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If not, see * * for a copy of the LGPLv3 License. * ************************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_sw.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifndef DBG_UTIL #define CHECK_TABLE(t) #else #ifdef DEBUG #define CHECK_TABLE(t) (t).CheckConsistency(); #else #define CHECK_TABLE(t) #endif #endif // --------------------------------------------------------------- /** SwBoxSelection is a small helperclass (structure) to handle selections of cells (boxes) between table functions It contains an "array" of table boxes, a rectangulare selection of table boxes. To be more specific, it contains a vector of box selections, every box selection (SwSelBoxes) contains the selected boxes inside one row. The member mnMergeWidth contains the width of the selected boxes */ class SwBoxSelection { public: std::vector aBoxes; long mnMergeWidth; SwBoxSelection() : mnMergeWidth(0) {} bool isEmpty() const { return aBoxes.size() == 0; } void insertBoxes( const SwSelBoxes* pNew ){ aBoxes.insert( aBoxes.end(), pNew ); } }; /** NewMerge(..) removes the superfluous cells after cell merge SwTable::NewMerge(..) does some cleaning up, it simply deletes the superfluous cells ("cell span") and notifies the Undo about it. The main work has been done by SwTable::PrepareMerge(..) already. @param rBoxes the boxes to remove @param pUndo the undo object to notify, maybe empty @return sal_True for compatibility reasons with OldMerge(..) */ sal_Bool SwTable::NewMerge( SwDoc* pDoc, const SwSelBoxes& rBoxes, const SwSelBoxes& rMerged, SwTableBox*, SwUndoTblMerge* pUndo ) { if( pUndo ) pUndo->SetSelBoxes( rBoxes ); DeleteSel( pDoc, rBoxes, &rMerged, 0, sal_True, sal_True ); CHECK_TABLE( *this ) return sal_True; } /** lcl_CheckMinMax helps evaluating (horizontal) min/max of boxes lcl_CheckMinMax(..) compares the left border and the right border of a given cell with the given range and sets it accordingly. @param rMin will be decremented if necessary to the left border of the cell @param rMax will be incremented if necessary to the right border of the cell @param rLine the row (table line) of the interesting box @param nCheck the index of the box in the table box array of the given row @param bSet if bSet is false, rMin and rMax will be manipulated if necessary if bSet is true, rMin and rMax will be set to the left and right border of the box */ void lcl_CheckMinMax( long& rMin, long& rMax, const SwTableLine& rLine, sal_uInt16 nCheck, bool bSet ) { ++nCheck; if( rLine.GetTabBoxes().Count() < nCheck ) { // robust ASSERT( false, "Box out of table line" ); nCheck = rLine.GetTabBoxes().Count(); } long nNew = 0; // will be the right border of the current box long nWidth = 0; // the width of the current box for( sal_uInt16 nCurrBox = 0; nCurrBox < nCheck; ++nCurrBox ) { SwTableBox* pBox = rLine.GetTabBoxes()[nCurrBox]; ASSERT( pBox, "Missing table box" ); nWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth(); nNew += nWidth; } // nNew is the right border of the wished box if( bSet || nNew > rMax ) rMax = nNew; nNew -= nWidth; // nNew becomes the left border of the wished box if( bSet || nNew < rMin ) rMin = nNew; } /** lcl_Box2LeftBorder(..) delivers the left (logical) border of a table box The left logical border of a table box is the sum of the cell width before this box. @param rBox is the requested table box @return is the left logical border (long, even it cannot be negative) */ long lcl_Box2LeftBorder( const SwTableBox& rBox ) { if( !rBox.GetUpper() ) return 0; long nLeft = 0; const SwTableLine &rLine = *rBox.GetUpper(); sal_uInt16 nCount = rLine.GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nCount; ++nCurrBox ) { SwTableBox* pBox = rLine.GetTabBoxes()[nCurrBox]; ASSERT( pBox, "Missing table box" ); if( pBox == &rBox ) return nLeft; nLeft += pBox->GetFrmFmt()->GetFrmSize().GetWidth(); } ASSERT( false, "Box not found in own upper?" ); return nLeft; } /** lcl_LeftBorder2Box delivers the box to a given left border It's used to find the master/follow table boxes in previous/next rows. Don't call this function to check if there is such a box, call it if you know there has to be such box. @param nLeft the left border (logical x-value) of the demanded box @param rLine the row (table line) to be scanned @return a pointer to the table box inside the given row with the wished left border */ SwTableBox* lcl_LeftBorder2Box( long nLeft, const SwTableLine* pLine ) { if( !pLine ) return 0; long nCurrLeft = 0; sal_uInt16 nCount = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nCount; ++nCurrBox ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrBox]; ASSERT( pBox, "Missing table box" ); if( nCurrLeft >= nLeft && pBox->GetFrmFmt()->GetFrmSize().GetWidth() ) { ASSERT( nCurrLeft == nLeft, "Wrong box found" ); return pBox; } nCurrLeft += pBox->GetFrmFmt()->GetFrmSize().GetWidth(); } ASSERT( false, "Didn't found wished box" ); return 0; } /** lcl_ChangeRowSpan corrects row span after insertion/deletion of rows lcl_ChangeRowSpan(..) has to be called after an insertion or deletion of rows to adjust the row spans of previous rows accordingly. If rows are deleted, the previous rows with row spans into the deleted area have to be decremented by the number of _overlapped_ inserted rows. If rows are inserted, the previous rows with row span into the inserted area have to be incremented by the number of inserted rows. For those row spans which ends exactly above the inserted area it has to be decided by the parameter bSingle if they have to be expanded or not. @param rTable the table to manipulate (has to be a new model table) @param nDiff the number of rows which has been inserted (nDiff > 0) or deleted (nDiff < 0) @param nRowIdx the index of the first row which has to be checked @param bSingle true if the new inserted row should not extend row spans which ends in the row above this is for rows inserted by UI "insert row" false if all cells of an inserted row has to be overlapped by the previous row this is for rows inserted by "split row" false is also needed for deleted rows */ void lcl_ChangeRowSpan( const SwTable& rTable, const long nDiff, sal_uInt16 nRowIdx, const bool bSingle ) { if( !nDiff || nRowIdx >= rTable.GetTabLines().Count() ) return; ASSERT( !bSingle || nDiff > 0, "Don't set bSingle when deleting lines!" ); bool bGoOn; // nDistance is the distance between the current row and the critical row, // e.g. the deleted rows or the inserted rows. // If the row span is lower than the distance there is nothing to do // because the row span ends before the critical area. // When the inserted rows should not be overlapped by row spans which ends // exactly in the row above, the trick is to start with a distance of 1. long nDistance = bSingle ? 1 : 0; do { bGoOn = false; // will be set to true if we found a non-master cell // which has to be manipulated => we have to chekc the previous row, too. const SwTableLine* pLine = rTable.GetTabLines()[ nRowIdx ]; sal_uInt16 nBoxCount = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nBoxCount; ++nCurrBox ) { long nRowSpan = pLine->GetTabBoxes()[nCurrBox]->getRowSpan(); long nAbsSpan = nRowSpan > 0 ? nRowSpan : -nRowSpan; // Check if the last overlapped cell is above or below // the critical area if( nAbsSpan > nDistance ) { if( nDiff > 0 ) { if( nRowSpan > 0 ) nRowSpan += nDiff; // increment row span of master cell else { nRowSpan -= nDiff; // increment row span of non-master cell bGoOn = true; } } else { if( nRowSpan > 0 ) { // A master cell // end of row span behind the deleted area .. if( nRowSpan - nDistance > -nDiff ) nRowSpan += nDiff; else // .. or inside the deleted area nRowSpan = nDistance + 1; } else { // Same for a non-master cell if( nRowSpan + nDistance < nDiff ) nRowSpan -= nDiff; else nRowSpan = -nDistance - 1; bGoOn = true; // We have to continue } } pLine->GetTabBoxes()[ nCurrBox ]->setRowSpan( nRowSpan ); } } ++nDistance; if( nRowIdx ) --nRowIdx; else bGoOn = false; //robust } while( bGoOn ); } /** CollectBoxSelection(..) create a rectangulare selection based on the given SwPaM and prepares the selected cells for merging */ SwBoxSelection* SwTable::CollectBoxSelection( const SwPaM& rPam ) const { ASSERT( bNewModel, "Don't call me for old tables" ); if( !aLines.Count() ) return 0; const SwNode* pStartNd = rPam.Start()->nNode.GetNode().FindTableBoxStartNode(); const SwNode* pEndNd = rPam.End()->nNode.GetNode().FindTableBoxStartNode(); if( !pStartNd || !pEndNd || pStartNd == pEndNd ) return 0; sal_uInt16 nLines = aLines.Count(); sal_uInt16 nTop = 0, nBottom = 0; long nMin = 0, nMax = 0; int nFound = 0; for( sal_uInt16 nRow = 0; nFound < 2 && nRow < nLines; ++nRow ) { SwTableLine* pLine = aLines[nRow]; ASSERT( pLine, "Missing table line" ); sal_uInt16 nCols = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCol = 0; nCol < nCols; ++nCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCol]; ASSERT( pBox, "Missing table box" ); if( nFound ) { if( pBox->GetSttNd() == pEndNd ) { nBottom = nRow; lcl_CheckMinMax( nMin, nMax, *pLine, nCol, false ); ++nFound; break; } } else if( pBox->GetSttNd() == pStartNd ) { nTop = nRow; lcl_CheckMinMax( nMin, nMax, *pLine, nCol, true ); ++nFound; } } } if( nFound < 2 ) return 0; bool bOkay = true; long nMid = ( nMin + nMax ) / 2; SwBoxSelection* pRet = new SwBoxSelection(); std::list< std::pair< SwTableBox*, long > > aNewWidthList; sal_uInt16 nCheckBottom = nBottom; long nLeftSpan = 0; long nRightSpan = 0; long nLeftSpanCnt = 0; long nRightSpanCnt = 0; for( sal_uInt16 nRow = nTop; nRow <= nBottom && bOkay; ++nRow ) { SwTableLine* pLine = aLines[nRow]; ASSERT( pLine, "Missing table line" ); SwSelBoxes *pBoxes = new SwSelBoxes(); long nLeft = 0; long nRight = 0; long nRowSpan = 1; sal_uInt16 nCount = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nCount; ++nCurrBox ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrBox]; ASSERT( pBox, "Missing table box" ); nLeft = nRight; nRight += pBox->GetFrmFmt()->GetFrmSize().GetWidth(); nRowSpan = pBox->getRowSpan(); if( nRight <= nMin ) { if( nRight == nMin && nLeftSpanCnt ) bOkay = false; continue; } SwTableBox* pInnerBox = 0; SwTableBox* pLeftBox = 0; SwTableBox* pRightBox = 0; long nDiff = 0; long nDiff2 = 0; if( nLeft < nMin ) { if( nRight >= nMid || nRight + nLeft >= nMin + nMin ) { if( nCurrBox ) { pBoxes->Insert( pBox ); pInnerBox = pBox; pLeftBox = pLine->GetTabBoxes()[nCurrBox-1]; nDiff = nMin - nLeft; if( nRight > nMax ) { if( nCurrBox+1 < nCount ) { pRightBox = pLine->GetTabBoxes()[nCurrBox+1]; nDiff2 = nRight - nMax; } else bOkay = false; } else if( nRightSpanCnt && nRight == nMax ) bOkay = false; } else bOkay = false; } else if( nCurrBox+1 < nCount ) { pLeftBox = pBox; pInnerBox = pLine->GetTabBoxes()[nCurrBox+1]; nDiff = nMin - nRight; } else bOkay = false; } else if( nRight <= nMax ) { pBoxes->Insert( pBox ); if( nRow == nTop && nRowSpan < 0 ) { bOkay = false; break; } if( nRowSpan > 1 && nRow + nRowSpan - 1 > nBottom ) nBottom = nRow + (sal_uInt16)nRowSpan - 1; if( nRowSpan < -1 && nRow - nRowSpan - 1 > nBottom ) nBottom = (sal_uInt16)(nRow - nRowSpan - 1); if( nRightSpanCnt && nRight == nMax ) bOkay = false; } else if( nLeft < nMax ) { if( nLeft <= nMid || nRight + nLeft <= nMax ) { if( nCurrBox+1 < nCount ) { pBoxes->Insert( pBox ); pInnerBox = pBox; pRightBox = pLine->GetTabBoxes()[nCurrBox+1]; nDiff = nRight - nMax; } else bOkay = false; } else if( nCurrBox ) { pRightBox = pBox; pInnerBox = pLine->GetTabBoxes()[nCurrBox-1]; nDiff = nLeft - nMax; } else bOkay = false; } else break; if( pInnerBox ) { if( nRow == nBottom ) { long nTmpSpan = pInnerBox->getRowSpan(); if( nTmpSpan > 1 ) nBottom += (sal_uInt16)nTmpSpan - 1; else if( nTmpSpan < -1 ) nBottom = (sal_uInt16)( nBottom - nTmpSpan - 1 ); } SwTableBox* pOuterBox = pLeftBox; do { if( pOuterBox ) { long nOutSpan = pOuterBox->getRowSpan(); if( nOutSpan != 1 ) { sal_uInt16 nCheck = nRow; if( nOutSpan < 0 ) { const SwTableBox& rBox = pOuterBox->FindStartOfRowSpan( *this, USHRT_MAX ); nOutSpan = rBox.getRowSpan(); const SwTableLine* pTmpL = rBox.GetUpper(); nCheck = GetTabLines().C40_GETPOS( SwTableLine, pTmpL ); if( nCheck < nTop ) bOkay = false; if( pOuterBox == pLeftBox ) { if( !nLeftSpanCnt || nMin - nDiff != nLeftSpan ) bOkay = false; } else { if( !nRightSpanCnt || nMax + nDiff != nRightSpan ) bOkay = false; } } else { if( pOuterBox == pLeftBox ) { if( nLeftSpanCnt ) bOkay = false; nLeftSpan = nMin - nDiff; nLeftSpanCnt = nOutSpan; } else { if( nRightSpanCnt ) bOkay = false; nRightSpan = nMax + nDiff; nRightSpanCnt = nOutSpan; } } nCheck += (sal_uInt16)nOutSpan - 1; if( nCheck > nCheckBottom ) nCheckBottom = nCheck; } else if( ( nLeftSpanCnt && pLeftBox == pOuterBox ) || ( nRightSpanCnt && pRightBox == pOuterBox ) ) bOkay = false; std::pair< SwTableBox*, long > aTmp; aTmp.first = pInnerBox; aTmp.second = -nDiff; aNewWidthList.push_back( aTmp ); aTmp.first = pOuterBox; aTmp.second = nDiff; aNewWidthList.push_back( aTmp ); } pOuterBox = pOuterBox == pRightBox ? 0 : pRightBox; if( nDiff2 ) nDiff = nDiff2; } while( pOuterBox ); } } if( nLeftSpanCnt ) --nLeftSpanCnt; if( nRightSpanCnt ) --nRightSpanCnt; pRet->insertBoxes( pBoxes ); } pRet->mnMergeWidth = nMax - nMin; if( nCheckBottom > nBottom ) bOkay = false; if( bOkay ) { std::list< std::pair< SwTableBox*, long > >::iterator pCurr = aNewWidthList.begin(); while( pCurr != aNewWidthList.end() ) { SwFrmFmt* pFmt = pCurr->first->ClaimFrmFmt(); long nNewWidth = pFmt->GetFrmSize().GetWidth() + pCurr->second; pFmt->SetFmtAttr( SwFmtFrmSize( ATT_VAR_SIZE, nNewWidth, 0 ) ); ++pCurr; } } else { delete pRet; pRet = 0; } return pRet; } /** lcl_InvalidateCellFrm(..) invalidates all layout representations of a given cell to initiate a reformatting */ void lcl_InvalidateCellFrm( const SwTableBox& rBox ) { SwIterator aIter( *rBox.GetFrmFmt() ); for( SwCellFrm* pCell = aIter.First(); pCell; pCell = aIter.Next() ) { if( pCell->GetTabBox() == &rBox ) { pCell->InvalidateSize(); SwFrm* pLower = pCell->GetLower(); if( pLower ) pLower->_InvalidateSize(); } } } /** lcl_InsertPosition(..) evaluates the insert positions in every table line, when a selection of cells is given and returns the average cell widths */ long lcl_InsertPosition( SwTable &rTable, std::vector& rInsPos, const SwSelBoxes& rBoxes, sal_Bool bBehind ) { sal_Int32 nAddWidth = 0; long nCount = 0; for( sal_uInt16 j = 0; j < rBoxes.Count(); ++j ) { SwTableBox *pBox = rBoxes[j]; SwTableLine* pLine = pBox->GetUpper(); long nWidth = rBoxes[j]->GetFrmFmt()->GetFrmSize().GetWidth(); nAddWidth += nWidth; sal_uInt16 nCurrBox = pLine->GetTabBoxes().C40_GETPOS(SwTableBox, pBox ); sal_uInt16 nCurrLine = rTable.GetTabLines().C40_GETPOS(SwTableLine, pLine ); ASSERT( nCurrLine != USHRT_MAX, "Time to say Good-Bye.." ); if( rInsPos[ nCurrLine ] == USHRT_MAX ) { rInsPos[ nCurrLine ] = nCurrBox; ++nCount; } else if( ( rInsPos[ nCurrLine ] > nCurrBox ) == !bBehind ) rInsPos[ nCurrLine ] = nCurrBox; } if( nCount ) nAddWidth /= nCount; return nAddWidth; } /** SwTable::NewInsertCol(..) insert new column(s) into a table @param pDoc the document @param rBoxes the selected boxes @param nCnt the number of columns to insert @param bBehind insertion behind (true) or before (false) the selected boxes @return true, if any insertion has been done successfully */ sal_Bool SwTable::NewInsertCol( SwDoc* pDoc, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, sal_Bool bBehind ) { if( !aLines.Count() || !nCnt ) return sal_False; CHECK_TABLE( *this ) long nNewBoxWidth = 0; std::vector< sal_uInt16 > aInsPos( aLines.Count(), USHRT_MAX ); { // Calculation of the insert positions and the width of the new boxes sal_uInt64 nTableWidth = 0; for( sal_uInt16 i = 0; i < aLines[0]->GetTabBoxes().Count(); ++i ) nTableWidth += aLines[0]->GetTabBoxes()[i]->GetFrmFmt()->GetFrmSize().GetWidth(); // Fill the vector of insert positions and the (average) width to insert sal_uInt64 nAddWidth = lcl_InsertPosition( *this, aInsPos, rBoxes, bBehind ); // Given is the (average) width of the selected boxes, if we would // insert nCnt of columns the table would grow // So we will shrink the table first, then insert the new boxes and // get a table with the same width than before. // But we will not shrink the table by the full already calculated value, // we will reduce this value proportional to the old table width nAddWidth *= nCnt; // we have to insert nCnt boxes per line sal_uInt64 nResultingWidth = nAddWidth + nTableWidth; if( !nResultingWidth ) return sal_False; nAddWidth = (nAddWidth * nTableWidth) / nResultingWidth; nNewBoxWidth = long( nAddWidth / nCnt ); // Rounding nAddWidth = nNewBoxWidth * nCnt; // Rounding if( !nAddWidth || nAddWidth >= nTableWidth ) return sal_False; AdjustWidths( static_cast< long >(nTableWidth), static_cast< long >(nTableWidth - nAddWidth) ); } _FndBox aFndBox( 0, 0 ); aFndBox.SetTableLines( rBoxes, *this ); aFndBox.DelFrms( *this ); // aFndBox.SaveChartData( *this ); SwTableNode* pTblNd = GetTableNode(); std::vector aInsFormat( nCnt, 0 ); sal_uInt16 nLastLine = USHRT_MAX; long nLastRowSpan = 1; for( sal_uInt16 i = 0; i < aLines.Count(); ++i ) { SwTableLine* pLine = aLines[ i ]; sal_uInt16 nInsPos = aInsPos[i]; ASSERT( nInsPos != USHRT_MAX, "Didn't found insert position" ); SwTableBox* pBox = pLine->GetTabBoxes()[ nInsPos ]; if( bBehind ) ++nInsPos; SwTableBoxFmt* pBoxFrmFmt = (SwTableBoxFmt*)pBox->GetFrmFmt(); ::_InsTblBox( pDoc, pTblNd, pLine, pBoxFrmFmt, pBox, nInsPos, nCnt ); long nRowSpan = pBox->getRowSpan(); long nDiff = i - nLastLine; bool bNewSpan = false; if( nLastLine != USHRT_MAX && nDiff <= nLastRowSpan && nRowSpan != nDiff - nLastRowSpan ) { bNewSpan = true; while( nLastLine < i ) { SwTableLine* pTmpLine = aLines[ nLastLine ]; sal_uInt16 nTmpPos = aInsPos[nLastLine]; if( bBehind ) ++nTmpPos; for( sal_uInt16 j = 0; j < nCnt; ++j ) pTmpLine->GetTabBoxes()[nTmpPos+j]->setRowSpan( nDiff ); if( nDiff > 0 ) nDiff = -nDiff; ++nDiff; ++nLastLine; } } if( nRowSpan > 0 ) bNewSpan = true; if( bNewSpan ) { nLastLine = i; if( nRowSpan < 0 ) nLastRowSpan = -nRowSpan; else nLastRowSpan = nRowSpan; } const SvxBoxItem& aSelBoxItem = pBoxFrmFmt->GetBox(); SvxBoxItem* pNoRightBorder = 0; if( aSelBoxItem.GetRight() ) { pNoRightBorder = new SvxBoxItem( aSelBoxItem ); pNoRightBorder->SetLine( 0, BOX_LINE_RIGHT ); } for( sal_uInt16 j = 0; j < nCnt; ++j ) { SwTableBox *pCurrBox = pLine->GetTabBoxes()[nInsPos+j]; if( bNewSpan ) { pCurrBox->setRowSpan( nLastRowSpan ); SwFrmFmt* pFrmFmt = pCurrBox->ClaimFrmFmt(); SwFmtFrmSize aFrmSz( pFrmFmt->GetFrmSize() ); aFrmSz.SetWidth( nNewBoxWidth ); pFrmFmt->SetFmtAttr( aFrmSz ); if( pNoRightBorder && ( !bBehind || j+1 < nCnt ) ) pFrmFmt->SetFmtAttr( *pNoRightBorder ); aInsFormat[j] = (SwTableBoxFmt*)pFrmFmt; } else pCurrBox->ChgFrmFmt( aInsFormat[j] ); } if( bBehind && pNoRightBorder ) { SwFrmFmt* pFrmFmt = pBox->ClaimFrmFmt(); pFrmFmt->SetFmtAttr( *pNoRightBorder ); } delete pNoRightBorder; } aFndBox.MakeFrms( *this ); // aFndBox.RestoreChartData( *this ); #ifdef DBG_UTIL { const SwTableBoxes &rTabBoxes = aLines[0]->GetTabBoxes(); long nNewWidth = 0; for( sal_uInt16 i = 0; i < rTabBoxes.Count(); ++i ) nNewWidth += rTabBoxes[i]->GetFrmFmt()->GetFrmSize().GetWidth(); ASSERT( nNewWidth > 0, "Very small" ); } #endif CHECK_TABLE( *this ) return sal_True; } /** SwTable::PrepareMerge(..) some preparation for the coming Merge(..) For the old table model, ::GetMergeSel(..) is called only, for the new table model, PrepareMerge does the main work. It modifices all cells to merge (width, border, rowspan etc.) and collects the cells which have to be deleted by Merge(..) afterwards. If there are superfluous rows, these cells are put into the deletion list as well. @param rPam the selection to merge @param rBoxes should be empty at the beginning, at the end it is filled with boxes to delete. @param ppMergeBox will be set to the master cell box @param pUndo the undo object to record all changes can be Null, e.g. when called by Redo(..) @return */ bool SwTable::PrepareMerge( const SwPaM& rPam, SwSelBoxes& rBoxes, SwSelBoxes& rMerged, SwTableBox** ppMergeBox, SwUndoTblMerge* pUndo ) { if( !bNewModel ) { ::GetMergeSel( rPam, rBoxes, ppMergeBox, pUndo ); return rBoxes.Count() > 1; } CHECK_TABLE( *this ) // We have to assert a "rectangular" box selection before we start to merge std::auto_ptr< SwBoxSelection > pSel( CollectBoxSelection( rPam ) ); if( !pSel.get() || pSel->isEmpty() ) return false; // Now we should have a rectangle of boxes, // i.e. contiguous cells in contiguous rows bool bMerge = false; // will be set if any content is transferred from // a "not already overlapped" cell into the new master cell. SwTableBox *pMergeBox = (*pSel->aBoxes[0])[0]; // the master cell box if( !pMergeBox ) return false; (*ppMergeBox) = pMergeBox; // The new master box will get the left and the top border of the top-left // box of the selection and because the new master cell _is_ the top-left // box, the left and right border does not need to be changed. // The right and bottom border instead has to be derived from the right- // bottom box of the selection. If this is a overlapped cell, // the appropiate master box. SwTableBox* pLastBox = 0; // the right-bottom (master) cell SwDoc* pDoc = GetFrmFmt()->GetDoc(); SwPosition aInsPos( *pMergeBox->GetSttNd()->EndOfSectionNode() ); SwPaM aChkPam( aInsPos ); // The number of lines in the selection rectangle: nLineCount const sal_uInt16 nLineCount = sal_uInt16(pSel->aBoxes.size()); // BTW: nLineCount is the rowspan of the new master cell long nRowSpan = nLineCount; // We will need the first and last line of the selection // to check if there any superfluous row after merging SwTableLine* pFirstLn = 0; SwTableLine* pLastLn = 0; // Iteration over the lines of the selection... for( sal_uInt16 nCurrLine = 0; nCurrLine < nLineCount; ++nCurrLine ) { // The selected boxes in the current line const SwSelBoxes* pBoxes = pSel->aBoxes[ nCurrLine ]; sal_uInt16 nColCount = pBoxes->Count(); // Iteration over the selected cell in the current row for( sal_uInt16 nCurrCol = 0; nCurrCol < nColCount; ++nCurrCol ) { SwTableBox* pBox = (*pBoxes)[nCurrCol]; rMerged.Insert( pBox ); // Only the first selected cell in every row will be alive, // the other will be deleted => put into rBoxes if( nCurrCol ) rBoxes.Insert( pBox ); else { if( nCurrLine == 1 ) pFirstLn = pBox->GetUpper(); // we need this line later on if( nCurrLine + 1 == nLineCount ) pLastLn = pBox->GetUpper(); // and this one, too. } // A box has to be merged if it's not the master box itself, // but an already overlapped cell must not be merged as well. bool bDoMerge = pBox != pMergeBox && pBox->getRowSpan() > 0; // The last box has to be in the last "column" of the selection // and it has to be a master cell if( nCurrCol+1 == nColCount && pBox->getRowSpan() > 0 ) pLastBox = pBox; if( bDoMerge ) { bMerge = true; // If the cell to merge contains only one empty paragraph, // we do not transfer this paragraph. if( !IsEmptyBox( *pBox, aChkPam ) ) { SwNodeIndex& rInsPosNd = aInsPos.nNode; SwPaM aPam( aInsPos ); aPam.GetPoint()->nNode.Assign( *pBox->GetSttNd()->EndOfSectionNode(), -1 ); SwCntntNode* pCNd = aPam.GetCntntNode(); sal_uInt16 nL = pCNd ? pCNd->Len() : 0; aPam.GetPoint()->nContent.Assign( pCNd, nL ); SwNodeIndex aSttNdIdx( *pBox->GetSttNd(), 1 ); bool const bUndo = pDoc->GetIDocumentUndoRedo().DoesUndo(); if( pUndo ) { pDoc->GetIDocumentUndoRedo().DoUndo(false); } pDoc->AppendTxtNode( *aPam.GetPoint() ); if( pUndo ) { pDoc->GetIDocumentUndoRedo().DoUndo(bUndo); } SwNodeRange aRg( aSttNdIdx, aPam.GetPoint()->nNode ); if( pUndo ) pUndo->MoveBoxCntnt( pDoc, aRg, rInsPosNd ); else { pDoc->MoveNodeRange( aRg, rInsPosNd, IDocumentContentOperations::DOC_NO_DELFRMS ); } } } // Only the cell of the first selected column will stay alive // and got a new row span if( !nCurrCol ) pBox->setRowSpan( nRowSpan ); } if( nRowSpan > 0 ) // the master cell is done, from now on we set nRowSpan = -nRowSpan; // negative row spans ++nRowSpan; // ... -3, -2, -1 } if( bMerge ) { // A row containing overlapped cells is superfluous, // these cells can be put into rBoxes for deletion _FindSuperfluousRows( rBoxes, pFirstLn, pLastLn ); // pNewFmt will be set to the new master box and the overlapped cells SwFrmFmt* pNewFmt = pMergeBox->ClaimFrmFmt(); pNewFmt->SetFmtAttr( SwFmtFrmSize( ATT_VAR_SIZE, pSel->mnMergeWidth, 0 ) ); for( sal_uInt16 nCurrLine = 0; nCurrLine < nLineCount; ++nCurrLine ) { const SwSelBoxes* pBoxes = pSel->aBoxes[ nCurrLine ]; sal_uInt16 nColCount = pBoxes->Count(); for( sal_uInt16 nCurrCol = 0; nCurrCol < nColCount; ++nCurrCol ) { SwTableBox* pBox = (*pBoxes)[nCurrCol]; if( nCurrCol ) { // Even this box will be deleted soon, // we have to correct the width to avoid side effects SwFrmFmt* pFmt = pBox->ClaimFrmFmt(); pFmt->SetFmtAttr( SwFmtFrmSize( ATT_VAR_SIZE, 0, 0 ) ); } else pBox->ChgFrmFmt( (SwTableBoxFmt*)pNewFmt ); } } if( pLastBox ) // Robust { // The new borders of the master cell... SvxBoxItem aBox( pMergeBox->GetFrmFmt()->GetBox() ); bool bOld = aBox.GetRight() || aBox.GetBottom(); const SvxBoxItem& rBox = pLastBox->GetFrmFmt()->GetBox(); aBox.SetLine( rBox.GetRight(), BOX_LINE_RIGHT ); aBox.SetLine( rBox.GetBottom(), BOX_LINE_BOTTOM ); if( bOld || aBox.GetLeft() || aBox.GetTop() || aBox.GetRight() || aBox.GetBottom() ) (*ppMergeBox)->GetFrmFmt()->SetFmtAttr( aBox ); } if( pUndo ) pUndo->AddNewBox( pMergeBox->GetSttIdx() ); } return bMerge; } /** SwTable::_FindSuperfluousRows(..) is looking for superfluous rows, i.e. rows containing overlapped cells only. */ void SwTable::_FindSuperfluousRows( SwSelBoxes& rBoxes, SwTableLine* pFirstLn, SwTableLine* pLastLn ) { if( !pFirstLn || !pLastLn ) { if( !rBoxes.Count() ) return; pFirstLn = rBoxes[0]->GetUpper(); pLastLn = rBoxes[ rBoxes.Count() - 1 ]->GetUpper(); } sal_uInt16 nFirstLn = GetTabLines().C40_GETPOS(SwTableLine, pFirstLn ); sal_uInt16 nLastLn = GetTabLines().C40_GETPOS(SwTableLine, pLastLn ); for( sal_uInt16 nRow = nFirstLn; nRow <= nLastLn; ++nRow ) { SwTableLine* pLine = aLines[nRow]; ASSERT( pLine, "Missing table line" ); sal_uInt16 nCols = pLine->GetTabBoxes().Count(); bool bSuperfl = true; for( sal_uInt16 nCol = 0; nCol < nCols; ++nCol ) { SwTableBox *pBox = pLine->GetTabBoxes()[nCol]; if( pBox->getRowSpan() > 0 && USHRT_MAX == rBoxes.GetPos( pBox ) ) { bSuperfl = false; break; } } if( bSuperfl ) { for( sal_uInt16 nCol = 0; nCol < nCols; ++nCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCol]; rBoxes.Insert( pBox ); } } } } /** SwTableBox::FindStartOfRowSpan(..) retruns the "master" cell, the cell which overlaps the given cell, it maybe the cell itself. */ SwTableBox& SwTableBox::FindStartOfRowSpan( const SwTable& rTable, sal_uInt16 nMaxStep ) { if( getRowSpan() > 0 || !nMaxStep ) return *this; long nLeftBorder = lcl_Box2LeftBorder( *this ); SwTableBox* pBox = this; const SwTableLine* pMyUpper = GetUpper(); sal_uInt16 nLine = rTable.GetTabLines().C40_GETPOS(SwTableLine, pMyUpper ); if( nLine && nLine < rTable.GetTabLines().Count() ) { SwTableBox* pNext; do { pNext = lcl_LeftBorder2Box( nLeftBorder, rTable.GetTabLines()[--nLine] ); if( pNext ) pBox = pNext; } while( nLine && --nMaxStep && pNext && pBox->getRowSpan() < 1 ); } return *pBox; } /** SwTableBox::FindEndOfRowSpan(..) returns the last overlapped cell if there is any. Otherwise the cell itself will returned. */ SwTableBox& SwTableBox::FindEndOfRowSpan( const SwTable& rTable, sal_uInt16 nMaxStep ) { long nAbsSpan = getRowSpan(); if( nAbsSpan < 0 ) nAbsSpan = -nAbsSpan; if( nAbsSpan == 1 || !nMaxStep ) return *this; if( nMaxStep > --nAbsSpan ) nMaxStep = (sal_uInt16)nAbsSpan; const SwTableLine* pMyUpper = GetUpper(); sal_uInt16 nLine = rTable.GetTabLines().C40_GETPOS(SwTableLine, pMyUpper ); nMaxStep = nLine + nMaxStep; if( nMaxStep >= rTable.GetTabLines().Count() ) nMaxStep = rTable.GetTabLines().Count() - 1; long nLeftBorder = lcl_Box2LeftBorder( *this ); SwTableBox* pBox = lcl_LeftBorder2Box( nLeftBorder, rTable.GetTabLines()[ nMaxStep ] ); if ( !pBox ) pBox = this; return *pBox; } /** lcl_getAllMergedBoxes(..) collects all overlapped boxes to a given (master) box */ void lcl_getAllMergedBoxes( const SwTable& rTable, SwSelBoxes& rBoxes, SwTableBox& rBox ) { SwTableBox* pBox = &rBox; ASSERT( pBox == &rBox.FindStartOfRowSpan( rTable, USHRT_MAX ), "Not a master box" ); rBoxes.Insert( pBox ); if( pBox->getRowSpan() == 1 ) return; const SwTableLine* pMyUpper = pBox->GetUpper(); sal_uInt16 nLine = rTable.GetTabLines().C40_GETPOS(SwTableLine, pMyUpper ); long nLeftBorder = lcl_Box2LeftBorder( *pBox ); sal_uInt16 nCount = rTable.GetTabLines().Count(); while( ++nLine < nCount && pBox && pBox->getRowSpan() != -1 ) { pBox = lcl_LeftBorder2Box( nLeftBorder, rTable.GetTabLines()[nLine] ); if( pBox ) rBoxes.Insert( pBox ); }; } /** lcl_UnMerge(..) manipulates the row span attribute of a given master cell and its overlapped cells to split them into several pieces. */ void lcl_UnMerge( const SwTable& rTable, SwTableBox& rBox, sal_uInt16 nCnt, sal_Bool bSameHeight ) { SwSelBoxes aBoxes; lcl_getAllMergedBoxes( rTable, aBoxes, rBox ); sal_uInt16 nCount = aBoxes.Count(); if( nCount < 2 ) return; if( nCnt > nCount ) nCnt = nCount; sal_uInt16 *pSplitIdx = new sal_uInt16[ nCnt ]; if( bSameHeight ) { SwTwips *pHeights = new SwTwips[ nCount ]; SwTwips nHeight = 0; for( sal_uInt16 i = 0; i < nCount; ++i ) { SwTableLine* pLine = aBoxes[ i ]->GetUpper(); SwFrmFmt *pRowFmt = pLine->GetFrmFmt(); pHeights[ i ] = pRowFmt->GetFrmSize().GetHeight(); nHeight += pHeights[ i ]; } SwTwips nSumH = 0; sal_uInt16 nIdx = 0; for( sal_uInt16 i = 1; i <= nCnt; ++i ) { SwTwips nSplit = ( i * nHeight ) / nCnt; while( nSumH < nSplit && nIdx < nCount ) nSumH += pHeights[ nIdx++ ]; pSplitIdx[ i - 1 ] = nIdx; } delete[] pHeights; } else { for( long i = 1; i <= nCnt; ++i ) pSplitIdx[ i - 1 ] = (sal_uInt16)( ( i * nCount ) / nCnt ); } sal_uInt16 nIdx = 0; for( long i = 0; i < nCnt; ++i ) { sal_uInt16 nNextIdx = pSplitIdx[ i ]; aBoxes[ nIdx ]->setRowSpan( nNextIdx - nIdx ); lcl_InvalidateCellFrm( *aBoxes[ nIdx ] ); while( ++nIdx < nNextIdx ) aBoxes[ nIdx ]->setRowSpan( nIdx - nNextIdx ); } delete[] pSplitIdx; } /** lcl_FillSelBoxes(..) puts all boxes of a given line into the selection structure */ void lcl_FillSelBoxes( SwSelBoxes &rBoxes, SwTableLine &rLine ) { sal_uInt16 nBoxCount = rLine.GetTabBoxes().Count(); sal_uInt16 nCurrBox; for( nCurrBox = 0; nCurrBox < nBoxCount; ++nCurrBox ) rBoxes.Insert( rLine.GetTabBoxes()[nCurrBox] ); } /** SwTable::InsertSpannedRow(..) inserts "superfluous" rows, i.e. rows containig overlapped cells only. This is a preparation for an upcoming split. */ void SwTable::InsertSpannedRow( SwDoc* pDoc, sal_uInt16 nRowIdx, sal_uInt16 nCnt ) { CHECK_TABLE( *this ) ASSERT( nCnt && nRowIdx < GetTabLines().Count(), "Wrong call of InsertSpannedRow" ); SwSelBoxes aBoxes; SwTableLine& rLine = *GetTabLines()[ nRowIdx ]; lcl_FillSelBoxes( aBoxes, rLine ); SwFmtFrmSize aFSz( rLine.GetFrmFmt()->GetFrmSize() ); if( ATT_VAR_SIZE != aFSz.GetHeightSizeType() ) { SwFrmFmt* pFrmFmt = rLine.ClaimFrmFmt(); long nNewHeight = aFSz.GetHeight() / ( nCnt + 1 ); if( !nNewHeight ) ++nNewHeight; aFSz.SetHeight( nNewHeight ); pFrmFmt->SetFmtAttr( aFSz ); } _InsertRow( pDoc, aBoxes, nCnt, sal_True ); sal_uInt16 nBoxCount = rLine.GetTabBoxes().Count(); for( sal_uInt16 n = 0; n < nCnt; ++n ) { SwTableLine *pNewLine = GetTabLines()[ nRowIdx + nCnt - n ]; for( sal_uInt16 nCurrBox = 0; nCurrBox < nBoxCount; ++nCurrBox ) { long nRowSpan = rLine.GetTabBoxes()[nCurrBox]->getRowSpan(); if( nRowSpan > 0 ) nRowSpan = - nRowSpan; pNewLine->GetTabBoxes()[ nCurrBox ]->setRowSpan( nRowSpan - n ); } } lcl_ChangeRowSpan( *this, nCnt, nRowIdx, false ); CHECK_TABLE( *this ) } typedef std::pair< sal_uInt16, sal_uInt16 > SwLineOffset; typedef std::list< SwLineOffset > SwLineOffsetArray; /****************************************************************************** When a couple of table boxes has to be split, lcl_SophisticatedFillLineIndices delivers the information where and how many rows have to be inserted. Input rTable: the table to manipulate rBoxes: an array of boxes to split nCnt: how many parts are wanted Output rArr: a list of pairs ( line index, number of lines to insert ) ******************************************************************************/ void lcl_SophisticatedFillLineIndices( SwLineOffsetArray &rArr, const SwTable& rTable, const SwSelBoxes& rBoxes, sal_uInt16 nCnt ) { std::list< SwLineOffset > aBoxes; SwLineOffset aLnOfs( USHRT_MAX, USHRT_MAX ); for( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { // Collect all end line indices and the row spans const SwTableBox &rBox = rBoxes[ i ]->FindStartOfRowSpan( rTable ); ASSERT( rBox.getRowSpan() > 0, "Didn't I say 'StartOfRowSpan' ??" ) if( nCnt > rBox.getRowSpan() ) { const SwTableLine *pLine = rBox.GetUpper(); const sal_uInt16 nEnd = sal_uInt16( rBox.getRowSpan() + rTable.GetTabLines().C40_GETPOS( SwTableLine, pLine ) ); // The next if statement is a small optimization if( aLnOfs.first != nEnd || aLnOfs.second != rBox.getRowSpan() ) { aLnOfs.first = nEnd; // ok, this is the line behind the box aLnOfs.second = sal_uInt16( rBox.getRowSpan() ); // the row span aBoxes.insert( aBoxes.end(), aLnOfs ); } } } // As I said, I noted the line index _behind_ the last line of the boxes // in the resulting array the index has to be _on_ the line // nSum is to evaluate the wished value sal_uInt16 nSum = 1; while( aBoxes.size() ) { // I. step: // Looking for the "smallest" line end with the smallest row span std::list< SwLineOffset >::iterator pCurr = aBoxes.begin(); aLnOfs = *pCurr; // the line end and row span of the first box while( ++pCurr != aBoxes.end() ) { if( aLnOfs.first > pCurr->first ) { // Found a smaller line end aLnOfs.first = pCurr->first; aLnOfs.second = pCurr->second; // row span } else if( aLnOfs.first == pCurr->first && aLnOfs.second < pCurr->second ) aLnOfs.second = pCurr->second; // Found a smaller row span } ASSERT( aLnOfs.second < nCnt, "Clean-up failed" ) aLnOfs.second = nCnt - aLnOfs.second; // the number of rows to insert rArr.insert( rArr.end(), SwLineOffset( aLnOfs.first - nSum, aLnOfs.second ) ); // the correction has to be incremented because in the following // loops the line ends were manipulated nSum = nSum + aLnOfs.second; pCurr = aBoxes.begin(); while( pCurr != aBoxes.end() ) { if( pCurr->first == aLnOfs.first ) { // These boxes can be removed because the last insertion // of rows will expand their row span above the needed value std::list< SwLineOffset >::iterator pDel = pCurr; ++pCurr; aBoxes.erase( pDel ); } else { bool bBefore = ( pCurr->first - pCurr->second < aLnOfs.first ); // Manipulation of the end line indices as if the rows are // already inserted pCurr->first = pCurr->first + aLnOfs.second; if( bBefore ) { // If the insertion is inside the box, // its row span has to be incremented pCurr->second = pCurr->second + aLnOfs.second; if( pCurr->second >= nCnt ) { // if the row span is bigger than the split factor // this box is done std::list< SwLineOffset >::iterator pDel = pCurr; ++pCurr; aBoxes.erase( pDel ); } else ++pCurr; } else ++pCurr; } } } } typedef std::set< SwTwips > SwSplitLines; /** lcl_CalculateSplitLineHeights(..) delivers all y-positions where table rows have to be splitted to fulfill the requested "split same height" */ sal_uInt16 lcl_CalculateSplitLineHeights( SwSplitLines &rCurr, SwSplitLines &rNew, const SwTable& rTable, const SwSelBoxes& rBoxes, sal_uInt16 nCnt ) { if( nCnt < 2 ) return 0; std::list< SwLineOffset > aBoxes; SwLineOffset aLnOfs( USHRT_MAX, USHRT_MAX ); sal_uInt16 nFirst = USHRT_MAX; // becomes the index of the first line sal_uInt16 nLast = 0; // becomes the index of the last line of the splitting for( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { // Collect all pairs (start+end) of line indices to split const SwTableBox &rBox = rBoxes[ i ]->FindStartOfRowSpan( rTable ); ASSERT( rBox.getRowSpan() > 0, "Didn't I say 'StartOfRowSpan' ??" ) const SwTableLine *pLine = rBox.GetUpper(); const sal_uInt16 nStart = rTable.GetTabLines().C40_GETPOS( SwTableLine, pLine ); const sal_uInt16 nEnd = sal_uInt16( rBox.getRowSpan() + nStart - 1 ); // The next if statement is a small optimization if( aLnOfs.first != nStart || aLnOfs.second != nEnd ) { aLnOfs.first = nStart; aLnOfs.second = nEnd; aBoxes.insert( aBoxes.end(), aLnOfs ); if( nStart < nFirst ) nFirst = nStart; if( nEnd > nLast ) nLast = nEnd; } } if( aBoxes.empty() ) return 0; SwTwips nHeight = 0; SwTwips* pLines = new SwTwips[ nLast + 1 - nFirst ]; for( sal_uInt16 i = nFirst; i <= nLast; ++i ) { bool bLayoutAvailable = false; nHeight += rTable.GetTabLines()[ i ]->GetTableLineHeight( bLayoutAvailable ); rCurr.insert( rCurr.end(), nHeight ); pLines[ i - nFirst ] = nHeight; } std::list< SwLineOffset >::iterator pSplit = aBoxes.begin(); while( pSplit != aBoxes.end() ) { SwTwips nBase = pSplit->first <= nFirst ? 0 : pLines[ pSplit->first - nFirst - 1 ]; SwTwips nDiff = pLines[ pSplit->second - nFirst ] - nBase; for( sal_uInt16 i = 1; i < nCnt; ++i ) { SwTwips nSplit = nBase + ( i * nDiff ) / nCnt; rNew.insert( nSplit ); } ++pSplit; } delete[] pLines; return nFirst; } /** lcl_LineIndex(..) delivers the line index of the line behind or above the box selection. */ sal_uInt16 lcl_LineIndex( const SwTable& rTable, const SwSelBoxes& rBoxes, bool bBehind ) { sal_uInt16 nDirect = USHRT_MAX; sal_uInt16 nSpan = USHRT_MAX; for( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { SwTableBox *pBox = rBoxes[i]; const SwTableLine* pLine = rBoxes[i]->GetUpper(); sal_uInt16 nPos = rTable.GetTabLines().C40_GETPOS( SwTableLine, pLine ); if( USHRT_MAX != nPos ) { if( bBehind ) { if( nPos > nDirect || nDirect == USHRT_MAX ) nDirect = nPos; long nRowSpan = pBox->getRowSpan(); if( nRowSpan < 2 ) nSpan = 0; else if( nSpan ) { sal_uInt16 nEndOfRowSpan = (sal_uInt16)(nPos + nRowSpan - 1); if( nEndOfRowSpan > nSpan || nSpan == USHRT_MAX ) nSpan = nEndOfRowSpan; } } else if( nPos < nDirect ) nDirect = nPos; } } if( nSpan && nSpan < USHRT_MAX ) return nSpan; return nDirect; } /** SwTable::NewSplitRow(..) splits all selected boxes horizontally. */ sal_Bool SwTable::NewSplitRow( SwDoc* pDoc, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, sal_Bool bSameHeight ) { CHECK_TABLE( *this ) ++nCnt; _FndBox aFndBox( 0, 0 ); aFndBox.SetTableLines( rBoxes, *this ); if( bSameHeight && pDoc->GetCurrentViewShell() ) //swmod 071108//swmod 071225 { SwSplitLines aRowLines; SwSplitLines aSplitLines; sal_uInt16 nFirst = lcl_CalculateSplitLineHeights( aRowLines, aSplitLines, *this, rBoxes, nCnt ); aFndBox.DelFrms( *this ); SwTwips nLast = 0; SwSplitLines::iterator pSplit = aSplitLines.begin(); SwSplitLines::iterator pCurr = aRowLines.begin(); while( pCurr != aRowLines.end() ) { while( pSplit != aSplitLines.end() && *pSplit < *pCurr ) { InsertSpannedRow( pDoc, nFirst, 1 ); SwTableLine* pRow = GetTabLines()[ nFirst ]; SwFrmFmt* pRowFmt = pRow->ClaimFrmFmt(); SwFmtFrmSize aFSz( pRowFmt->GetFrmSize() ); aFSz.SetHeightSizeType( ATT_MIN_SIZE ); aFSz.SetHeight( *pSplit - nLast ); pRowFmt->SetFmtAttr( aFSz ); nLast = *pSplit; ++pSplit; ++nFirst; } if( pSplit != aSplitLines.end() && *pCurr == *pSplit ) ++pSplit; SwTableLine* pRow = GetTabLines()[ nFirst ]; SwFrmFmt* pRowFmt = pRow->ClaimFrmFmt(); SwFmtFrmSize aFSz( pRowFmt->GetFrmSize() ); aFSz.SetHeightSizeType( ATT_MIN_SIZE ); aFSz.SetHeight( *pCurr - nLast ); pRowFmt->SetFmtAttr( aFSz ); nLast = *pCurr; ++pCurr; ++nFirst; } } else { aFndBox.DelFrms( *this ); bSameHeight = sal_False; } if( !bSameHeight ) { SwLineOffsetArray aLineOffs; lcl_SophisticatedFillLineIndices( aLineOffs, *this, rBoxes, nCnt ); SwLineOffsetArray::reverse_iterator pCurr( aLineOffs.rbegin() ); while( pCurr != aLineOffs.rend() ) { InsertSpannedRow( pDoc, pCurr->first, pCurr->second ); ++pCurr; } } std::set< sal_uInt16> aIndices; for( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { ASSERT( rBoxes[i]->getRowSpan() != 1, "Forgot to split?" ) if( rBoxes[i]->getRowSpan() > 1 ) aIndices.insert( i ); } std::set< sal_uInt16 >::iterator pCurrBox = aIndices.begin(); while( pCurrBox != aIndices.end() ) lcl_UnMerge( *this, *rBoxes[*pCurrBox++], nCnt, bSameHeight ); CHECK_TABLE( *this ) //Layout updaten aFndBox.MakeFrms( *this ); return sal_True; } /** SwTable::InsertRow(..) inserts one or more rows before or behind the selected boxes. */ sal_Bool SwTable::InsertRow( SwDoc* pDoc, const SwSelBoxes& rBoxes, sal_uInt16 nCnt, sal_Bool bBehind ) { bool bRet = false; if( IsNewModel() ) { CHECK_TABLE( *this ) sal_uInt16 nRowIdx = lcl_LineIndex( *this, rBoxes, bBehind ); if( nRowIdx < USHRT_MAX ) { _FndBox aFndBox( 0, 0 ); aFndBox.SetTableLines( rBoxes, *this ); aFndBox.DelFrms( *this ); // aFndBox.SaveChartData( *this ); bRet = true; SwTableLine *pLine = GetTabLines()[ nRowIdx ]; SwSelBoxes aLineBoxes; lcl_FillSelBoxes( aLineBoxes, *pLine ); _InsertRow( pDoc, aLineBoxes, nCnt, bBehind ); sal_uInt16 nBoxCount = pLine->GetTabBoxes().Count(); sal_uInt16 nOfs = bBehind ? 0 : 1; for( sal_uInt16 n = 0; n < nCnt; ++n ) { SwTableLine *pNewLine = GetTabLines()[ nRowIdx+nCnt-n-nOfs]; for( sal_uInt16 nCurrBox = 0; nCurrBox < nBoxCount; ++nCurrBox ) { long nRowSpan = pLine->GetTabBoxes()[nCurrBox]->getRowSpan(); if( bBehind ) { if( nRowSpan == 1 || nRowSpan == -1 ) nRowSpan = n + 1; else if( nRowSpan > 1 ) nRowSpan = - nRowSpan; } else { if( nRowSpan > 0 ) nRowSpan = n + 1; else --nRowSpan; } pNewLine->GetTabBoxes()[ nCurrBox ]->setRowSpan( nRowSpan - n ); } } if( bBehind ) ++nRowIdx; if( nRowIdx ) lcl_ChangeRowSpan( *this, nCnt, --nRowIdx, true ); //Layout update aFndBox.MakeFrms( *this ); // aFndBox.RestoreChartData( *this ); } CHECK_TABLE( *this ) } else bRet = _InsertRow( pDoc, rBoxes, nCnt, bBehind ); return bRet; } /** SwTable::PrepareDelBoxes(..) adjusts the row span attributes for an upcoming deletion of table cells and invalidates the layout of these cells. */ void SwTable::PrepareDelBoxes( const SwSelBoxes& rBoxes ) { if( IsNewModel() ) { for( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { SwTableBox* pBox = rBoxes[i]; long nRowSpan = pBox->getRowSpan(); if( nRowSpan != 1 && pBox->GetFrmFmt()->GetFrmSize().GetWidth() ) { long nLeft = lcl_Box2LeftBorder( *pBox ); SwTableLine *pLine = pBox->GetUpper(); sal_uInt16 nLinePos = GetTabLines().C40_GETPOS(SwTableLine, pLine); ASSERT( nLinePos < USHRT_MAX, "Box/table mismatch" ) if( nRowSpan > 1 ) { if( ++nLinePos < GetTabLines().Count() ) { pLine = GetTabLines()[ nLinePos ]; pBox = lcl_LeftBorder2Box( nLeft, pLine ); ASSERT( pBox, "RowSpan irritation I" ) if( pBox ) pBox->setRowSpan( --nRowSpan ); } } else if( nLinePos > 0 ) { do { pLine = GetTabLines()[ --nLinePos ]; pBox = lcl_LeftBorder2Box( nLeft, pLine ); ASSERT( pBox, "RowSpan irritation II" ) if( pBox ) { nRowSpan = pBox->getRowSpan(); if( nRowSpan > 1 ) { lcl_InvalidateCellFrm( *pBox ); --nRowSpan; } else ++nRowSpan; pBox->setRowSpan( nRowSpan ); } else nRowSpan = 1; } while( nRowSpan < 0 && nLinePos > 0 ); } } } } } /** lcl_SearchSelBox(..) adds cells of a given table row to the selection structure if it overlaps with the given x-position range */ void lcl_SearchSelBox( const SwTable &rTable, SwSelBoxes& rBoxes, long nMin, long nMax, SwTableLine& rLine, bool bChkProtected, bool bColumn ) { long nLeft = 0; long nRight = 0; long nMid = ( nMax + nMin )/ 2; sal_uInt16 nCount = rLine.GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nCount; ++nCurrBox ) { SwTableBox* pBox = rLine.GetTabBoxes()[nCurrBox]; ASSERT( pBox, "Missing table box" ); long nWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth(); nRight += nWidth; if( nRight > nMin ) { bool bAdd = false; if( nRight <= nMax ) bAdd = nLeft >= nMin || nRight >= nMid || nRight - nMin > nMin - nLeft; else bAdd = nLeft <= nMid || nRight - nMax < nMax - nLeft; long nRowSpan = pBox->getRowSpan(); if( bAdd && //( bColumn || nRowSpan > 0 ) && ( !bChkProtected || !pBox->GetFrmFmt()->GetProtect().IsCntntProtected() ) ) { sal_uInt16 nOldCnt = rBoxes.Count(); rBoxes.Insert( pBox ); if( bColumn && nRowSpan != 1 && nOldCnt < rBoxes.Count() ) { SwTableBox *pMasterBox = pBox->getRowSpan() > 0 ? pBox : &pBox->FindStartOfRowSpan( rTable, USHRT_MAX ); lcl_getAllMergedBoxes( rTable, rBoxes, *pMasterBox ); } } } if( nRight >= nMax ) break; nLeft = nRight; } } /** void SwTable::CreateSelection(..) fills the selection structure with table cells for a given SwPaM, ie. start and end position inside a table */ void SwTable::CreateSelection( const SwPaM& rPam, SwSelBoxes& rBoxes, const SearchType eSearch, bool bChkProtected ) const { ASSERT( bNewModel, "Don't call me for old tables" ); if( !aLines.Count() ) return; const SwNode* pStartNd = rPam.GetPoint()->nNode.GetNode().FindTableBoxStartNode(); const SwNode* pEndNd = rPam.GetMark()->nNode.GetNode().FindTableBoxStartNode(); if( !pStartNd || !pEndNd ) return; CreateSelection( pStartNd, pEndNd, rBoxes, eSearch, bChkProtected ); } /** void SwTable::CreateSelection(..) fills the selection structure with table cells for given start and end nodes inside a table */ void SwTable::CreateSelection( const SwNode* pStartNd, const SwNode* pEndNd, SwSelBoxes& rBoxes, const SearchType eSearch, bool bChkProtected ) const { // SwSelBoxes aKeepBoxes; if( rBoxes.Count() ) { // aKeepBoxes.Insert( &rBoxes ); rBoxes.Remove( sal_uInt16(0), rBoxes.Count() ); } // Looking for start and end of the selection given by SwNode-pointer sal_uInt16 nLines = aLines.Count(); // nTop becomes the line number of the upper box // nBottom becomes the line number of the lower box sal_uInt16 nTop = 0, nBottom = 0; // nUpperMin becomes the left border value of the upper box // nUpperMax becomes the right border of the upper box // nLowerMin and nLowerMax the borders of the lower box long nUpperMin = 0, nUpperMax = 0; long nLowerMin = 0, nLowerMax = 0; // nFound will incremented if a box is found // 0 => no box found; 1 => the upper box has been found; 2 => both found int nFound = 0; for( sal_uInt16 nRow = 0; nFound < 2 && nRow < nLines; ++nRow ) { SwTableLine* pLine = aLines[nRow]; ASSERT( pLine, "Missing table line" ); sal_uInt16 nCols = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCol = 0; nCol < nCols; ++nCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCol]; ASSERT( pBox, "Missing table box" ); if( pBox->GetSttNd() == pEndNd || pBox->GetSttNd() == pStartNd ) { if( !bChkProtected || !pBox->GetFrmFmt()->GetProtect().IsCntntProtected() ) rBoxes.Insert( pBox ); if( nFound ) { nBottom = nRow; lcl_CheckMinMax( nLowerMin, nLowerMax, *pLine, nCol, true ); ++nFound; break; } else { nTop = nRow; lcl_CheckMinMax( nUpperMin, nUpperMax, *pLine, nCol, true ); ++nFound; // If start and end node are identical, we're nearly done.. if( pEndNd == pStartNd ) { nBottom = nTop; nLowerMin = nUpperMin; nLowerMax = nUpperMax; ++nFound; } } } } } if( nFound < 2 ) return; // At least one node was not a part of the given table if( eSearch == SEARCH_ROW ) { // Selection of a row is quiet easy: // every (unprotected) box between start and end line // with a positive row span will be collected for( sal_uInt16 nRow = nTop; nRow <= nBottom; ++nRow ) { SwTableLine* pLine = aLines[nRow]; ASSERT( pLine, "Missing table line" ); sal_uInt16 nCount = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCurrBox = 0; nCurrBox < nCount; ++nCurrBox ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrBox]; ASSERT( pBox, "Missing table box" ); if( pBox->getRowSpan() > 0 && ( !bChkProtected || !pBox->GetFrmFmt()->GetProtect().IsCntntProtected() ) ) rBoxes.Insert( pBox ); } } return; } bool bCombine = nTop == nBottom; if( !bCombine ) { long nMinWidth = nUpperMax - nUpperMin; long nTmp = nLowerMax - nLowerMin; if( nMinWidth > nTmp ) nMinWidth = nTmp; nTmp = nLowerMax < nUpperMax ? nLowerMax : nUpperMax; nTmp -= ( nLowerMin < nUpperMin ) ? nUpperMin : nLowerMin; // If the overlapping between upper and lower box is less than half // of the width (of the smaller cell), bCombine is set, // e.g. if upper and lower cell are in different columns bCombine = ( nTmp + nTmp < nMinWidth ); } if( bCombine ) { if( nUpperMin < nLowerMin ) nLowerMin = nUpperMin; else nUpperMin = nLowerMin; if( nUpperMax > nLowerMax ) nLowerMax = nUpperMax; else nUpperMax = nLowerMax; } const bool bColumn = eSearch == SEARCH_COL; if( bColumn ) { for( sal_uInt16 i = 0; i < nTop; ++i ) lcl_SearchSelBox( *this, rBoxes, nUpperMin, nUpperMax, *aLines[i], bChkProtected, bColumn ); } { long nMin = nUpperMin < nLowerMin ? nUpperMin : nLowerMin; long nMax = nUpperMax < nLowerMax ? nLowerMax : nUpperMax; for( sal_uInt16 i = nTop; i <= nBottom; ++i ) lcl_SearchSelBox( *this, rBoxes, nMin, nMax, *aLines[i], bChkProtected, bColumn ); } /* if( nTop + 1 < nBottom ) { long nInnerMin = nUpperMin < nLowerMin ? nLowerMin : nUpperMin; long nInnerMax = nUpperMax < nLowerMax ? nUpperMax : nLowerMax; for( sal_uInt16 i = nTop + 1; i < nBottom; ++i ) lcl_SearchSelBox( *this, rBoxes, nInnerMin, nInnerMax, *aLines[i], bChkProtected, bColumn ); } if( bCombine ) // => nUpperMin == nLowerMin, nUpperMax == nLowerMax { if( nBottom > nTop ) lcl_SearchSelBox( *this, rBoxes, nUpperMin, nUpperMax, *aLines[nTop], bChkProtected, bColumn ); lcl_SearchSelBox( *this, rBoxes, nLowerMin, nLowerMax, *aLines[nBottom], bChkProtected, bColumn ); } else if( aKeepBoxes.Count() ) { long nMin = nUpperMin < nLowerMin ? nUpperMin : nLowerMin; long nMax = nUpperMax < nLowerMax ? nLowerMax : nUpperMax; SwSelBoxes aCandidates; for( sal_uInt16 i = nTop; i <= nBottom; ++i ) lcl_SearchSelBox( *this, aCandidates, nMin, nMax, *aLines[i], bChkProtected, bColumn ); sal_uInt16 nOld = 0, nNew = 0; while ( nOld < aKeepBoxes.Count() && nNew < aCandidates.Count() ) { const SwTableBox* pPOld = *( aKeepBoxes.GetData() + nOld ); SwTableBox* pPNew = *( aCandidates.GetData() + nNew ); if( pPOld == pPNew ) { // this box will stay rBoxes.Insert( pPNew ); ++nOld; ++nNew; } else if( pPOld->GetSttIdx() < pPNew->GetSttIdx() ) ++nOld; else ++nNew; } } */ if( bColumn ) { for( sal_uInt16 i = nBottom + 1; i < nLines; ++i ) lcl_SearchSelBox( *this, rBoxes, nLowerMin, nLowerMax, *aLines[i], bChkProtected, true ); } } /** void SwTable::ExpandColumnSelection(..) adds cell to the give selection to assure that at least one cell of every row is part of the selection. */ void SwTable::ExpandColumnSelection( SwSelBoxes& rBoxes, long &rMin, long &rMax ) const { ASSERT( bNewModel, "Don't call me for old tables" ); rMin = 0; rMax = 0; if( !aLines.Count() || !rBoxes.Count() ) return; sal_uInt16 nLineCnt = aLines.Count(); sal_uInt16 nBoxCnt = rBoxes.Count(); sal_uInt16 nBox = 0; for( sal_uInt16 nRow = 0; nRow < nLineCnt && nBox < nBoxCnt; ++nRow ) { SwTableLine* pLine = aLines[nRow]; ASSERT( pLine, "Missing table line" ); sal_uInt16 nCols = pLine->GetTabBoxes().Count(); for( sal_uInt16 nCol = 0; nCol < nCols; ++nCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCol]; ASSERT( pBox, "Missing table box" ); if( pBox == rBoxes[nBox] ) { lcl_CheckMinMax( rMin, rMax, *pLine, nCol, nBox == 0 ); if( ++nBox >= nBoxCnt ) break; } } } nBox = 0; for( sal_uInt16 nRow = 0; nRow < nLineCnt; ++nRow ) { SwTableLine* pLine = aLines[nRow]; sal_uInt16 nCols = pLine->GetTabBoxes().Count(); long nLeft = 0; long nRight = 0; for( sal_uInt16 nCurrBox = 0; nCurrBox < nCols; ++nCurrBox ) { nLeft = nRight; SwTableBox* pBox = pLine->GetTabBoxes()[nCurrBox]; nRight += pBox->GetFrmFmt()->GetFrmSize().GetWidth(); if( nLeft >= rMin && nRight <= rMax ) rBoxes.Insert( pBox ); } } } /** SwTable::PrepareDeleteCol(..) adjusts the widths of the neighbour cells of a cell selection for an upcoming (column) deletion */ void SwTable::PrepareDeleteCol( long nMin, long nMax ) { ASSERT( bNewModel, "Don't call me for old tables" ); if( !aLines.Count() || nMax < nMin ) return; long nMid = nMin ? ( nMin + nMax ) / 2 : 0; const SwTwips nTabSize = GetFrmFmt()->GetFrmSize().GetWidth(); if( nTabSize == nMax ) nMid = nMax; sal_uInt16 nLineCnt = aLines.Count(); for( sal_uInt16 nRow = 0; nRow < nLineCnt; ++nRow ) { SwTableLine* pLine = aLines[nRow]; sal_uInt16 nCols = pLine->GetTabBoxes().Count(); long nLeft = 0; long nRight = 0; for( sal_uInt16 nCurrBox = 0; nCurrBox < nCols; ++nCurrBox ) { nLeft = nRight; SwTableBox* pBox = pLine->GetTabBoxes()[nCurrBox]; nRight += pBox->GetFrmFmt()->GetFrmSize().GetWidth(); if( nRight < nMin ) continue; if( nLeft > nMax ) break; long nNewWidth = -1; if( nLeft < nMin ) { if( nRight <= nMax ) nNewWidth = nMid - nLeft; } else if( nRight > nMax ) nNewWidth = nRight - nMid; else nNewWidth = 0; if( nNewWidth >= 0 ) { SwFrmFmt* pFrmFmt = pBox->ClaimFrmFmt(); SwFmtFrmSize aFrmSz( pFrmFmt->GetFrmSize() ); aFrmSz.SetWidth( nNewWidth ); pFrmFmt->SetFmtAttr( aFrmSz ); } } } } /** SwTable::ExpandSelection(..) adds all boxes to the box selections which are overlapped by it. */ void SwTable::ExpandSelection( SwSelBoxes& rBoxes ) const { for( sal_uInt16 i = 0; i < rBoxes.Count(); ++i ) { SwTableBox *pBox = rBoxes[i]; long nRowSpan = pBox->getRowSpan(); if( nRowSpan != 1 ) { SwTableBox *pMasterBox = nRowSpan > 0 ? pBox : &pBox->FindStartOfRowSpan( *this, USHRT_MAX ); lcl_getAllMergedBoxes( *this, rBoxes, *pMasterBox ); } } } /** SwTable::CheckRowSpan(..) looks for the next line without an overlapping to the previous line. */ void SwTable::CheckRowSpan( SwTableLinePtr &rpLine, bool bUp ) const { ASSERT( IsNewModel(), "Don't call me for old tables" ); sal_uInt16 nLineIdx = GetTabLines().C40_GETPOS( SwTableLine, rpLine ); ASSERT( nLineIdx < GetTabLines().Count(), "Start line out of range" ); bool bChange = true; if( bUp ) { while( bChange ) { bChange = false; rpLine = GetTabLines()[ nLineIdx ]; sal_uInt16 nCols = rpLine->GetTabBoxes().Count(); for( sal_uInt16 nCol = 0; !bChange && nCol < nCols; ++nCol ) { SwTableBox* pBox = rpLine->GetTabBoxes()[nCol]; if( pBox->getRowSpan() > 1 || pBox->getRowSpan() < -1 ) bChange = true; } if( bChange ) { if( nLineIdx ) --nLineIdx; else { bChange = false; rpLine = 0; } } } } else { sal_uInt16 nMaxLine = GetTabLines().Count(); while( bChange ) { bChange = false; rpLine = GetTabLines()[ nLineIdx ]; sal_uInt16 nCols = rpLine->GetTabBoxes().Count(); for( sal_uInt16 nCol = 0; !bChange && nCol < nCols; ++nCol ) { SwTableBox* pBox = rpLine->GetTabBoxes()[nCol]; if( pBox->getRowSpan() < 0 ) bChange = true; } if( bChange ) { ++nLineIdx; if( nLineIdx >= nMaxLine ) { bChange = false; rpLine = 0; } } } } } // This structure corrects the row span attributes for a top line of a table // In a top line no negative row span is allowed, so these have to be corrected. // If there has been at least one correction, all values are stored // and can be used by undo of table split SwSaveRowSpan::SwSaveRowSpan( SwTableBoxes& rBoxes, sal_uInt16 nSplitLn ) : mnSplitLine( nSplitLn ) { bool bDontSave = true; // nothing changed, nothing to save sal_uInt16 nColCount = rBoxes.Count(); ASSERT( nColCount, "Empty Table Line" ) mnRowSpans.resize( nColCount ); for( sal_uInt16 nCurrCol = 0; nCurrCol < nColCount; ++nCurrCol ) { SwTableBox* pBox = rBoxes[nCurrCol]; ASSERT( pBox, "Missing Table Box" ); long nRowSp = pBox->getRowSpan(); mnRowSpans[ nCurrCol ] = nRowSp; if( nRowSp < 0 ) { bDontSave = false; nRowSp = -nRowSp; pBox->setRowSpan( nRowSp ); // correction needed } } if( bDontSave ) mnRowSpans.clear(); } // This function is called by undo of table split to restore the old row span // values at the split line void SwTable::RestoreRowSpan( const SwSaveRowSpan& rSave ) { if( !IsNewModel() ) // for new model only return; sal_uInt16 nLineCount = GetTabLines().Count(); ASSERT( rSave.mnSplitLine < nLineCount, "Restore behind last line?" ) if( rSave.mnSplitLine < nLineCount ) { SwTableLine* pLine = GetTabLines()[rSave.mnSplitLine]; sal_uInt16 nColCount = pLine->GetTabBoxes().Count(); ASSERT( nColCount, "Empty Table Line" ) ASSERT( nColCount == rSave.mnRowSpans.size(), "Wrong row span store" ) if( nColCount == rSave.mnRowSpans.size() ) { for( sal_uInt16 nCurrCol = 0; nCurrCol < nColCount; ++nCurrCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrCol]; ASSERT( pBox, "Missing Table Box" ); long nRowSp = pBox->getRowSpan(); if( nRowSp != rSave.mnRowSpans[ nCurrCol ] ) { ASSERT( -nRowSp == rSave.mnRowSpans[ nCurrCol ], "Pardon me?!" ) ASSERT( rSave.mnRowSpans[ nCurrCol ] < 0, "Pardon me?!" ) pBox->setRowSpan( -nRowSp ); sal_uInt16 nLine = rSave.mnSplitLine; if( nLine ) { long nLeftBorder = lcl_Box2LeftBorder( *pBox ); SwTableBox* pNext; do { pNext = lcl_LeftBorder2Box( nLeftBorder, GetTabLines()[--nLine] ); if( pNext ) { pBox = pNext; long nNewSpan = pBox->getRowSpan(); if( pBox->getRowSpan() < 1 ) nNewSpan -= nRowSp; else { nNewSpan += nRowSp; pNext = 0; } pBox->setRowSpan( nNewSpan ); } } while( nLine && pNext ); } } } } } } SwSaveRowSpan* SwTable::CleanUpTopRowSpan( sal_uInt16 nSplitLine ) { SwSaveRowSpan* pRet = 0; if( !IsNewModel() ) return pRet; pRet = new SwSaveRowSpan( GetTabLines()[0]->GetTabBoxes(), nSplitLine ); if( pRet->mnRowSpans.size() == 0 ) { delete pRet; pRet = 0; } return pRet; } void SwTable::CleanUpBottomRowSpan( sal_uInt16 nDelLines ) { if( !IsNewModel() ) return; sal_uInt16 nLastLine = GetTabLines().Count()-1; SwTableLine* pLine = GetTabLines()[nLastLine]; sal_uInt16 nColCount = pLine->GetTabBoxes().Count(); ASSERT( nColCount, "Empty Table Line" ) for( sal_uInt16 nCurrCol = 0; nCurrCol < nColCount; ++nCurrCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrCol]; ASSERT( pBox, "Missing Table Box" ); long nRowSp = pBox->getRowSpan(); if( nRowSp < 0 ) nRowSp = -nRowSp; if( nRowSp > 1 ) { lcl_ChangeRowSpan( *this, -static_cast(nDelLines), nLastLine, false ); break; } } } #ifdef DBG_UTIL struct RowSpanCheck { long nRowSpan; SwTwips nLeft; SwTwips nRight; }; void SwTable::CheckConsistency() const { if( !IsNewModel() ) return; sal_uInt16 nLineCount = GetTabLines().Count(); const SwTwips nTabSize = GetFrmFmt()->GetFrmSize().GetWidth(); SwTwips nLineWidth = 0; std::list< RowSpanCheck > aRowSpanCells; std::list< RowSpanCheck >::iterator aIter = aRowSpanCells.end(); for( sal_uInt16 nCurrLine = 0; nCurrLine < nLineCount; ++nCurrLine ) { SwTwips nWidth = 0; SwTableLine* pLine = GetTabLines()[nCurrLine]; ASSERT( pLine, "Missing Table Line" ) sal_uInt16 nColCount = pLine->GetTabBoxes().Count(); ASSERT( nColCount, "Empty Table Line" ) for( sal_uInt16 nCurrCol = 0; nCurrCol < nColCount; ++nCurrCol ) { SwTableBox* pBox = pLine->GetTabBoxes()[nCurrCol]; ASSERT( pBox, "Missing Table Box" ); SwTwips nNewWidth = pBox->GetFrmFmt()->GetFrmSize().GetWidth() + nWidth; long nRowSp = pBox->getRowSpan(); if( nRowSp < 0 ) { ASSERT( aIter != aRowSpanCells.end(), "Missing master box" ) #ifdef DBG_UTIL //RowSpanCheck &rCheck = *aIter; #endif ASSERT( aIter->nLeft == nWidth && aIter->nRight == nNewWidth, "Wrong position/size of overlapped table box" ); --(aIter->nRowSpan); ASSERT( aIter->nRowSpan == -nRowSp, "Wrong row span value" ); if( nRowSp == -1 ) { std::list< RowSpanCheck >::iterator aEraseIter = aIter; ++aIter; aRowSpanCells.erase( aEraseIter ); } else ++aIter; } else if( nRowSp != 1 ) { ASSERT( nRowSp, "Zero row span?!" ); RowSpanCheck aEntry; aEntry.nLeft = nWidth; aEntry.nRight = nNewWidth; aEntry.nRowSpan = nRowSp; aRowSpanCells.insert( aIter, aEntry ); } nWidth = nNewWidth; } if( !nCurrLine ) nLineWidth = nWidth; ASSERT( nWidth == nLineWidth, "Different Line Widths" ) ASSERT( nWidth == nTabSize, "Boxen der Line zu klein/gross" ) ASSERT( nWidth >= 0 && nWidth <= USHRT_MAX, "Width out of range" ) ASSERT( aIter == aRowSpanCells.end(), "Missing overlapped box" ) aIter = aRowSpanCells.begin(); } bool bEmpty = aRowSpanCells.empty(); ASSERT( bEmpty, "Open row span detected" ) } #endif #ifdef FINDSTARTENDOFROWSPANCACHE /* * A small optimization for FindStartEndOfRowSpan START * * NOTE: Results of some measurement revealed that this cache * does not improve performance! */ class SwFindRowSpanCache { private: struct SwFindRowSpanCacheObj { const SwTableBox* mpKeyBox; const SwTableBox* mpCacheBox; sal_uInt16 mnSteps; bool mbStart; SwFindRowSpanCacheObj( const SwTableBox& rKeyBox, const SwTableBox& rCacheBox, sal_uInt16 nSteps, bool bStart ) : mpKeyBox( &rKeyBox ), mpCacheBox( &rCacheBox ), mnSteps( nSteps ), mbStart( bStart ) {} }; std::list< SwFindRowSpanCacheObj > aCache; bool mbUseCache; static SwFindRowSpanCache* mpFindRowSpanCache; SwFindRowSpanCache(); public: static SwFindRowSpanCache& getSwFindRowSpanCache(); const SwTableBox* FindCachedStartEndOfRowSpan( const SwTableBox& rKeyBox, sal_uInt16 nSteps, bool bStart ); void SetCachedStartEndOfRowSpan( const SwTableBox& rKeyBox, const SwTableBox& rCacheBox, sal_uInt16 nSteps, bool bStart ); void SetUseCache( bool bNew ); }; SwFindRowSpanCache* SwFindRowSpanCache::mpFindRowSpanCache = 0; SwFindRowSpanCache& SwFindRowSpanCache::getSwFindRowSpanCache() { if ( !mpFindRowSpanCache ) mpFindRowSpanCache = new SwFindRowSpanCache; return *mpFindRowSpanCache; } SwFindRowSpanCache::SwFindRowSpanCache() : mbUseCache( false ) { } void SwFindRowSpanCache::SetUseCache( bool bNew ) { mbUseCache = bNew; aCache.clear(); } const SwTableBox* SwFindRowSpanCache::FindCachedStartEndOfRowSpan( const SwTableBox& rKeyBox, sal_uInt16 nSteps, bool bStart ) { static nCallCount = 0; static nSuccessCount = 0; ++nCallCount; if ( !mbUseCache ) return 0; const SwTableBox* pRet = 0; std::list< SwFindRowSpanCacheObj >::const_iterator aIter; for ( aIter = aCache.begin(); aIter != aCache.end(); ++aIter ) { if ( aIter->mpKeyBox == &rKeyBox && aIter->mnSteps == nSteps && aIter->mbStart == bStart ) { pRet = aIter->mpCacheBox; ++nSuccessCount; break; } } return pRet; } const int FindBoxCacheSize = 2; void SwFindRowSpanCache::SetCachedStartEndOfRowSpan( const SwTableBox& rKeyBox, const SwTableBox& rCacheBox, sal_uInt16 nSteps, bool bStart ) { if ( !mbUseCache ) return; const SwFindRowSpanCacheObj aNew( rKeyBox, rCacheBox, nSteps, bStart ); aCache.push_front( aNew ); if ( aCache.size() > FindBoxCacheSize ) aCache.pop_back(); } /* * A small optimization for FindStartEndOfRowSpan END */ #endif