSpan = rData.mnRowSpan; mxCell->mnColSpan = rData.mnColSpan; if(mxObjRef.is()) { // #i120201# ActionChanged is not enough, we need to trigger TableLayouter::UpdateBorderLayout() // and this is done best using ReformatText() for table objects mxObjRef->ActionChanged(); mxObjRef->NbcReformatText(); } } void CellUndo::getDataFromCell( Data& rData ) { if( !(mxObjRef.is() && mxCell.is()) ) return; if( mxCell->mpProperties ) rData.mpProperties = mxCell->CloneProperties( *mxObjRef, *mxCell); if( mxCell->GetOutlinerParaObject() ) rData.mpOutlinerParaObject = *mxCell->GetOutlinerParaObject(); else rData.mpOutlinerParaObject.reset(); rData.msFormula = mxCell->msFormula; rData.mfValue = mxCell->mfValue; rData.mnError = mxCell->mnError; rData.mbMerged = mxCell->mbMerged; rData.mnRowSpan = mxCell->mnRowSpan; rData.mnColSpan = mxCell->mnColSpan; } // class InsertRowUndo : public SdrUndoAction static void Dispose( RowVector& rRows ) { for( auto& rpRow : rRows ) rpRow->dispose(); } InsertRowUndo::InsertRowUndo( const TableModelRef& xTable, sal_Int32 nIndex, RowVector& aNewRows ) : SdrUndoAction(xTable->getSdrTableObj()->getSdrModelFromSdrObject()) ,mxTable( xTable ) ,mnIndex( nIndex ) ,mbUndo( true ) { maRows.swap( aNewRows ); } InsertRowUndo::~InsertRowUndo() { if( !mbUndo ) Dispose( maRows ); } void InsertRowUndo::Undo() { if( mxTable.is() ) { mxTable->UndoInsertRows( mnIndex, sal::static_int_cast< sal_Int32 >( maRows.size() ) ); mbUndo = false; } } void InsertRowUndo::Redo() { if( mxTable.is() ) { mxTable->UndoRemoveRows( mnIndex, maRows ); mbUndo = true; } } // class RemoveRowUndo : public SdrUndoAction RemoveRowUndo::RemoveRowUndo( const TableModelRef& xTable, sal_Int32 nIndex, RowVector& aRemovedRows ) : SdrUndoAction(xTable->getSdrTableObj()->getSdrModelFromSdrObject()) ,mxTable( xTable ) ,mnIndex( nIndex ) ,mbUndo( true ) { maRows.swap( aRemovedRows ); } RemoveRowUndo::~RemoveRowUndo() { if( mbUndo ) Dispose( maRows ); } void RemoveRowUndo::Undo() { if( mxTable.is() ) { mxTable->UndoRemoveRows( mnIndex, maRows ); mbUndo = false; } } void RemoveRowUndo::Redo() { if( mxTable.is() ) { mxTable->UndoInsertRows( mnIndex, sal::static_int_cast< sal_Int32 >( maRows.size() ) ); mbUndo = true; } } // class InsertColUndo : public SdrUndoAction static void Dispose( ColumnVector& rCols ) { for( auto& rpCol : rCols ) rpCol->dispose(); } static void Dispose( CellVector& rCells ) { for( auto& rpCell : rCells ) rpCell->dispose(); } InsertColUndo::InsertColUndo( const TableModelRef& xTable, sal_Int32 nIndex, ColumnVector& aNewCols, CellVector& aCells ) : SdrUndoAction(xTable->getSdrTableObj()->getSdrModelFromSdrObject()) ,mxTable( xTable ) ,mnIndex( nIndex ) ,mbUndo( true ) { maColumns.swap( aNewCols ); maCells.swap( aCells ); } InsertColUndo::~InsertColUndo() { if( !mbUndo ) { Dispose( maColumns ); Dispose( maCells ); } } void InsertColUndo::Undo() { if( mxTable.is() ) { mxTable->UndoInsertColumns( mnIndex, sal::static_int_cast< sal_Int32 >( maColumns.size() ) ); mbUndo = false; } } void InsertColUndo::Redo() { if( mxTable.is() ) { mxTable->UndoRemoveColumns( mnIndex, maColumns, maCells ); mbUndo = true; } } // class RemoveColUndo : public SdrUndoAction RemoveColUndo::RemoveColUndo( const TableModelRef& xTable, sal_Int32 nIndex, ColumnVector& aNewCols, CellVector& aCells ) : SdrUndoAction(xTable->getSdrTableObj()->getSdrModelFromSdrObject()) ,mxTable( xTable ) ,mnIndex( nIndex ) ,mbUndo( true ) { maColumns.swap( aNewCols ); maCells.swap( aCells ); } RemoveColUndo::~RemoveColUndo() { if( mbUndo ) { Dispose( maColumns ); Dispose( maCells ); } } void RemoveColUndo::Undo() { if( mxTable.is() ) { mxTable->UndoRemoveColumns( mnIndex, maColumns, maCells ); mbUndo = false; } } void RemoveColUndo::Redo() { if( mxTable.is() ) { mxTable->UndoInsertColumns( mnIndex, sal::static_int_cast< sal_Int32 >( maColumns.size() ) ); mbUndo = true; } } // class TableColumnUndo : public SdrUndoAction TableColumnUndo::TableColumnUndo( const TableColumnRef& xCol ) : SdrUndoAction(xCol->mxTableModel->getSdrTableObj()->getSdrModelFromSdrObject()) ,mxCol( xCol ) ,mbHasRedoData( false ) { getData( maUndoData ); } TableColumnUndo::~TableColumnUndo() { } void TableColumnUndo::Undo() { if( !mbHasRedoData ) { getData( maRedoData ); mbHasRedoData = true; } setData( maUndoData ); } void TableColumnUndo::Redo() { setData( maRedoData ); } bool TableColumnUndo::Merge( SfxUndoAction *pNextAction ) { TableColumnUndo* pNext = dynamic_cast< TableColumnUndo* >( pNextAction ); return pNext && pNext->mxCol == mxCol; } void TableColumnUndo::setData( const Data& rData ) { mxCol->mnColumn = rData.mnColumn; mxCol->mnWidth = rData.mnWidth; mxCol->mbOptimalWidth = rData.mbOptimalWidth; mxCol->mbIsVisible = rData.mbIsVisible; mxCol->mbIsStartOfNewPage = rData.mbIsStartOfNewPage; mxCol->maName = rData.maName; // Trigger re-layout of the table. mxCol->getModel()->setModified(true); } void TableColumnUndo::getData( Data& rData ) { rData.mnColumn = mxCol->mnColumn; rData.mnWidth = mxCol->mnWidth; rData.mbOptimalWidth = mxCol->mbOptimalWidth; rData.mbIsVisible = mxCol->mbIsVisible; rData.mbIsStartOfNewPage = mxCol->mbIsStartOfNewPage; rData.maName = mxCol->maName; } // class TableRowUndo : public SdrUndoAction TableRowUndo::TableRowUndo( const TableRowRef& xRow ) : SdrUndoAction(xRow->mxTableModel->getSdrTableObj()->getSdrModelFromSdrObject()) , mxRow( xRow ) , mbHasRedoData( false ) { getData( maUndoData ); } TableRowUndo::~TableRowUndo() { } void TableRowUndo::Undo() { if( !mbHasRedoData ) { getData( maRedoData ); mbHasRedoData = true; } setData( maUndoData ); } void TableRowUndo::Redo() { setData( maRedoData ); } bool TableRowUndo::Merge( SfxUndoAction *pNextAction ) { TableRowUndo* pNext = dynamic_cast< TableRowUndo* >( pNextAction ); return pNext && pNext->mxRow == mxRow; } void TableRowUndo::setData( const Data& rData ) { mxRow->mnRow = rData.mnRow; mxRow->mnHeight = rData.mnHeight; mxRow->mbOptimalHeight = rData.mbOptimalHeight; mxRow->mbIsVisible = rData.mbIsVisible; mxRow->mbIsStartOfNewPage = rData.mbIsStartOfNewPage; mxRow->maName = rData.maName; // Trigger re-layout of the table. mxRow->getModel()->setModified(true); } void TableRowUndo::getData( Data& rData ) { rData.mnRow = mxRow->mnRow; rData.mnHeight = mxRow->mnHeight; rData.mbOptimalHeight = mxRow->mbOptimalHeight; rData.mbIsVisible = mxRow->mbIsVisible; rData.mbIsStartOfNewPage = mxRow->mbIsStartOfNewPage; rData.maName = mxRow->maName; } TableStyleUndo::TableStyleUndo( const SdrTableObj& rTableObj ) : SdrUndoAction(rTableObj.getSdrModelFromSdrObject()) ,mxObjRef( const_cast< sdr::table::SdrTableObj*>( &rTableObj ) ) ,mbHasRedoData(false) { getData( maUndoData ); } void TableStyleUndo::Undo() { if( !mbHasRedoData ) { getData( maRedoData ); mbHasRedoData = true; } setData( maUndoData ); } void TableStyleUndo::Redo() { setData( maRedoData ); } void TableStyleUndo::setData( const Data& rData ) { SdrTableObj* pTableObj = mxObjRef.get(); if( pTableObj ) { pTableObj->setTableStyle( rData.mxTableStyle ); pTableObj->setTableStyleSettings( rData.maSettings ); } } void TableStyleUndo::getData( Data& rData ) { SdrTableObj* pTableObj = mxObjRef.get(); if( pTableObj ) { rData.maSettings = pTableObj->getTableStyleSettings(); rData.mxTableStyle = pTableObj->getTableStyle(); } } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */