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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 #include #include #include #include // OD 26.08.2003 #i18103# #include #include //siehe auch swtable.cxx #define COLFUZZY 20L // defines, die bestimmen, wie Tabellen Boxen gemergt werden: // - 1. alle leeren Zeilen entfernen, alle Boxen werden mit Blank, // alle Lines mit ParaBreak getrennt // - 2. alle leeren Zeilen und alle leeren Boxen am Anfang und Ende // entfernen, alle Boxen werden mit Blank, // alle Lines mit ParaBreak getrennt // - 3. alle leeren Boxen entfernen, alle Boxen werden mit Blank, // alle Lines mit ParaBreak getrennt #undef DEL_ONLY_EMPTY_LINES #undef DEL_EMPTY_BOXES_AT_START_AND_END #define DEL_ALL_EMPTY_BOXES _SV_IMPL_SORTAR_ALG( SwSelBoxes, SwTableBoxPtr ) BOOL SwSelBoxes::Seek_Entry( const SwTableBoxPtr rSrch, USHORT* pFndPos ) const { ULONG nIdx = rSrch->GetSttIdx(); USHORT nO = Count(), nM, nU = 0; if( nO > 0 ) { nO--; while( nU <= nO ) { nM = nU + ( nO - nU ) / 2; if( (*this)[ nM ]->GetSttNd() == rSrch->GetSttNd() ) { if( pFndPos ) *pFndPos = nM; return TRUE; } else if( (*this)[ nM ]->GetSttIdx() < nIdx ) nU = nM + 1; else if( nM == 0 ) { if( pFndPos ) *pFndPos = nU; return FALSE; } else nO = nM - 1; } } if( pFndPos ) *pFndPos = nU; return FALSE; } SV_IMPL_PTRARR( SwCellFrms, SwCellFrm* ) struct _CmpLPt { Point aPos; const SwTableBox* pSelBox; BOOL bVert; _CmpLPt( const Point& rPt, const SwTableBox* pBox, BOOL bVertical ); BOOL operator==( const _CmpLPt& rCmp ) const { return X() == rCmp.X() && Y() == rCmp.Y() ? TRUE : FALSE; } BOOL operator<( const _CmpLPt& rCmp ) const { if ( bVert ) return X() > rCmp.X() || ( X() == rCmp.X() && Y() < rCmp.Y() ) ? TRUE : FALSE; else return Y() < rCmp.Y() || ( Y() == rCmp.Y() && X() < rCmp.X() ) ? TRUE : FALSE; } long X() const { return aPos.X(); } long Y() const { return aPos.Y(); } }; SV_DECL_VARARR_SORT( _MergePos, _CmpLPt, 0, 40 ) SV_IMPL_VARARR_SORT( _MergePos, _CmpLPt ) SV_IMPL_PTRARR( _FndBoxes, _FndBox* ) SV_IMPL_PTRARR( _FndLines, _FndLine* ) struct _Sort_CellFrm { const SwCellFrm* pFrm; _Sort_CellFrm( const SwCellFrm& rCFrm ) : pFrm( &rCFrm ) {} }; SV_DECL_VARARR( _Sort_CellFrms, _Sort_CellFrm, 16, 16 ) SV_IMPL_VARARR( _Sort_CellFrms, _Sort_CellFrm ) SV_IMPL_PTRARR( SwChartBoxes, SwTableBoxPtr ); SV_IMPL_PTRARR( SwChartLines, SwChartBoxes* ); const SwLayoutFrm *lcl_FindCellFrm( const SwLayoutFrm *pLay ) { while ( pLay && !pLay->IsCellFrm() ) pLay = pLay->GetUpper(); return pLay; } const SwLayoutFrm *lcl_FindNextCellFrm( const SwLayoutFrm *pLay ) { //Dafuer sorgen, dass die Zelle auch verlassen wird (Bereiche) const SwLayoutFrm *pTmp = pLay; do { pTmp = pTmp->GetNextLayoutLeaf(); } while( pLay->IsAnLower( pTmp ) ); while( pTmp && !pTmp->IsCellFrm() ) pTmp = pTmp->GetUpper(); return pTmp; } void GetTblSelCrs( const SwCrsrShell &rShell, SwSelBoxes& rBoxes ) { if( rBoxes.Count() ) rBoxes.Remove( USHORT(0), rBoxes.Count() ); if( rShell.IsTableMode() && ((SwCrsrShell&)rShell).UpdateTblSelBoxes()) rBoxes.Insert( &rShell.GetTableCrsr()->GetBoxes() ); } void GetTblSelCrs( const SwTableCursor& rTblCrsr, SwSelBoxes& rBoxes ) { if( rBoxes.Count() ) rBoxes.Remove( USHORT(0), rBoxes.Count() ); if( rTblCrsr.IsChgd() || !rTblCrsr.GetBoxesCount() ) { SwTableCursor* pTCrsr = (SwTableCursor*)&rTblCrsr; pTCrsr->GetDoc()->GetCurrentLayout()->MakeTblCrsrs( *pTCrsr ); //swmod 080218 } if( rTblCrsr.GetBoxesCount() ) rBoxes.Insert( &rTblCrsr.GetBoxes() ); } void GetTblSel( const SwCrsrShell& rShell, SwSelBoxes& rBoxes, const SwTblSearchType eSearchType ) { //Start- und Endzelle besorgen und den naechsten fragen. if ( !rShell.IsTableMode() ) rShell.GetCrsr(); GetTblSel( *rShell.getShellCrsr(false), rBoxes, eSearchType ); } void GetTblSel( const SwCursor& rCrsr, SwSelBoxes& rBoxes, const SwTblSearchType eSearchType ) { //Start- und Endzelle besorgen und den naechsten fragen. ASSERT( rCrsr.GetCntntNode() && rCrsr.GetCntntNode( FALSE ), "Tabselection nicht auf Cnt." ); // Zeilen-Selektion: // teste ob Tabelle komplex ist. Wenn ja, dann immer uebers Layout // die selektierten Boxen zusammen suchen. Andernfalls ueber die // Tabellen-Struktur (fuer Makros !!) const SwCntntNode* pContentNd = rCrsr.GetNode()->GetCntntNode(); const SwTableNode* pTblNd = pContentNd ? pContentNd->FindTableNode() : 0; if( pTblNd && pTblNd->GetTable().IsNewModel() ) { SwTable::SearchType eSearch; switch( nsSwTblSearchType::TBLSEARCH_COL & eSearchType ) { case nsSwTblSearchType::TBLSEARCH_ROW: eSearch = SwTable::SEARCH_ROW; break; case nsSwTblSearchType::TBLSEARCH_COL: eSearch = SwTable::SEARCH_COL; break; default: eSearch = SwTable::SEARCH_NONE; break; } const bool bChkP = 0 != ( nsSwTblSearchType::TBLSEARCH_PROTECT & eSearchType ); pTblNd->GetTable().CreateSelection( rCrsr, rBoxes, eSearch, bChkP ); return; } if( nsSwTblSearchType::TBLSEARCH_ROW == ((~nsSwTblSearchType::TBLSEARCH_PROTECT ) & eSearchType ) && pTblNd && !pTblNd->GetTable().IsTblComplex() ) { const SwTable& rTbl = pTblNd->GetTable(); const SwTableLines& rLines = rTbl.GetTabLines(); const SwNode* pMarkNode = rCrsr.GetNode( FALSE ); const ULONG nMarkSectionStart = pMarkNode->StartOfSectionIndex(); const SwTableBox* pMarkBox = rTbl.GetTblBox( nMarkSectionStart ); ASSERT( pMarkBox, "Point in table, mark outside?" ) const SwTableLine* pLine = pMarkBox ? pMarkBox->GetUpper() : 0; USHORT nSttPos = rLines.GetPos( pLine ); ASSERT( USHRT_MAX != nSttPos, "Wo ist meine Zeile in der Tabelle?" ); pLine = rTbl.GetTblBox( rCrsr.GetNode( TRUE )->StartOfSectionIndex() )->GetUpper(); USHORT nEndPos = rLines.GetPos( pLine ); ASSERT( USHRT_MAX != nEndPos, "Wo ist meine Zeile in der Tabelle?" ); // pb: #i20193# if tableintable then nSttPos == nEndPos == USHRT_MAX if ( nSttPos != USHRT_MAX && nEndPos != USHRT_MAX ) { if( nEndPos < nSttPos ) // vertauschen { USHORT nTmp = nSttPos; nSttPos = nEndPos; nEndPos = nTmp; } int bChkProtected = nsSwTblSearchType::TBLSEARCH_PROTECT & eSearchType; for( ; nSttPos <= nEndPos; ++nSttPos ) { pLine = rLines[ nSttPos ]; for( USHORT n = pLine->GetTabBoxes().Count(); n ; ) { SwTableBox* pBox = pLine->GetTabBoxes()[ --n ]; // Zellenschutzt beachten ?? if( !bChkProtected || !pBox->GetFrmFmt()->GetProtect().IsCntntProtected() ) rBoxes.Insert( pBox ); } } } } else { Point aPtPos, aMkPos; const SwShellCrsr* pShCrsr = dynamic_cast(&rCrsr); if( pShCrsr ) { aPtPos = pShCrsr->GetPtPos(); aMkPos = pShCrsr->GetMkPos(); } const SwCntntNode *pCntNd = rCrsr.GetCntntNode(); const SwLayoutFrm *pStart = pCntNd ? pCntNd->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aPtPos )->GetUpper() : 0; pCntNd = rCrsr.GetCntntNode(FALSE); const SwLayoutFrm *pEnd = pCntNd ? pCntNd->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aMkPos )->GetUpper() : 0; if( pStart && pEnd ) GetTblSel( pStart, pEnd, rBoxes, 0, eSearchType ); } } void GetTblSel( const SwLayoutFrm* pStart, const SwLayoutFrm* pEnd, SwSelBoxes& rBoxes, SwCellFrms* pCells, const SwTblSearchType eSearchType ) { // #112697# Robust: const SwTabFrm* pStartTab = pStart->FindTabFrm(); if ( !pStartTab ) { ASSERT( false, "GetTblSel without start table" ) return; } int bChkProtected = nsSwTblSearchType::TBLSEARCH_PROTECT & eSearchType; BOOL bTblIsValid; // --> FME 2006-01-25 #i55421# Reduced value 10 int nLoopMax = 10; //JP 28.06.99: max 100 loops - Bug 67292 // <-- USHORT i; do { bTblIsValid = TRUE; //Zuerst lassen wir uns die Tabellen und die Rechtecke heraussuchen. SwSelUnions aUnions; ::MakeSelUnions( aUnions, pStart, pEnd, eSearchType ); Point aCurrentTopLeft( LONG_MAX, LONG_MAX ); Point aCurrentTopRight( 0, LONG_MAX ); Point aCurrentBottomLeft( LONG_MAX, 0 ); Point aCurrentBottomRight( 0, 0 ); const SwCellFrm* pCurrentTopLeftFrm = 0; const SwCellFrm* pCurrentTopRightFrm = 0; const SwCellFrm* pCurrentBottomLeftFrm = 0; const SwCellFrm* pCurrentBottomRightFrm = 0; //Jetzt zu jedem Eintrag die Boxen herausfischen und uebertragen. for( i = 0; i < aUnions.Count() && bTblIsValid; ++i ) { SwSelUnion *pUnion = aUnions[i]; const SwTabFrm *pTable = pUnion->GetTable(); if( !pTable->IsValid() && nLoopMax ) { bTblIsValid = FALSE; break; } // Skip any repeated headlines in the follow: const SwLayoutFrm* pRow = pTable->IsFollow() ? pTable->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTable->Lower(); while( pRow && bTblIsValid ) { if( !pRow->IsValid() && nLoopMax ) { bTblIsValid = FALSE; break; } if ( pRow->Frm().IsOver( pUnion->GetUnion() ) ) { const SwLayoutFrm *pCell = pRow->FirstCell(); while( bTblIsValid && pCell && pRow->IsAnLower( pCell ) ) { if( !pCell->IsValid() && nLoopMax ) { bTblIsValid = FALSE; break; } ASSERT( pCell->IsCellFrm(), "Frame ohne Celle" ); if( ::IsFrmInTblSel( pUnion->GetUnion(), pCell ) ) { SwTableBox* pBox = (SwTableBox*) ((SwCellFrm*)pCell)->GetTabBox(); // Zellenschutzt beachten ?? if( !bChkProtected || !pBox->GetFrmFmt()->GetProtect().IsCntntProtected() ) rBoxes.Insert( pBox ); if ( pCells ) { const Point aTopLeft( pCell->Frm().TopLeft() ); const Point aTopRight( pCell->Frm().TopRight() ); const Point aBottomLeft( pCell->Frm().BottomLeft() ); const Point aBottomRight( pCell->Frm().BottomRight() ); if ( aTopLeft.Y() < aCurrentTopLeft.Y() || ( aTopLeft.Y() == aCurrentTopLeft.Y() && aTopLeft.X() < aCurrentTopLeft.X() ) ) { aCurrentTopLeft = aTopLeft; pCurrentTopLeftFrm = static_cast( pCell ); } if ( aTopRight.Y() < aCurrentTopRight.Y() || ( aTopRight.Y() == aCurrentTopRight.Y() && aTopRight.X() > aCurrentTopRight.X() ) ) { aCurrentTopRight = aTopRight; pCurrentTopRightFrm = static_cast( pCell ); } if ( aBottomLeft.Y() > aCurrentBottomLeft.Y() || ( aBottomLeft.Y() == aCurrentBottomLeft.Y() && aBottomLeft.X() < aCurrentBottomLeft.X() ) ) { aCurrentBottomLeft = aBottomLeft; pCurrentBottomLeftFrm = static_cast( pCell ); } if ( aBottomRight.Y() > aCurrentBottomRight.Y() || ( aBottomRight.Y() == aCurrentBottomRight.Y() && aBottomRight.X() > aCurrentBottomRight.X() ) ) { aCurrentBottomRight = aBottomRight; pCurrentBottomRightFrm = static_cast( pCell ); } } } if ( pCell->GetNext() ) { pCell = (const SwLayoutFrm*)pCell->GetNext(); if ( pCell->Lower() && pCell->Lower()->IsRowFrm() ) pCell = pCell->FirstCell(); } else pCell = ::lcl_FindNextCellFrm( pCell ); } } pRow = (const SwLayoutFrm*)pRow->GetNext(); } } if ( pCells ) { pCells->Remove( 0, pCells->Count() ); pCells->Insert( pCurrentTopLeftFrm, 0 ); pCells->Insert( pCurrentTopRightFrm, 1 ); pCells->Insert( pCurrentBottomLeftFrm, 2 ); pCells->Insert( pCurrentBottomRightFrm, 3 ); } if( bTblIsValid ) break; SwDeletionChecker aDelCheck( pStart ); // ansonsten das Layout der Tabelle kurz "kalkulieren" lassen // und nochmals neu aufsetzen SwTabFrm *pTable = aUnions[0]->GetTable(); while( pTable ) { if( pTable->IsValid() ) pTable->InvalidatePos(); pTable->SetONECalcLowers(); pTable->Calc(); pTable->SetCompletePaint(); if( 0 == (pTable = pTable->GetFollow()) ) break; } // --> FME 2005-10-13 #125337# Make code robust, check if pStart has // been deleted due to the formatting of the table: if ( aDelCheck.HasBeenDeleted() ) { ASSERT( false, "Current box has been deleted during GetTblSel()" ) break; } // <-- i = 0; rBoxes.Remove( i, rBoxes.Count() ); --nLoopMax; } while( TRUE ); ASSERT( nLoopMax, "das Layout der Tabelle wurde nicht valide!" ); } BOOL ChkChartSel( const SwNode& rSttNd, const SwNode& rEndNd, SwChartLines* pGetCLines ) { const SwTableNode* pTNd = rSttNd.FindTableNode(); if( !pTNd ) return FALSE; Point aNullPos; SwNodeIndex aIdx( rSttNd ); const SwCntntNode* pCNd = aIdx.GetNode().GetCntntNode(); if( !pCNd ) pCNd = aIdx.GetNodes().GoNextSection( &aIdx, FALSE, FALSE ); // #109394# if table is invisible, return // (layout needed for forming table selection further down, so we can't // continue with invisible tables) // OD 07.11.2003 #i22135# - Also the content of the table could be // invisible - e.g. in a hidden section // Robust: check, if content was found (e.g. empty table cells) if ( !pCNd || pCNd->getLayoutFrm( pCNd->GetDoc()->GetCurrentLayout() ) == NULL ) return FALSE; const SwLayoutFrm *pStart = pCNd ? pCNd->getLayoutFrm( pCNd->GetDoc()->GetCurrentLayout(), &aNullPos )->GetUpper() : 0; ASSERT( pStart, "ohne Frame geht gar nichts" ); aIdx = rEndNd; pCNd = aIdx.GetNode().GetCntntNode(); if( !pCNd ) pCNd = aIdx.GetNodes().GoNextSection( &aIdx, FALSE, FALSE ); // OD 07.11.2003 #i22135# - Robust: check, if content was found and if it's visible if ( !pCNd || pCNd->getLayoutFrm( pCNd->GetDoc()->GetCurrentLayout() ) == NULL ) { return FALSE; } const SwLayoutFrm *pEnd = pCNd ? pCNd->getLayoutFrm( pCNd->GetDoc()->GetCurrentLayout(), &aNullPos )->GetUpper() : 0; ASSERT( pEnd, "ohne Frame geht gar nichts" ); BOOL bTblIsValid, bValidChartSel; // --> FME 2006-01-25 #i55421# Reduced value 10 int nLoopMax = 10; //JP 28.06.99: max 100 loops - Bug 67292 // <-- USHORT i = 0; do { bTblIsValid = TRUE; bValidChartSel = TRUE; USHORT nRowCells = USHRT_MAX; //Zuerst lassen wir uns die Tabellen und die Rechtecke heraussuchen. SwSelUnions aUnions; ::MakeSelUnions( aUnions, pStart, pEnd, nsSwTblSearchType::TBLSEARCH_NO_UNION_CORRECT ); //Jetzt zu jedem Eintrag die Boxen herausfischen und uebertragen. for( i = 0; i < aUnions.Count() && bTblIsValid && bValidChartSel; ++i ) { SwSelUnion *pUnion = aUnions[i]; const SwTabFrm *pTable = pUnion->GetTable(); SWRECTFN( pTable ) sal_Bool bRTL = pTable->IsRightToLeft(); if( !pTable->IsValid() && nLoopMax ) { bTblIsValid = FALSE; break; } _Sort_CellFrms aCellFrms; // Skip any repeated headlines in the follow: const SwLayoutFrm* pRow = pTable->IsFollow() ? pTable->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTable->Lower(); while( pRow && bTblIsValid && bValidChartSel ) { if( !pRow->IsValid() && nLoopMax ) { bTblIsValid = FALSE; break; } if( pRow->Frm().IsOver( pUnion->GetUnion() ) ) { const SwLayoutFrm *pCell = pRow->FirstCell(); while( bValidChartSel && bTblIsValid && pCell && pRow->IsAnLower( pCell ) ) { if( !pCell->IsValid() && nLoopMax ) { bTblIsValid = FALSE; break; } ASSERT( pCell->IsCellFrm(), "Frame ohne Celle" ); const SwRect& rUnion = pUnion->GetUnion(), & rFrmRect = pCell->Frm(); const long nUnionRight = rUnion.Right(); const long nUnionBottom = rUnion.Bottom(); const long nFrmRight = rFrmRect.Right(); const long nFrmBottom = rFrmRect.Bottom(); // liegt das FrmRect ausserhalb der Union, kann es // ignoriert werden. const long nXFuzzy = bVert ? 0 : 20; const long nYFuzzy = bVert ? 20 : 0; if( !( rUnion.Top() + nYFuzzy > nFrmBottom || nUnionBottom < rFrmRect.Top() + nYFuzzy || rUnion.Left() + nXFuzzy > nFrmRight || nUnionRight < rFrmRect.Left() + nXFuzzy )) { // ok, rUnion is _not_ completely outside of rFrmRect // wenn es aber nicht komplett in der Union liegt, // dann ist es fuers Chart eine ungueltige // Selektion. if( rUnion.Left() <= rFrmRect.Left() + nXFuzzy && rFrmRect.Left() <= nUnionRight && rUnion.Left() <= nFrmRight && nFrmRight <= nUnionRight + nXFuzzy && rUnion.Top() <= rFrmRect.Top() + nYFuzzy && rFrmRect.Top() <= nUnionBottom && rUnion.Top() <= nFrmBottom && nFrmBottom <= nUnionBottom+ nYFuzzy ) aCellFrms.Insert( _Sort_CellFrm( *(SwCellFrm*)pCell ), aCellFrms.Count() ); else { bValidChartSel = FALSE; break; } } if ( pCell->GetNext() ) { pCell = (const SwLayoutFrm*)pCell->GetNext(); if ( pCell->Lower() && pCell->Lower()->IsRowFrm() ) pCell = pCell->FirstCell(); } else pCell = ::lcl_FindNextCellFrm( pCell ); } } pRow = (const SwLayoutFrm*)pRow->GetNext(); } if( !bValidChartSel ) break; // alle Zellen der (Teil-)Tabelle zusammen. Dann teste mal ob // all huebsch nebeneinander liegen. USHORT n, nEnd, nCellCnt = 0; long nYPos = LONG_MAX; long nXPos = 0; long nHeight = 0; for( n = 0, nEnd = aCellFrms.Count(); n < nEnd; ++n ) { const _Sort_CellFrm& rCF = aCellFrms[ n ]; if( (rCF.pFrm->Frm().*fnRect->fnGetTop)() != nYPos ) { // neue Zeile if( n ) { if( USHRT_MAX == nRowCells ) // 1. Zeilenwechsel nRowCells = nCellCnt; else if( nRowCells != nCellCnt ) { bValidChartSel = FALSE; break; } } nCellCnt = 1; nYPos = (rCF.pFrm->Frm().*fnRect->fnGetTop)(); nHeight = (rCF.pFrm->Frm().*fnRect->fnGetHeight)(); nXPos = bRTL ? (rCF.pFrm->Frm().*fnRect->fnGetLeft)() : (rCF.pFrm->Frm().*fnRect->fnGetRight)(); } else if( nXPos == ( bRTL ? (rCF.pFrm->Frm().*fnRect->fnGetRight)() : (rCF.pFrm->Frm().*fnRect->fnGetLeft)() ) && nHeight == (rCF.pFrm->Frm().*fnRect->fnGetHeight)() ) { nXPos += ( bRTL ? (-1) : 1 ) * (rCF.pFrm->Frm().*fnRect->fnGetWidth)(); ++nCellCnt; } else { bValidChartSel = FALSE; break; } } if( bValidChartSel ) { if( USHRT_MAX == nRowCells ) nRowCells = nCellCnt; else if( nRowCells != nCellCnt ) bValidChartSel = FALSE; } if( bValidChartSel && pGetCLines ) { nYPos = LONG_MAX; SwChartBoxes* pBoxes = 0; for( n = 0, nEnd = aCellFrms.Count(); n < nEnd; ++n ) { const _Sort_CellFrm& rCF = aCellFrms[ n ]; if( (rCF.pFrm->Frm().*fnRect->fnGetTop)() != nYPos ) { pBoxes = new SwChartBoxes( 255 < nRowCells ? 255 : (BYTE)nRowCells); pGetCLines->C40_INSERT( SwChartBoxes, pBoxes, pGetCLines->Count() ); nYPos = (rCF.pFrm->Frm().*fnRect->fnGetTop)(); } SwTableBoxPtr pBox = (SwTableBox*)rCF.pFrm->GetTabBox(); pBoxes->Insert( pBox, pBoxes->Count() ); } } } if( bTblIsValid ) break; // ansonsten das Layout der Tabelle kurz "kalkulieren" lassen // und nochmals neu aufsetzen SwTabFrm *pTable = aUnions[0]->GetTable(); for( i = 0; i < aUnions.Count(); ++i ) { if( pTable->IsValid() ) pTable->InvalidatePos(); pTable->SetONECalcLowers(); pTable->Calc(); pTable->SetCompletePaint(); if( 0 == (pTable = pTable->GetFollow()) ) break; } --nLoopMax; if( pGetCLines ) pGetCLines->DeleteAndDestroy( 0, pGetCLines->Count() ); } while( TRUE ); ASSERT( nLoopMax, "das Layout der Tabelle wurde nicht valide!" ); if( !bValidChartSel && pGetCLines ) pGetCLines->DeleteAndDestroy( 0, pGetCLines->Count() ); return bValidChartSel; } BOOL IsFrmInTblSel( const SwRect& rUnion, const SwFrm* pCell ) { ASSERT( pCell->IsCellFrm(), "Frame ohne Gazelle" ); if( pCell->FindTabFrm()->IsVertical() ) return ( rUnion.Right() >= pCell->Frm().Right() && rUnion.Left() <= pCell->Frm().Left() && (( rUnion.Top() <= pCell->Frm().Top()+20 && rUnion.Bottom() > pCell->Frm().Top() ) || ( rUnion.Top() >= pCell->Frm().Top() && rUnion.Bottom() < pCell->Frm().Bottom() )) ? TRUE : FALSE ); return ( rUnion.Top() <= pCell->Frm().Top() && rUnion.Bottom() >= pCell->Frm().Bottom() && (( rUnion.Left() <= pCell->Frm().Left()+20 && rUnion.Right() > pCell->Frm().Left() ) || ( rUnion.Left() >= pCell->Frm().Left() && rUnion.Right() < pCell->Frm().Right() )) ? TRUE : FALSE ); } BOOL GetAutoSumSel( const SwCrsrShell& rShell, SwCellFrms& rBoxes ) { SwShellCrsr* pCrsr = rShell.pCurCrsr; if ( rShell.IsTableMode() ) pCrsr = rShell.pTblCrsr; const SwLayoutFrm *pStart = pCrsr->GetCntntNode()->getLayoutFrm( rShell.GetLayout(), &pCrsr->GetPtPos() )->GetUpper(), *pEnd = pCrsr->GetCntntNode(FALSE)->getLayoutFrm( rShell.GetLayout(), &pCrsr->GetMkPos() )->GetUpper(); const SwLayoutFrm* pSttCell = pStart; while( pSttCell && !pSttCell->IsCellFrm() ) pSttCell = pSttCell->GetUpper(); //Zuerst lassen wir uns die Tabellen und die Rechtecke heraussuchen. SwSelUnions aUnions; // default erstmal nach oben testen, dann nach links ::MakeSelUnions( aUnions, pStart, pEnd, nsSwTblSearchType::TBLSEARCH_COL ); BOOL bTstRow = TRUE, bFound = FALSE; USHORT i; // 1. teste ob die darueber liegende Box Value/Formel enhaelt: for( i = 0; i < aUnions.Count(); ++i ) { SwSelUnion *pUnion = aUnions[i]; const SwTabFrm *pTable = pUnion->GetTable(); // Skip any repeated headlines in the follow: const SwLayoutFrm* pRow = pTable->IsFollow() ? pTable->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTable->Lower(); while( pRow ) { if( pRow->Frm().IsOver( pUnion->GetUnion() ) ) { const SwCellFrm* pUpperCell = 0; const SwLayoutFrm *pCell = pRow->FirstCell(); while( pCell && pRow->IsAnLower( pCell ) ) { if( pCell == pSttCell ) { USHORT nWhichId = 0; for( USHORT n = rBoxes.Count(); n; ) if( USHRT_MAX != ( nWhichId = rBoxes[ --n ] ->GetTabBox()->IsFormulaOrValueBox() )) break; // alle Boxen zusammen, nicht mehr die Zeile // pruefen, wenn eine Formel oder Value gefunden wurde bTstRow = 0 == nWhichId || USHRT_MAX == nWhichId; bFound = TRUE; break; } ASSERT( pCell->IsCellFrm(), "Frame ohne Celle" ); if( ::IsFrmInTblSel( pUnion->GetUnion(), pCell ) ) pUpperCell = (SwCellFrm*)pCell; if( pCell->GetNext() ) { pCell = (const SwLayoutFrm*)pCell->GetNext(); if ( pCell->Lower() && pCell->Lower()->IsRowFrm() ) pCell = pCell->FirstCell(); } else pCell = ::lcl_FindNextCellFrm( pCell ); } if( pUpperCell ) rBoxes.Insert( pUpperCell, rBoxes.Count() ); } if( bFound ) { i = aUnions.Count(); break; } pRow = (const SwLayoutFrm*)pRow->GetNext(); } } // 2. teste ob die links liegende Box Value/Formel enhaelt: if( bTstRow ) { bFound = FALSE; rBoxes.Remove( 0, rBoxes.Count() ); aUnions.DeleteAndDestroy( 0, aUnions.Count() ); ::MakeSelUnions( aUnions, pStart, pEnd, nsSwTblSearchType::TBLSEARCH_ROW ); for( i = 0; i < aUnions.Count(); ++i ) { SwSelUnion *pUnion = aUnions[i]; const SwTabFrm *pTable = pUnion->GetTable(); // Skip any repeated headlines in the follow: const SwLayoutFrm* pRow = pTable->IsFollow() ? pTable->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTable->Lower(); while( pRow ) { if( pRow->Frm().IsOver( pUnion->GetUnion() ) ) { const SwLayoutFrm *pCell = pRow->FirstCell(); while( pCell && pRow->IsAnLower( pCell ) ) { if( pCell == pSttCell ) { USHORT nWhichId = 0; for( USHORT n = rBoxes.Count(); n; ) if( USHRT_MAX != ( nWhichId = rBoxes[ --n ] ->GetTabBox()->IsFormulaOrValueBox() )) break; // alle Boxen zusammen, nicht mehr die Zeile // pruefen, wenn eine Formel oder Value gefunden wurde bFound = 0 != nWhichId && USHRT_MAX != nWhichId; bTstRow = FALSE; break; } ASSERT( pCell->IsCellFrm(), "Frame ohne Celle" ); if( ::IsFrmInTblSel( pUnion->GetUnion(), pCell ) ) { const SwCellFrm* pC = (SwCellFrm*)pCell; rBoxes.Insert( pC, rBoxes.Count() ); } if( pCell->GetNext() ) { pCell = (const SwLayoutFrm*)pCell->GetNext(); if ( pCell->Lower() && pCell->Lower()->IsRowFrm() ) pCell = pCell->FirstCell(); } else pCell = ::lcl_FindNextCellFrm( pCell ); } } if( !bTstRow ) { i = aUnions.Count(); break; } pRow = (const SwLayoutFrm*)pRow->GetNext(); } } } return bFound; } BOOL HasProtectedCells( const SwSelBoxes& rBoxes ) { BOOL bRet = FALSE; for( USHORT n = 0, nCnt = rBoxes.Count(); n < nCnt; ++n ) if( rBoxes[ n ]->GetFrmFmt()->GetProtect().IsCntntProtected() ) { bRet = TRUE; break; } return bRet; } _CmpLPt::_CmpLPt( const Point& rPt, const SwTableBox* pBox, BOOL bVertical ) : aPos( rPt ), pSelBox( pBox ), bVert( bVertical ) {} void lcl_InsTblBox( SwTableNode* pTblNd, SwDoc* pDoc, SwTableBox* pBox, USHORT nInsPos, USHORT nCnt = 1 ) { ASSERT( pBox->GetSttNd(), "Box ohne Start-Node" ); SwCntntNode* pCNd = pDoc->GetNodes()[ pBox->GetSttIdx() + 1 ] ->GetCntntNode(); if( pCNd && pCNd->IsTxtNode() ) pDoc->GetNodes().InsBoxen( pTblNd, pBox->GetUpper(), (SwTableBoxFmt*)pBox->GetFrmFmt(), ((SwTxtNode*)pCNd)->GetTxtColl(), pCNd->GetpSwAttrSet(), nInsPos, nCnt ); else pDoc->GetNodes().InsBoxen( pTblNd, pBox->GetUpper(), (SwTableBoxFmt*)pBox->GetFrmFmt(), (SwTxtFmtColl*)pDoc->GetDfltTxtFmtColl(), 0, nInsPos, nCnt ); } BOOL IsEmptyBox( const SwTableBox& rBox, SwPaM& rPam ) { rPam.GetPoint()->nNode = *rBox.GetSttNd()->EndOfSectionNode(); rPam.Move( fnMoveBackward, fnGoCntnt ); rPam.SetMark(); rPam.GetPoint()->nNode = *rBox.GetSttNd(); rPam.Move( fnMoveForward, fnGoCntnt ); BOOL bRet = *rPam.GetMark() == *rPam.GetPoint() && ( rBox.GetSttNd()->GetIndex() + 1 == rPam.GetPoint()->nNode.GetIndex() ); if( bRet ) { // dann teste mal auf absatzgebundenen Flys const SwSpzFrmFmts& rFmts = *rPam.GetDoc()->GetSpzFrmFmts(); ULONG nSttIdx = rPam.GetPoint()->nNode.GetIndex(), nEndIdx = rBox.GetSttNd()->EndOfSectionIndex(), nIdx; for( USHORT n = 0; n < rFmts.Count(); ++n ) { const SwFmtAnchor& rAnchor = rFmts[n]->GetAnchor(); const SwPosition* pAPos = rAnchor.GetCntntAnchor(); if (pAPos && ((FLY_AT_PARA == rAnchor.GetAnchorId()) || (FLY_AT_CHAR == rAnchor.GetAnchorId())) && nSttIdx <= ( nIdx = pAPos->nNode.GetIndex() ) && nIdx < nEndIdx ) { bRet = FALSE; break; } } } return bRet; } void GetMergeSel( const SwPaM& rPam, SwSelBoxes& rBoxes, SwTableBox** ppMergeBox, SwUndoTblMerge* pUndo ) { if( rBoxes.Count() ) rBoxes.Remove( USHORT(0), rBoxes.Count() ); //Zuerst lassen wir uns die Tabellen und die Rechtecke heraussuchen. ASSERT( rPam.GetCntntNode() && rPam.GetCntntNode( FALSE ), "Tabselection nicht auf Cnt." ); //JP 24.09.96: Merge mit wiederholenden TabellenHeadline funktioniert nicht // richtig. Warum nicht Point 0,0 benutzen? Dann ist garantiert, // das die 1. Headline mit drin ist. // Point aPt( rShell.GetCharRect().Pos() ); Point aPt( 0, 0 ); const SwCntntNode* pCntNd = rPam.GetCntntNode(); const SwLayoutFrm *pStart = pCntNd->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aPt )->GetUpper(); pCntNd = rPam.GetCntntNode(FALSE); const SwLayoutFrm *pEnd = rPam.GetCntntNode(FALSE)->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aPt )->GetUpper(); SwSelUnions aUnions; ::MakeSelUnions( aUnions, pStart, pEnd ); if( !aUnions.Count() ) return; const SwTable *pTable = aUnions[0]->GetTable()->GetTable(); SwDoc* pDoc = (SwDoc*)pStart->GetFmt()->GetDoc(); SwTableNode* pTblNd = (SwTableNode*)pTable->GetTabSortBoxes()[ 0 ]-> GetSttNd()->FindTableNode(); _MergePos aPosArr; // Sort-Array mit den Positionen der Frames long nWidth; SwTableBox* pLastBox = 0; SWRECTFN( pStart->GetUpper() ) for ( USHORT i = 0; i < aUnions.Count(); ++i ) { const SwTabFrm *pTabFrm = aUnions[i]->GetTable(); SwRect &rUnion = aUnions[i]->GetUnion(); // Skip any repeated headlines in the follow: const SwLayoutFrm* pRow = pTabFrm->IsFollow() ? pTabFrm->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTabFrm->Lower(); while ( pRow ) { if ( pRow->Frm().IsOver( rUnion ) ) { const SwLayoutFrm *pCell = pRow->FirstCell(); while ( pCell && pRow->IsAnLower( pCell ) ) { ASSERT( pCell->IsCellFrm(), "Frame ohne Celle" ); // in der vollen Breite ueberlappend ? if( rUnion.Top() <= pCell->Frm().Top() && rUnion.Bottom() >= pCell->Frm().Bottom() ) { SwTableBox* pBox =(SwTableBox*)((SwCellFrm*)pCell)->GetTabBox(); // nur nach rechts ueberlappend if( ( rUnion.Left() - COLFUZZY ) <= pCell->Frm().Left() && ( rUnion.Right() - COLFUZZY ) > pCell->Frm().Left() ) { if( ( rUnion.Right() + COLFUZZY ) < pCell->Frm().Right() ) { USHORT nInsPos = pBox->GetUpper()-> GetTabBoxes().C40_GETPOS( SwTableBox, pBox )+1; lcl_InsTblBox( pTblNd, pDoc, pBox, nInsPos ); pBox->ClaimFrmFmt(); SwFmtFrmSize aNew( pBox->GetFrmFmt()->GetFrmSize() ); nWidth = rUnion.Right() - pCell->Frm().Left(); nWidth = nWidth * aNew.GetWidth() / pCell->Frm().Width(); long nTmpWidth = aNew.GetWidth() - nWidth; aNew.SetWidth( nWidth ); pBox->GetFrmFmt()->SetFmtAttr( aNew ); // diese Box ist selektiert pLastBox = pBox; rBoxes.Insert( pBox ); aPosArr.Insert( _CmpLPt( (pCell->Frm().*fnRect->fnGetPos)(), pBox, bVert ) ); pBox = pBox->GetUpper()->GetTabBoxes()[ nInsPos ]; aNew.SetWidth( nTmpWidth ); pBox->ClaimFrmFmt(); pBox->GetFrmFmt()->SetFmtAttr( aNew ); if( pUndo ) pUndo->AddNewBox( pBox->GetSttIdx() ); } else { // diese Box ist selektiert pLastBox = pBox; rBoxes.Insert( pBox ); #if OSL_DEBUG_LEVEL > 1 Point aInsPoint( (pCell->Frm().*fnRect->fnGetPos)() ); #endif aPosArr.Insert( _CmpLPt( (pCell->Frm().*fnRect->fnGetPos)(), pBox, bVert ) ); } } // oder rechts und links ueberlappend else if( ( rUnion.Left() - COLFUZZY ) >= pCell->Frm().Left() && ( rUnion.Right() + COLFUZZY ) < pCell->Frm().Right() ) { USHORT nInsPos = pBox->GetUpper()->GetTabBoxes(). C40_GETPOS( SwTableBox, pBox )+1; lcl_InsTblBox( pTblNd, pDoc, pBox, nInsPos, 2 ); pBox->ClaimFrmFmt(); SwFmtFrmSize aNew( pBox->GetFrmFmt()->GetFrmSize() ); long nLeft = rUnion.Left() - pCell->Frm().Left(); nLeft = nLeft * aNew.GetWidth() / pCell->Frm().Width(); long nRight = pCell->Frm().Right() - rUnion.Right(); nRight = nRight * aNew.GetWidth() / pCell->Frm().Width(); nWidth = aNew.GetWidth() - nLeft - nRight; aNew.SetWidth( nLeft ); pBox->GetFrmFmt()->SetFmtAttr( aNew ); { const SfxPoolItem* pItem; if( SFX_ITEM_SET == pBox->GetFrmFmt()->GetAttrSet() .GetItemState( RES_BOX, FALSE, &pItem )) { SvxBoxItem aBox( *(SvxBoxItem*)pItem ); aBox.SetLine( 0, BOX_LINE_RIGHT ); pBox->GetFrmFmt()->SetFmtAttr( aBox ); } } pBox = pBox->GetUpper()->GetTabBoxes()[ nInsPos ]; aNew.SetWidth( nWidth ); pBox->ClaimFrmFmt(); pBox->GetFrmFmt()->SetFmtAttr( aNew ); if( pUndo ) pUndo->AddNewBox( pBox->GetSttIdx() ); // diese Box ist selektiert pLastBox = pBox; rBoxes.Insert( pBox ); aPosArr.Insert( _CmpLPt( (pCell->Frm().*fnRect->fnGetPos)(), pBox, bVert ) ); pBox = pBox->GetUpper()->GetTabBoxes()[ nInsPos+1 ]; aNew.SetWidth( nRight ); pBox->ClaimFrmFmt(); pBox->GetFrmFmt()->SetFmtAttr( aNew ); if( pUndo ) pUndo->AddNewBox( pBox->GetSttIdx() ); } // oder reicht die rechte Kante der Box in den // selektierten Bereich? else if( ( pCell->Frm().Right() - COLFUZZY ) < rUnion.Right() && ( pCell->Frm().Right() - COLFUZZY ) > rUnion.Left() && ( pCell->Frm().Left() + COLFUZZY ) < rUnion.Left() ) { // dann muss eine neue Box einfuegt und die // Breiten angepasst werden USHORT nInsPos = pBox->GetUpper()->GetTabBoxes(). C40_GETPOS( SwTableBox, pBox )+1; lcl_InsTblBox( pTblNd, pDoc, pBox, nInsPos, 1 ); SwFmtFrmSize aNew(pBox->GetFrmFmt()->GetFrmSize() ); long nLeft = rUnion.Left() - pCell->Frm().Left(), nRight = pCell->Frm().Right() - rUnion.Left(); nLeft = nLeft * aNew.GetWidth() / pCell->Frm().Width(); nRight = nRight * aNew.GetWidth() / pCell->Frm().Width(); aNew.SetWidth( nLeft ); pBox->ClaimFrmFmt()->SetFmtAttr( aNew ); // diese Box ist selektiert pBox = pBox->GetUpper()->GetTabBoxes()[ nInsPos ]; aNew.SetWidth( nRight ); pBox->ClaimFrmFmt(); pBox->GetFrmFmt()->SetFmtAttr( aNew ); pLastBox = pBox; rBoxes.Insert( pBox ); aPosArr.Insert( _CmpLPt( Point( rUnion.Left(), pCell->Frm().Top()), pBox, bVert )); if( pUndo ) pUndo->AddNewBox( pBox->GetSttIdx() ); } } if ( pCell->GetNext() ) { pCell = (const SwLayoutFrm*)pCell->GetNext(); // --> FME 2005-11-03 #125288# Check if table cell is not empty if ( pCell->Lower() && pCell->Lower()->IsRowFrm() ) pCell = pCell->FirstCell(); } else pCell = ::lcl_FindNextCellFrm( pCell ); } } pRow = (const SwLayoutFrm*)pRow->GetNext(); } } // keine SSelection / keine gefundenen Boxen if( 1 >= rBoxes.Count() ) return; // dann suche mal alle Boxen, die nebeneinander liegen, und verbinde // deren Inhalte mit Blanks. Alle untereinander liegende werden als // Absaetze zusammengefasst // 1. Loesung: gehe ueber das Array und // alle auf der gleichen Y-Ebene werden mit Blanks getrennt // alle anderen werden als Absaetze getrennt. BOOL bCalcWidth = TRUE; const SwTableBox* pFirstBox = aPosArr[ 0 ].pSelBox; // JP 27.03.98: Optimierung - falls die Boxen einer Line leer sind, // dann werden jetzt dafuer keine Blanks und // kein Umbruch mehr eingefuegt. //Block damit SwPaM, SwPosition vom Stack geloescht werden { SwPaM aPam( pDoc->GetNodes() ); #if defined( DEL_ONLY_EMPTY_LINES ) nWidth = pFirstBox->GetFrmFmt()->GetFrmSize().GetWidth(); BOOL bEmptyLine = TRUE; USHORT n, nSttPos = 0; for( n = 0; n < aPosArr.Count(); ++n ) { const _CmpLPt& rPt = aPosArr[ n ]; if( n && aPosArr[ n - 1 ].Y() == rPt.Y() ) // gleiche Ebene ? { if( bEmptyLine && !IsEmptyBox( *rPt.pSelBox, aPam )) bEmptyLine = FALSE; if( bCalcWidth ) nWidth += rPt.pSelBox->GetFrmFmt()->GetFrmSize().GetWidth(); } else { if( bCalcWidth && n ) bCalcWidth = FALSE; // eine Zeile fertig if( bEmptyLine && nSttPos < n ) { // dann ist die gesamte Line leer und braucht // nicht mit Blanks aufgefuellt und als Absatz // eingefuegt werden. if( pUndo ) for( USHORT i = nSttPos; i < n; ++i ) pUndo->SaveCollection( *aPosArr[ i ].pSelBox ); aPosArr.Remove( nSttPos, n - nSttPos ); n = nSttPos; } else nSttPos = n; bEmptyLine = IsEmptyBox( *aPosArr[n].pSelBox, aPam ); } } if( bEmptyLine && nSttPos < n ) { if( pUndo ) for( USHORT i = nSttPos; i < n; ++i ) pUndo->SaveCollection( *aPosArr[ i ].pSelBox ); aPosArr.Remove( nSttPos, n - nSttPos ); } #elsif defined( DEL_EMPTY_BOXES_AT_START_AND_END ) nWidth = pFirstBox->GetFrmFmt()->GetFrmSize().GetWidth(); USHORT n, nSttPos = 0, nSEndPos = 0, nESttPos = 0; for( n = 0; n < aPosArr.Count(); ++n ) { const _CmpLPt& rPt = aPosArr[ n ]; if( n && aPosArr[ n - 1 ].Y() == rPt.Y() ) // gleiche Ebene ? { BOOL bEmptyBox = IsEmptyBox( *rPt.pSelBox, aPam ); if( bEmptyBox ) { if( nSEndPos == n ) // der Anfang ist leer nESttPos = ++nSEndPos; } else // das Ende kann leer sein nESttPos = n+1; if( bCalcWidth ) nWidth += rPt.pSelBox->GetFrmFmt()->GetFrmSize().GetWidth(); } else { if( bCalcWidth && n ) bCalcWidth = FALSE; // eine Zeile fertig // zuerst die vom Anfang if( nSttPos < nSEndPos ) { // dann ist der vorder Teil der Line leer und braucht // nicht mit Blanks aufgefuellt werden. if( pUndo ) for( USHORT i = nSttPos; i < nSEndPos; ++i ) pUndo->SaveCollection( *aPosArr[ i ].pSelBox ); USHORT nCnt = nSEndPos - nSttPos; aPosArr.Remove( nSttPos, nCnt ); nESttPos -= nCnt; n -= nCnt; } if( nESttPos < n ) { // dann ist der vorder Teil der Line leer und braucht // nicht mit Blanks aufgefuellt werden. if( pUndo ) for( USHORT i = nESttPos; i < n; ++i ) pUndo->SaveCollection( *aPosArr[ i ].pSelBox ); USHORT nCnt = n - nESttPos; aPosArr.Remove( nESttPos, nCnt ); n -= nCnt; } nSttPos = nSEndPos = nESttPos = n; if( IsEmptyBox( *aPosArr[n].pSelBox, aPam )) ++nSEndPos; else ++nESttPos; } } // zuerst die vom Anfang if( nSttPos < nSEndPos ) { // dann ist der vorder Teil der Line leer und braucht // nicht mit Blanks aufgefuellt werden. if( pUndo ) for( USHORT i = nSttPos; i < nSEndPos; ++i ) pUndo->SaveCollection( *aPosArr[ i ].pSelBox ); USHORT nCnt = nSEndPos - nSttPos; aPosArr.Remove( nSttPos, nCnt ); nESttPos -= nCnt; n -= nCnt; } if( nESttPos < n ) { // dann ist der vorder Teil der Line leer und braucht // nicht mit Blanks aufgefuellt werden. if( pUndo ) for( USHORT i = nESttPos; i < n; ++i ) pUndo->SaveCollection( *aPosArr[ i ].pSelBox ); USHORT nCnt = n - nESttPos; aPosArr.Remove( nESttPos, nCnt ); } #else // DEL_ALL_EMPTY_BOXES nWidth = 0; long nY = aPosArr.Count() ? ( bVert ? aPosArr[ 0 ].X() : aPosArr[ 0 ].Y() ) : 0; for( USHORT n = 0; n < aPosArr.Count(); ++n ) { const _CmpLPt& rPt = aPosArr[ n ]; if( bCalcWidth ) { if( nY == ( bVert ? rPt.X() : rPt.Y() ) ) // gleiche Ebene ? nWidth += rPt.pSelBox->GetFrmFmt()->GetFrmSize().GetWidth(); else bCalcWidth = FALSE; // eine Zeile fertig } if( IsEmptyBox( *rPt.pSelBox, aPam ) ) { if( pUndo ) pUndo->SaveCollection( *rPt.pSelBox ); aPosArr.Remove( n, 1 ); --n; } } #endif } // lege schon mal die neue Box an { SwTableBox* pTmpBox = rBoxes[0]; SwTableLine* pInsLine = pTmpBox->GetUpper(); USHORT nInsPos = pInsLine->GetTabBoxes().C40_GETPOS( SwTableBox, pTmpBox ); lcl_InsTblBox( pTblNd, pDoc, pTmpBox, nInsPos ); (*ppMergeBox) = pInsLine->GetTabBoxes()[ nInsPos ]; pInsLine->GetTabBoxes().Remove( nInsPos ); // wieder austragen (*ppMergeBox)->SetUpper( 0 ); (*ppMergeBox)->ClaimFrmFmt(); // setze die Umrandung: von der 1. Box die linke/obere von der // letzten Box die rechte/untere Kante: if( pLastBox && pFirstBox ) { SvxBoxItem aBox( pFirstBox->GetFrmFmt()->GetBox() ); const SvxBoxItem& rBox = pLastBox->GetFrmFmt()->GetBox(); aBox.SetLine( rBox.GetRight(), BOX_LINE_RIGHT ); aBox.SetLine( rBox.GetBottom(), BOX_LINE_BOTTOM ); if( aBox.GetLeft() || aBox.GetTop() || aBox.GetRight() || aBox.GetBottom() ) (*ppMergeBox)->GetFrmFmt()->SetFmtAttr( aBox ); } } //Block damit SwPaM, SwPosition vom Stack geloescht werden if( aPosArr.Count() ) { SwTxtNode* pTxtNd = 0; SwPosition aInsPos( *(*ppMergeBox)->GetSttNd() ); SwNodeIndex& rInsPosNd = aInsPos.nNode; SwPaM aPam( aInsPos ); for( USHORT n = 0; n < aPosArr.Count(); ++n ) { const _CmpLPt& rPt = aPosArr[ n ]; aPam.GetPoint()->nNode.Assign( *rPt.pSelBox->GetSttNd()-> EndOfSectionNode(), -1 ); SwCntntNode* pCNd = aPam.GetCntntNode(); USHORT nL = pCNd ? pCNd->Len() : 0; aPam.GetPoint()->nContent.Assign( pCNd, nL ); SwNodeIndex aSttNdIdx( *rPt.pSelBox->GetSttNd(), 1 ); // ein Node muss in der Box erhalten bleiben (sonst wird beim // Move die gesamte Section geloescht) if( pUndo ) pDoc->DoUndo( FALSE ); pDoc->AppendTxtNode( *aPam.GetPoint() ); if( pUndo ) pDoc->DoUndo( TRUE ); SwNodeRange aRg( aSttNdIdx, aPam.GetPoint()->nNode ); rInsPosNd++; if( pUndo ) pUndo->MoveBoxCntnt( pDoc, aRg, rInsPosNd ); else { pDoc->MoveNodeRange( aRg, rInsPosNd, IDocumentContentOperations::DOC_MOVEDEFAULT ); } // wo steht jetzt aInsPos ?? if( bCalcWidth ) bCalcWidth = FALSE; // eine Zeile fertig // den initialen TextNode ueberspringen rInsPosNd.Assign( pDoc->GetNodes(), rInsPosNd.GetNode().EndOfSectionIndex() - 2 ); pTxtNd = rInsPosNd.GetNode().GetTxtNode(); if( pTxtNd ) aInsPos.nContent.Assign( pTxtNd, pTxtNd->GetTxt().Len() ); } // in der MergeBox sollte jetzt der gesamte Text stehen // loesche jetzt noch den initialen TextNode ASSERT( (*ppMergeBox)->GetSttIdx()+2 < (*ppMergeBox)->GetSttNd()->EndOfSectionIndex(), "leere Box" ); SwNodeIndex aIdx( *(*ppMergeBox)->GetSttNd()->EndOfSectionNode(), -1 ); pDoc->GetNodes().Delete( aIdx, 1 ); } // setze die Breite der Box (*ppMergeBox)->GetFrmFmt()->SetFmtAttr( SwFmtFrmSize( ATT_VAR_SIZE, nWidth, 0 )); if( pUndo ) pUndo->AddNewBox( (*ppMergeBox)->GetSttIdx() ); } static BOOL lcl_CheckCol( const _FndBox*& rpFndBox, void* pPara ); static BOOL lcl_CheckRow( const _FndLine*& rpFndLine, void* pPara ) { ((_FndLine*)rpFndLine)->GetBoxes().ForEach( &lcl_CheckCol, pPara ); return *(BOOL*)pPara; } static BOOL lcl_CheckCol( const _FndBox*& rpFndBox, void* pPara ) { if( !rpFndBox->GetBox()->GetSttNd() ) { if( rpFndBox->GetLines().Count() != rpFndBox->GetBox()->GetTabLines().Count() ) *((BOOL*)pPara) = FALSE; else ((_FndBox*)rpFndBox)->GetLines().ForEach( &lcl_CheckRow, pPara ); } // Box geschuetzt ?? else if( rpFndBox->GetBox()->GetFrmFmt()->GetProtect().IsCntntProtected() ) *((BOOL*)pPara) = FALSE; return *(BOOL*)pPara; } USHORT CheckMergeSel( const SwPaM& rPam ) { SwSelBoxes aBoxes; //JP 24.09.96: Merge mit wiederholenden TabellenHeadline funktioniert nicht // richtig. Warum nicht Point 0,0 benutzen? Dann ist garantiert, // das die 1. Headline mit drin ist. Point aPt; const SwCntntNode* pCntNd = rPam.GetCntntNode(); const SwLayoutFrm *pStart = pCntNd->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aPt )->GetUpper(); pCntNd = rPam.GetCntntNode(FALSE); const SwLayoutFrm *pEnd = rPam.GetCntntNode(FALSE)->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aPt )->GetUpper(); GetTblSel( pStart, pEnd, aBoxes, 0 ); return CheckMergeSel( aBoxes ); } USHORT CheckMergeSel( const SwSelBoxes& rBoxes ) { USHORT eRet = TBLMERGE_NOSELECTION; if( rBoxes.Count() ) { eRet = TBLMERGE_OK; _FndBox aFndBox( 0, 0 ); _FndPara aPara( rBoxes, &aFndBox ); const SwTableNode* pTblNd = aPara.rBoxes[0]->GetSttNd()->FindTableNode(); ((SwTable&)pTblNd->GetTable()).GetTabLines().ForEach( &_FndLineCopyCol, &aPara ); if( aFndBox.GetLines().Count() ) { BOOL bMergeSelOk = TRUE; _FndBox* pFndBox = &aFndBox; _FndLine* pFndLine = 0; while( pFndBox && 1 == pFndBox->GetLines().Count() ) { pFndLine = pFndBox->GetLines()[0]; if( 1 == pFndLine->GetBoxes().Count() ) pFndBox = pFndLine->GetBoxes()[0]; else pFndBox = 0; } if( pFndBox ) pFndBox->GetLines().ForEach( &lcl_CheckRow, &bMergeSelOk ); else if( pFndLine ) pFndLine->GetBoxes().ForEach( &lcl_CheckCol, &bMergeSelOk ); if( !bMergeSelOk ) eRet = TBLMERGE_TOOCOMPLEX; } else eRet = TBLMERGE_NOSELECTION; } return eRet; } //Ermittelt die von einer Tabellenselektion betroffenen Tabellen und die //Union-Rechteckte der Selektionen - auch fuer aufgespaltene Tabellen. SV_IMPL_PTRARR( SwSelUnions, SwSelUnion* ); SwTwips lcl_CalcWish( const SwLayoutFrm *pCell, long nWish, const long nAct ) { const SwLayoutFrm *pTmp = pCell; if ( !nWish ) nWish = 1; const sal_Bool bRTL = pCell->IsRightToLeft(); SwTwips nRet = bRTL ? nAct - pCell->Frm().Width() : 0; while ( pTmp ) { while ( pTmp->GetPrev() ) { pTmp = (SwLayoutFrm*)pTmp->GetPrev(); long nTmp = pTmp->GetFmt()->GetFrmSize().GetWidth(); nRet += ( bRTL ? ( -1 ) : 1 ) * nTmp * nAct / nWish; } pTmp = pTmp->GetUpper()->GetUpper(); if ( pTmp && !pTmp->IsCellFrm() ) pTmp = 0; } return nRet; } /* MA: 20. Sep. 93 wird nicht mehr gebraucht. static const SwLayoutFrm *GetPrevCell( const SwLayoutFrm *pCell ) { const SwLayoutFrm *pLay = pCell->GetPrevLayoutLeaf(); if ( pLay && pLay->IsLayoutFrm() && !pLay->IsTab() ) { //GetPrevLayoutLeaf() liefert ggf. auch die Umgebung einer Tab zurueck //(naehmlich genau dann, wenn die Zelle noch Vorgaenger hat). const SwFrm *pFrm = pLay->Lower(); while ( pFrm->GetNext() ) pFrm = pFrm->GetNext(); pLay = pFrm->IsTabFrm() ? (SwLayoutFrm*)pFrm : 0; } if ( pLay && pLay->IsTabFrm() ) { //GetPrevLayoutLeaf() liefert ggf. auch Tabellen zurueck die letzte //Zelle dieser Tabelle ist das das gesuchte Blatt. pLay = ((SwTabFrm*)pLay)->FindLastCntnt()->GetUpper(); while ( !pLay->IsCellFrm() ) pLay = pLay->GetUpper(); } return pLay; } */ void lcl_FindStartEndRow( const SwLayoutFrm *&rpStart, const SwLayoutFrm *&rpEnd, const int bChkProtected ) { //Start an den Anfang seiner Zeile setzen. //End an das Ende seiner Zeile setzen. rpStart = (SwLayoutFrm*)rpStart->GetUpper()->Lower(); while ( rpEnd->GetNext() ) rpEnd = (SwLayoutFrm*)rpEnd->GetNext(); SvPtrarr aSttArr( 8, 8 ), aEndArr( 8, 8 ); const SwLayoutFrm *pTmp; for( pTmp = rpStart; (FRM_CELL|FRM_ROW) & pTmp->GetType(); pTmp = pTmp->GetUpper() ) { void* p = (void*)pTmp; aSttArr.Insert( p, 0 ); } for( pTmp = rpEnd; (FRM_CELL|FRM_ROW) & pTmp->GetType(); pTmp = pTmp->GetUpper() ) { void* p = (void*)pTmp; aEndArr.Insert( p, 0 ); } for( USHORT n = 0; n < aEndArr.Count() && n < aSttArr.Count(); ++n ) if( aSttArr[ n ] != aEndArr[ n ] ) { // first unequal line or box - all odds are if( n & 1 ) // 1, 3, 5, ... are boxes { rpStart = (SwLayoutFrm*)aSttArr[ n ]; rpEnd = (SwLayoutFrm*)aEndArr[ n ]; } else // 0, 2, 4, ... are lines { // check if start & end line are the first & last Line of the // box. If not return these cells. // Else the hole line with all Boxes has to be deleted. rpStart = (SwLayoutFrm*)aSttArr[ n+1 ]; rpEnd = (SwLayoutFrm*)aEndArr[ n+1 ]; if( n ) { const SwCellFrm* pCellFrm = (SwCellFrm*)aSttArr[ n-1 ]; const SwTableLines& rLns = pCellFrm-> GetTabBox()->GetTabLines(); if( rLns[ 0 ] == ((SwRowFrm*)aSttArr[ n ])->GetTabLine() && rLns[ rLns.Count() - 1 ] == ((SwRowFrm*)aEndArr[ n ])->GetTabLine() ) { rpStart = rpEnd = pCellFrm; while ( rpStart->GetPrev() ) rpStart = (SwLayoutFrm*)rpStart->GetPrev(); while ( rpEnd->GetNext() ) rpEnd = (SwLayoutFrm*)rpEnd->GetNext(); } } } break; } if( !bChkProtected ) // geschuetzte Zellen beachten ? return; //Anfang und Ende duerfen nicht auf geschuetzten Zellen liegen. while ( rpStart->GetFmt()->GetProtect().IsCntntProtected() ) rpStart = (SwLayoutFrm*)rpStart->GetNext(); while ( rpEnd->GetFmt()->GetProtect().IsCntntProtected() ) rpEnd = (SwLayoutFrm*)rpEnd->GetPrev(); } void lcl_FindStartEndCol( const SwLayoutFrm *&rpStart, const SwLayoutFrm *&rpEnd, const int bChkProtected ) { //Start und End senkrecht bis an den Rand der Tabelle denken; es muss //die Gesamttabelle betrachtet werden, also inklusive Masters und //Follows. //Fuer den Start brauchen wir den Mutter-TabellenFrm. if( !rpStart ) return; const SwTabFrm *pOrg = rpStart->FindTabFrm(); const SwTabFrm *pTab = pOrg; SWRECTFN( pTab ) sal_Bool bRTL = pTab->IsRightToLeft(); const long nTmpWish = pOrg->GetFmt()->GetFrmSize().GetWidth(); const long nWish = ( nTmpWish > 0 ) ? nTmpWish : 1; while ( pTab->IsFollow() ) { const SwFrm *pTmp = pTab->FindPrev(); ASSERT( pTmp->IsTabFrm(), "Vorgaenger vom Follow nicht der Master." ); pTab = (const SwTabFrm*)pTmp; } SwTwips nSX = 0; SwTwips nSX2 = 0; if ( pTab->GetTable()->IsNewModel() ) { nSX = (rpStart->Frm().*fnRect->fnGetLeft )(); nSX2 = (rpStart->Frm().*fnRect->fnGetRight)(); } else { const SwTwips nPrtWidth = (pTab->Prt().*fnRect->fnGetWidth)(); nSX = ::lcl_CalcWish( rpStart, nWish, nPrtWidth ) + (pTab->*fnRect->fnGetPrtLeft)(); nSX2 = nSX + (rpStart->GetFmt()->GetFrmSize().GetWidth() * nPrtWidth / nWish); } const SwLayoutFrm *pTmp = pTab->FirstCell(); while ( pTmp && (!pTmp->IsCellFrm() || ( ( ! bRTL && (pTmp->Frm().*fnRect->fnGetLeft)() < nSX && (pTmp->Frm().*fnRect->fnGetRight)()< nSX2 ) || bRTL && (pTmp->Frm().*fnRect->fnGetLeft)() > nSX && (pTmp->Frm().*fnRect->fnGetRight)()> nSX2 ) ) ) pTmp = pTmp->GetNextLayoutLeaf(); if ( pTmp ) rpStart = pTmp; pTab = pOrg; const SwTabFrm* pLastValidTab = pTab; while ( pTab->GetFollow() ) { // // Check if pTab->GetFollow() is a valid follow table: // Only follow tables with at least on non-FollowFlowLine // should be considered. // if ( pTab->HasFollowFlowLine() ) { pTab = pTab->GetFollow(); const SwFrm* pTmpRow = pTab->GetFirstNonHeadlineRow(); if ( pTmpRow && pTmpRow->GetNext() ) pLastValidTab = pTab; } else pLastValidTab = pTab = pTab->GetFollow(); } pTab = pLastValidTab; SwTwips nEX = 0; if ( pTab->GetTable()->IsNewModel() ) { nEX = (rpEnd->Frm().*fnRect->fnGetLeft )(); } else { const SwTwips nPrtWidth = (pTab->Prt().*fnRect->fnGetWidth)(); nEX = ::lcl_CalcWish( rpEnd, nWish, nPrtWidth ) + (pTab->*fnRect->fnGetPrtLeft)(); } const SwCntntFrm* pLastCntnt = pTab->FindLastCntnt(); rpEnd = pLastCntnt ? pLastCntnt->GetUpper() : 0; // --> FME 2006-07-17 #134385# Made code robust. If pTab does not have a lower, // we would crash here. if ( !pLastCntnt ) return; // <-- while( !rpEnd->IsCellFrm() ) rpEnd = rpEnd->GetUpper(); while ( ( bRTL && (rpEnd->Frm().*fnRect->fnGetLeft)() < nEX ) || ( ! bRTL && (rpEnd->Frm().*fnRect->fnGetLeft)() > nEX ) ) { const SwLayoutFrm* pTmpLeaf = rpEnd->GetPrevLayoutLeaf(); if( !pTmpLeaf || !pTab->IsAnLower( pTmpLeaf ) ) break; rpEnd = pTmpLeaf; } if( !bChkProtected ) // geschuetzte Zellen beachten ? return; //Anfang und Ende duerfen nicht auf geschuetzten Zellen liegen. //Also muss ggf. nocheinmal rueckwaerts gesucht werden. while ( rpStart->GetFmt()->GetProtect().IsCntntProtected() ) { const SwLayoutFrm *pTmpLeaf = rpStart; pTmpLeaf = pTmpLeaf->GetNextLayoutLeaf(); while ( pTmpLeaf && (pTmpLeaf->Frm().*fnRect->fnGetLeft)() > nEX )//erstmal die Zeile ueberspr. pTmpLeaf = pTmpLeaf->GetNextLayoutLeaf(); while ( pTmpLeaf && (pTmpLeaf->Frm().*fnRect->fnGetLeft)() < nSX && (pTmpLeaf->Frm().*fnRect->fnGetRight)()< nSX2 ) pTmpLeaf = pTmpLeaf->GetNextLayoutLeaf(); const SwTabFrm *pTmpTab = rpStart->FindTabFrm(); if ( !pTmpTab->IsAnLower( pTmpLeaf ) ) { pTmpTab = pTmpTab->GetFollow(); rpStart = pTmpTab->FirstCell(); while ( (rpStart->Frm().*fnRect->fnGetLeft)() < nSX && (rpStart->Frm().*fnRect->fnGetRight)()< nSX2 ) rpStart = rpStart->GetNextLayoutLeaf(); } else rpStart = pTmpLeaf; } while ( rpEnd->GetFmt()->GetProtect().IsCntntProtected() ) { const SwLayoutFrm *pTmpLeaf = rpEnd; pTmpLeaf = pTmpLeaf->GetPrevLayoutLeaf(); while ( pTmpLeaf && (pTmpLeaf->Frm().*fnRect->fnGetLeft)() < nEX )//erstmal die Zeile ueberspr. pTmpLeaf = pTmpLeaf->GetPrevLayoutLeaf(); while ( pTmpLeaf && (pTmpLeaf->Frm().*fnRect->fnGetLeft)() > nEX ) pTmpLeaf = pTmpLeaf->GetPrevLayoutLeaf(); const SwTabFrm *pTmpTab = rpEnd->FindTabFrm(); if ( !pTmpLeaf || !pTmpTab->IsAnLower( pTmpLeaf ) ) { pTmpTab = (const SwTabFrm*)pTmpTab->FindPrev(); ASSERT( pTmpTab->IsTabFrm(), "Vorgaenger vom Follow nicht der Master."); rpEnd = pTmpTab->FindLastCntnt()->GetUpper(); while( !rpEnd->IsCellFrm() ) rpEnd = rpEnd->GetUpper(); while ( (rpEnd->Frm().*fnRect->fnGetLeft)() > nEX ) rpEnd = rpEnd->GetPrevLayoutLeaf(); } else rpEnd = pTmpLeaf; } } void MakeSelUnions( SwSelUnions& rUnions, const SwLayoutFrm *pStart, const SwLayoutFrm *pEnd, const SwTblSearchType eSearchType ) { while ( pStart && !pStart->IsCellFrm() ) pStart = pStart->GetUpper(); while ( pEnd && !pEnd->IsCellFrm() ) pEnd = pEnd->GetUpper(); // #112697# Robust: if ( !pStart || !pEnd ) { ASSERT( false, "MakeSelUnions with pStart or pEnd not in CellFrm" ) return; } const SwTabFrm *pTable = pStart->FindTabFrm(); const SwTabFrm *pEndTable = pEnd->FindTabFrm(); if( !pTable || !pEndTable ) return; BOOL bExchange = FALSE; if ( pTable != pEndTable ) { if ( !pTable->IsAnFollow( pEndTable ) ) { ASSERT( pEndTable->IsAnFollow( pTable ), "Tabkette verknotet." ); bExchange = TRUE; } } else { SWRECTFN( pTable ) long nSttTop = (pStart->Frm().*fnRect->fnGetTop)(); long nEndTop = (pEnd->Frm().*fnRect->fnGetTop)(); if( nSttTop == nEndTop ) { if( (pStart->Frm().*fnRect->fnGetLeft)() > (pEnd->Frm().*fnRect->fnGetLeft)() ) bExchange = TRUE; } else if( bVert == ( nSttTop < nEndTop ) ) bExchange = TRUE; } if ( bExchange ) { const SwLayoutFrm *pTmp = pStart; pStart = pEnd; pEnd = pTmp; //pTable und pEndTable nicht umsortieren, werden unten neu gesetzt. //MA: 28. Dec. 93 Bug: 5190 } //Start und End sind jetzt huebsch sortiert, jetzt muessen sie falls //erwuenscht noch versetzt werden. if( nsSwTblSearchType::TBLSEARCH_ROW == ((~nsSwTblSearchType::TBLSEARCH_PROTECT ) & eSearchType ) ) ::lcl_FindStartEndRow( pStart, pEnd, nsSwTblSearchType::TBLSEARCH_PROTECT & eSearchType ); else if( nsSwTblSearchType::TBLSEARCH_COL == ((~nsSwTblSearchType::TBLSEARCH_PROTECT ) & eSearchType ) ) ::lcl_FindStartEndCol( pStart, pEnd, nsSwTblSearchType::TBLSEARCH_PROTECT & eSearchType ); // --> FME 2006-07-17 #134385# Made code robust. if ( !pEnd ) return; // <-- //neu besorgen, da sie jetzt verschoben sind. MA: 28. Dec. 93 Bug 5190 pTable = pStart->FindTabFrm(); pEndTable = pEnd->FindTabFrm(); const long nStSz = pStart->GetFmt()->GetFrmSize().GetWidth(); const long nEdSz = pEnd->GetFmt()->GetFrmSize().GetWidth(); const long nWish = Max( 1L, pTable->GetFmt()->GetFrmSize().GetWidth() ); while ( pTable ) { SWRECTFN( pTable ) const long nOfst = (pTable->*fnRect->fnGetPrtLeft)(); const long nPrtWidth = (pTable->Prt().*fnRect->fnGetWidth)(); long nSt1 = ::lcl_CalcWish( pStart, nWish, nPrtWidth ) + nOfst; long nEd1 = ::lcl_CalcWish( pEnd, nWish, nPrtWidth ) + nOfst; if ( nSt1 <= nEd1 ) nEd1 += (long)((nEdSz * nPrtWidth) / nWish) - 1; else nSt1 += (long)((nStSz * nPrtWidth) / nWish) - 1; long nSt2; long nEd2; if( pTable->IsAnLower( pStart ) ) nSt2 = (pStart->Frm().*fnRect->fnGetTop)(); else nSt2 = (pTable->Frm().*fnRect->fnGetTop)(); if( pTable->IsAnLower( pEnd ) ) nEd2 = (pEnd->Frm().*fnRect->fnGetBottom)(); else nEd2 = (pTable->Frm().*fnRect->fnGetBottom)(); Point aSt, aEd; if( nSt1 > nEd1 ) { long nTmp = nSt1; nSt1 = nEd1; nEd1 = nTmp; } if( nSt2 > nEd2 ) { long nTmp = nSt2; nSt2 = nEd2; nEd2 = nTmp; } if( bVert ) { aSt = Point( nSt2, nSt1 ); aEd = Point( nEd2, nEd1 ); } else { aSt = Point( nSt1, nSt2 ); aEd = Point( nEd1, nEd2 ); } const Point aDiff( aEd - aSt ); SwRect aUnion( aSt, Size( aDiff.X(), aDiff.Y() ) ); aUnion.Justify(); // fuers if( !(nsSwTblSearchType::TBLSEARCH_NO_UNION_CORRECT & eSearchType )) { //Leider ist die Union jetzt mit Rundungsfehlern behaftet und dadurch //wuerden beim Split/Merge fehlertraechtige Umstaende entstehen. //Um dies zu vermeiden werden jetzt fuer die Table die erste und //letzte Zelle innerhalb der Union ermittelt und aus genau deren //Werten wird die Union neu gebildet. const SwLayoutFrm* pRow = pTable->IsFollow() ? pTable->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTable->Lower(); while ( pRow && !pRow->Frm().IsOver( aUnion ) ) pRow = (SwLayoutFrm*)pRow->GetNext(); // --> FME 2004-07-26 #i31976# // A follow flow row may contain emtpy cells. These are not // considered by FirstCell(). Therefore we have to find // the first cell manually: const SwFrm* pTmpCell = 0; if ( pTable->IsFollow() && pRow && pRow->IsInFollowFlowRow() ) { const SwFrm* pTmpRow = pRow; while ( pTmpRow && pTmpRow->IsRowFrm() ) { pTmpCell = static_cast(pTmpRow)->Lower(); pTmpRow = static_cast(pTmpCell)->Lower(); } ASSERT( !pTmpCell || pTmpCell->IsCellFrm(), "Lower of rowframe != cellframe?!" ) } // <-- const SwLayoutFrm* pFirst = pTmpCell ? static_cast(pTmpCell) : pRow ? pRow->FirstCell() : 0; while ( pFirst && !::IsFrmInTblSel( aUnion, pFirst ) ) { if ( pFirst->GetNext() ) { pFirst = (const SwLayoutFrm*)pFirst->GetNext(); if ( pFirst->Lower() && pFirst->Lower()->IsRowFrm() ) pFirst = pFirst->FirstCell(); } else pFirst = ::lcl_FindNextCellFrm( pFirst ); } const SwLayoutFrm* pLast = 0; const SwFrm* pLastCntnt = pTable->FindLastCntnt(); if ( pLastCntnt ) pLast = ::lcl_FindCellFrm( pLastCntnt->GetUpper() ); while ( pLast && !::IsFrmInTblSel( aUnion, pLast ) ) pLast = ::lcl_FindCellFrm( pLast->GetPrevLayoutLeaf() ); if ( pFirst && pLast ) //Robust { aUnion = pFirst->Frm(); aUnion.Union( pLast->Frm() ); } else aUnion.Width( 0 ); } if( (aUnion.*fnRect->fnGetWidth)() ) { SwSelUnion *pTmp = new SwSelUnion( aUnion, (SwTabFrm*)pTable ); rUnions.C40_INSERT( SwSelUnion, pTmp, rUnions.Count() ); } pTable = pTable->GetFollow(); if ( pTable != pEndTable && pEndTable->IsAnFollow( pTable ) ) pTable = 0; } } BOOL CheckSplitCells( const SwCrsrShell& rShell, USHORT nDiv, const SwTblSearchType eSearchType ) { if( !rShell.IsTableMode() ) rShell.GetCrsr(); return CheckSplitCells( *rShell.getShellCrsr(false), nDiv, eSearchType ); } BOOL CheckSplitCells( const SwCursor& rCrsr, USHORT nDiv, const SwTblSearchType eSearchType ) { if( 1 >= nDiv ) return FALSE; USHORT nMinValue = nDiv * MINLAY; //Start- und Endzelle besorgen und den naechsten fragen. Point aPtPos, aMkPos; const SwShellCrsr* pShCrsr = dynamic_cast(&rCrsr); if( pShCrsr ) { aPtPos = pShCrsr->GetPtPos(); aMkPos = pShCrsr->GetMkPos(); } const SwCntntNode* pCntNd = rCrsr.GetCntntNode(); const SwLayoutFrm *pStart = pCntNd->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aPtPos )->GetUpper(); pCntNd = rCrsr.GetCntntNode(FALSE); const SwLayoutFrm *pEnd = rCrsr.GetCntntNode(FALSE)->getLayoutFrm( pCntNd->GetDoc()->GetCurrentLayout(), &aMkPos )->GetUpper(); SWRECTFN( pStart->GetUpper() ) //Zuerst lassen wir uns die Tabellen und die Rechtecke heraussuchen. SwSelUnions aUnions; ::MakeSelUnions( aUnions, pStart, pEnd, eSearchType ); //Jetzt zu jedem Eintrag die Boxen herausfischen und uebertragen. for ( USHORT i = 0; i < aUnions.Count(); ++i ) { SwSelUnion *pUnion = aUnions[i]; const SwTabFrm *pTable = pUnion->GetTable(); // Skip any repeated headlines in the follow: const SwLayoutFrm* pRow = pTable->IsFollow() ? pTable->GetFirstNonHeadlineRow() : (const SwLayoutFrm*)pTable->Lower(); while ( pRow ) { if ( pRow->Frm().IsOver( pUnion->GetUnion() ) ) { const SwLayoutFrm *pCell = pRow->FirstCell(); while ( pCell && pRow->IsAnLower( pCell ) ) { ASSERT( pCell->IsCellFrm(), "Frame ohne Celle" ); if( ::IsFrmInTblSel( pUnion->GetUnion(), pCell ) ) { if( (pCell->Frm().*fnRect->fnGetWidth)() < nMinValue ) return FALSE; } if ( pCell->GetNext() ) { pCell = (const SwLayoutFrm*)pCell->GetNext(); if ( pCell->Lower() && pCell->Lower()->IsRowFrm() ) pCell = pCell->FirstCell(); } else pCell = ::lcl_FindNextCellFrm( pCell ); } } pRow = (const SwLayoutFrm*)pRow->GetNext(); } } return TRUE; } // ------------------------------------------------------------------- // Diese Klassen kopieren die aktuelle Tabellen-Selektion (rBoxes) // unter Beibehaltung der Tabellen-Struktur in eine eigene Struktur // neu: SS zum gezielten Loeschen/Retaurieren des Layouts. void lcl_InsertRow( SwTableLine &rLine, SwLayoutFrm *pUpper, SwFrm *pSibling ) { SwRowFrm *pRow = new SwRowFrm( rLine, pUpper ); if ( pUpper->IsTabFrm() && ((SwTabFrm*)pUpper)->IsFollow() ) { SwTabFrm* pTabFrm = (SwTabFrm*)pUpper; pTabFrm->FindMaster()->InvalidatePos(); //kann die Zeile vielleicht aufnehmen if ( pSibling && pTabFrm->IsInHeadline( *pSibling ) ) { // Skip any repeated headlines in the follow: pSibling = pTabFrm->GetFirstNonHeadlineRow(); } } pRow->Paste( pUpper, pSibling ); pRow->RegistFlys(); } BOOL _FndBoxCopyCol( const SwTableBox*& rpBox, void* pPara ) { _FndPara* pFndPara = (_FndPara*)pPara; _FndBox* pFndBox = new _FndBox( (SwTableBox*)rpBox, pFndPara->pFndLine ); if( rpBox->GetTabLines().Count() ) { _FndPara aPara( *pFndPara, pFndBox ); pFndBox->GetBox()->GetTabLines().ForEach( &_FndLineCopyCol, &aPara ); if( !pFndBox->GetLines().Count() ) { delete pFndBox; return TRUE; } } else { SwTableBoxPtr pSrch = (SwTableBoxPtr)rpBox; USHORT nFndPos; if( !pFndPara->rBoxes.Seek_Entry( pSrch, &nFndPos )) { delete pFndBox; return TRUE; } } pFndPara->pFndLine->GetBoxes().C40_INSERT( _FndBox, pFndBox, pFndPara->pFndLine->GetBoxes().Count() ); return TRUE; } BOOL _FndLineCopyCol( const SwTableLine*& rpLine, void* pPara ) { _FndPara* pFndPara = (_FndPara*)pPara; _FndLine* pFndLine = new _FndLine( (SwTableLine*)rpLine, pFndPara->pFndBox ); _FndPara aPara( *pFndPara, pFndLine ); pFndLine->GetLine()->GetTabBoxes().ForEach( &_FndBoxCopyCol, &aPara ); if( pFndLine->GetBoxes().Count() ) { pFndPara->pFndBox->GetLines().C40_INSERT( _FndLine, pFndLine, pFndPara->pFndBox->GetLines().Count() ); } else delete pFndLine; return TRUE; } void _FndBox::SetTableLines( const SwSelBoxes &rBoxes, const SwTable &rTable ) { //Pointer auf die Lines vor und hinter den zu verarbeitenden Bereich //setzen. Wenn die erste/letzte Zeile in den Bereich eingeschlossen //sind, so bleiben die Pointer eben einfach 0. //Gesucht werden zunachst die Positionen der ersten/letzten betroffenen //Line im Array der SwTable. Damit die 0 fuer 'keine Line' verwand werden //kann werden die Positionen um 1 nach oben versetzt! USHORT nStPos = USHRT_MAX; USHORT nEndPos= 0; for ( USHORT i = 0; i < rBoxes.Count(); ++i ) { SwTableLine *pLine = rBoxes[i]->GetUpper(); while ( pLine->GetUpper() ) pLine = pLine->GetUpper()->GetUpper(); const USHORT nPos = rTable.GetTabLines().GetPos( (const SwTableLine*&)pLine ) + 1; ASSERT( nPos != USHRT_MAX, "TableLine not found." ); if( nStPos > nPos ) nStPos = nPos; if( nEndPos < nPos ) nEndPos = nPos; } if ( nStPos > 1 ) pLineBefore = rTable.GetTabLines()[nStPos - 2]; if ( nEndPos < rTable.GetTabLines().Count() ) pLineBehind = rTable.GetTabLines()[nEndPos]; } void _FndBox::SetTableLines( const SwTable &rTable ) { // Pointer auf die Lines vor und hinter den zu verarbeitenden Bereich // setzen. Wenn die erste/letzte Zeile in den Bereich eingeschlossen // sind, so bleiben die Pointer eben einfach 0. // Die Positionen der ersten/letzten betroffenen Line im Array der // SwTable steht in der FndBox. Damit die 0 fuer 'keine Line' verwand // werdenkann werden die Positionen um 1 nach oben versetzt! if( !GetLines().Count() ) return; SwTableLine* pTmpLine = GetLines()[0]->GetLine(); USHORT nPos = rTable.GetTabLines().C40_GETPOS( SwTableLine, pTmpLine ); ASSERT( USHRT_MAX != nPos, "Line steht nicht in der Tabelle" ); if( nPos ) pLineBefore = rTable.GetTabLines()[ nPos - 1 ]; pTmpLine = GetLines()[GetLines().Count()-1]->GetLine(); nPos = rTable.GetTabLines().C40_GETPOS( SwTableLine, pTmpLine ); ASSERT( USHRT_MAX != nPos, "Line steht nicht in der Tabelle" ); if( ++nPos < rTable.GetTabLines().Count() ) pLineBehind = rTable.GetTabLines()[nPos]; } inline void UnsetFollow( SwFlowFrm *pTab ) { pTab->bIsFollow = FALSE; } void _FndBox::DelFrms( SwTable &rTable ) { //Alle Lines zwischen pLineBefore und pLineBehind muessen aus dem //Layout ausgeschnitten und geloescht werden. //Entstehen dabei leere Follows so muessen diese vernichtet werden. //Wird ein Master vernichtet, so muss der Follow Master werden. //Ein TabFrm muss immer uebrigbleiben. USHORT nStPos = 0; USHORT nEndPos= rTable.GetTabLines().Count() - 1; if( rTable.IsNewModel() && pLineBefore ) rTable.CheckRowSpan( pLineBefore, true ); if ( pLineBefore ) { nStPos = rTable.GetTabLines().GetPos( (const SwTableLine*&)pLineBefore ); ASSERT( nStPos != USHRT_MAX, "Fuchs Du hast die Line gestohlen!" ); ++nStPos; } if( rTable.IsNewModel() && pLineBehind ) rTable.CheckRowSpan( pLineBehind, false ); if ( pLineBehind ) { nEndPos = rTable.GetTabLines().GetPos( (const SwTableLine*&)pLineBehind ); ASSERT( nEndPos != USHRT_MAX, "Fuchs Du hast die Line gestohlen!" ); --nEndPos; } for ( USHORT i = nStPos; i <= nEndPos; ++i) { SwFrmFmt *pFmt = rTable.GetTabLines()[i]->GetFrmFmt(); SwClientIter aIter( *pFmt ); SwClient* pLast = aIter.GoStart(); if( pLast ) { do { SwFrm *pFrm = PTR_CAST( SwFrm, pLast ); if ( pFrm && ((SwRowFrm*)pFrm)->GetTabLine() == rTable.GetTabLines()[i] ) { BOOL bDel = TRUE; SwTabFrm *pUp = !pFrm->GetPrev() && !pFrm->GetNext() ? (SwTabFrm*)pFrm->GetUpper() : 0; if ( !pUp ) { const USHORT nRepeat = ((SwTabFrm*)pFrm->GetUpper())->GetTable()->GetRowsToRepeat(); if ( nRepeat > 0 && ((SwTabFrm*)pFrm->GetUpper())->IsFollow() ) { if ( !pFrm->GetNext() ) { SwRowFrm* pFirstNonHeadline = ((SwTabFrm*)pFrm->GetUpper())->GetFirstNonHeadlineRow(); if ( pFirstNonHeadline == pFrm ) { pUp = (SwTabFrm*)pFrm->GetUpper(); } } } } if ( pUp ) { SwTabFrm *pFollow = pUp->GetFollow(); SwTabFrm *pPrev = pUp->IsFollow() ? pUp : 0; if ( pPrev ) { SwFrm *pTmp = pPrev->FindPrev(); ASSERT( pTmp->IsTabFrm(), "Vorgaenger vom Follow kein Master."); pPrev = (SwTabFrm*)pTmp; } if ( pPrev ) { pPrev->SetFollow( pFollow ); // --> FME 2006-01-31 #i60340# Do not transfer the // flag from pUp to pPrev. pUp may still have the // flag set although there is not more follow flow // line associated with pUp. pPrev->SetFollowFlowLine( FALSE ); // <-- } else if ( pFollow ) ::UnsetFollow( pFollow ); //Ein TabellenFrm muss immer stehenbleiben! if ( pPrev || pFollow ) { // OD 26.08.2003 #i18103# - if table is in a section, // lock the section, to avoid its delete. { SwSectionFrm* pSctFrm = pUp->FindSctFrm(); bool bOldSectLock = false; if ( pSctFrm ) { bOldSectLock = pSctFrm->IsColLocked(); pSctFrm->ColLock(); } pUp->Cut(); if ( pSctFrm && !bOldSectLock ) { pSctFrm->ColUnlock(); } } delete pUp; bDel = FALSE;//Die Row wird mit in den Abgrund //gerissen. } } if ( bDel ) { SwFrm* pTabFrm = pFrm->GetUpper(); if ( pTabFrm->IsTabFrm() && !pFrm->GetNext() && ((SwTabFrm*)pTabFrm)->GetFollow() ) { // We do not delete the follow flow line, // this will be done automatically in the // next turn. ((SwTabFrm*)pTabFrm)->SetFollowFlowLine( FALSE ); } pFrm->Cut(); delete pFrm; } } } while( 0 != ( pLast = aIter++ )); } } } BOOL lcl_IsLineOfTblFrm( const SwTabFrm& rTable, const SwFrm& rChk ) { const SwTabFrm* pTblFrm = rChk.FindTabFrm(); if( pTblFrm->IsFollow() ) pTblFrm = pTblFrm->FindMaster( true ); return &rTable == pTblFrm; } /* * lcl_UpdateRepeatedHeadlines */ void lcl_UpdateRepeatedHeadlines( SwTabFrm& rTabFrm, bool bCalcLowers ) { ASSERT( rTabFrm.IsFollow(), "lcl_UpdateRepeatedHeadlines called for non-follow tab" ) // Delete remaining headlines: SwRowFrm* pLower = 0; while ( 0 != ( pLower = (SwRowFrm*)rTabFrm.Lower() ) && pLower->IsRepeatedHeadline() ) { pLower->Cut(); delete pLower; } // Insert fresh set of headlines: pLower = (SwRowFrm*)rTabFrm.Lower(); SwTable& rTable = *rTabFrm.GetTable(); const USHORT nRepeat = rTable.GetRowsToRepeat(); for ( USHORT nIdx = 0; nIdx < nRepeat; ++nIdx ) { SwRowFrm* pHeadline = new SwRowFrm( *rTable.GetTabLines()[ nIdx ], &rTabFrm ); pHeadline->SetRepeatedHeadline( true ); pHeadline->Paste( &rTabFrm, pLower ); pHeadline->RegistFlys(); } if ( bCalcLowers ) rTabFrm.SetCalcLowers(); } void _FndBox::MakeFrms( SwTable &rTable ) { //Alle Lines zwischen pLineBefore und pLineBehind muessen im Layout //wieder neu erzeugt werden. //Und Zwar fuer alle Auspraegungen der Tabelle (mehrere z.B. im Kopf/Fuss). USHORT nStPos = 0; USHORT nEndPos= rTable.GetTabLines().Count() - 1; if ( pLineBefore ) { nStPos = rTable.GetTabLines().GetPos( (const SwTableLine*&)pLineBefore ); ASSERT( nStPos != USHRT_MAX, "Fuchs Du hast die Line gestohlen!" ); ++nStPos; } if ( pLineBehind ) { nEndPos = rTable.GetTabLines().GetPos( (const SwTableLine*&)pLineBehind ); ASSERT( nEndPos != USHRT_MAX, "Fuchs Du hast die Line gestohlen!" ); --nEndPos; } //Jetzt die grosse Einfuegeoperation fuer alle Tabllen. SwClientIter aTabIter( *rTable.GetFrmFmt() ); for ( SwTabFrm *pTable = (SwTabFrm*)aTabIter.First( TYPE(SwFrm) ); pTable; pTable = (SwTabFrm*)aTabIter.Next() ) { if ( !pTable->IsFollow() ) { SwFrm *pSibling = 0; SwFrm *pUpperFrm = 0; int i; for ( i = rTable.GetTabLines().Count()-1; i >= 0 && !pSibling; --i ) { SwTableLine *pLine = pLineBehind ? pLineBehind : rTable.GetTabLines()[static_cast(i)]; SwClientIter aIter( *pLine->GetFrmFmt() ); pSibling = (SwFrm*)aIter.First( TYPE(SwFrm) ); while ( pSibling && ( static_cast(pSibling)->GetTabLine() != pLine || !lcl_IsLineOfTblFrm( *pTable, *pSibling ) || static_cast(pSibling)->IsRepeatedHeadline() || // --> FME 2005-08-24 #i53647# If !pLineBehind, // IsInSplitTableRow() should be checked. ( pLineBehind && pSibling->IsInFollowFlowRow() ) || (!pLineBehind && pSibling->IsInSplitTableRow() ) ) ) // <-- { pSibling = (SwFrm*)aIter.Next(); } } if ( pSibling ) { pUpperFrm = pSibling->GetUpper(); if ( !pLineBehind ) pSibling = 0; } else // ???? oder das der Letzte Follow der Tabelle ???? pUpperFrm = pTable; for ( i = nStPos; (USHORT)i <= nEndPos; ++i ) ::lcl_InsertRow( *rTable.GetTabLines()[static_cast(i)], (SwLayoutFrm*)pUpperFrm, pSibling ); if ( pUpperFrm->IsTabFrm() ) ((SwTabFrm*)pUpperFrm)->SetCalcLowers(); } else if ( rTable.GetRowsToRepeat() > 0 ) { // Insert new headlines: lcl_UpdateRepeatedHeadlines( *pTable, true ); } } } void _FndBox::MakeNewFrms( SwTable &rTable, const USHORT nNumber, const BOOL bBehind ) { //Frms fuer neu eingefuege Zeilen erzeugen. //bBehind == TRUE: vor pLineBehind // == FALSE: hinter pLineBefore const USHORT nBfPos = pLineBefore ? rTable.GetTabLines().GetPos( (const SwTableLine*&)pLineBefore ) : USHRT_MAX; const USHORT nBhPos = pLineBehind ? rTable.GetTabLines().GetPos( (const SwTableLine*&)pLineBehind ) : USHRT_MAX; //nNumber: wie oft ist eingefuegt worden. //nCnt: wieviele sind nNumber mal eingefuegt worden. const USHORT nCnt = ((nBhPos != USHRT_MAX ? nBhPos : rTable.GetTabLines().Count()) - (nBfPos != USHRT_MAX ? nBfPos + 1 : 0)) / (nNumber + 1); //Den Master-TabFrm suchen SwClientIter aTabIter( *rTable.GetFrmFmt() ); SwTabFrm *pTable; for ( pTable = (SwTabFrm*)aTabIter.First( TYPE(SwFrm) ); pTable; pTable = (SwTabFrm*)aTabIter.Next() ) { if( !pTable->IsFollow() ) { SwFrm *pSibling = 0; SwLayoutFrm *pUpperFrm = 0; if ( bBehind ) { if ( pLineBehind ) { SwClientIter aIter( *pLineBehind->GetFrmFmt() ); pSibling = (SwFrm*)aIter.First( TYPE(SwFrm) ); while ( pSibling && ( // only consider row frames associated with pLineBehind: static_cast(pSibling)->GetTabLine() != pLineBehind || // only consider row frames that are in pTables Master-Follow chain: !lcl_IsLineOfTblFrm( *pTable, *pSibling ) || // only consider row frames that are not repeated headlines: static_cast(pSibling)->IsRepeatedHeadline() || // only consider row frames that are not follow flow rows pSibling->IsInFollowFlowRow() ) ) { pSibling = (SwFrm*)aIter.Next(); } } if ( pSibling ) pUpperFrm = pSibling->GetUpper(); else { while( pTable->GetFollow() ) pTable = pTable->GetFollow(); pUpperFrm = pTable; } const USHORT nMax = nBhPos != USHRT_MAX ? nBhPos : rTable.GetTabLines().Count(); USHORT i = nBfPos != USHRT_MAX ? nBfPos + 1 + nCnt : nCnt; for ( ; i < nMax; ++i ) ::lcl_InsertRow( *rTable.GetTabLines()[i], pUpperFrm, pSibling ); if ( pUpperFrm->IsTabFrm() ) ((SwTabFrm*)pUpperFrm)->SetCalcLowers(); } else //davor einfuegen { USHORT i; // We are looking for the frame that is behind the row frame // that should be inserted. for ( i = 0; !pSibling; ++i ) { SwTableLine* pLine = pLineBefore ? pLineBefore : rTable.GetTabLines()[i]; SwClientIter aIter( *pLine->GetFrmFmt() ); pSibling = (SwFrm*)aIter.First( TYPE(SwFrm) ); while ( pSibling && ( // only consider row frames associated with pLineBefore: static_cast(pSibling)->GetTabLine() != pLine || // only consider row frames that are in pTables Master-Follow chain: !lcl_IsLineOfTblFrm( *pTable, *pSibling ) || // only consider row frames that are not repeated headlines: static_cast(pSibling)->IsRepeatedHeadline() || // 1. case: pLineBefore == 0: // only consider row frames that are not follow flow rows // 2. case: pLineBefore != 0: // only consider row frames that are not split table rows // --> FME 2004-11-23 #i37476# If !pLineBefore, // check IsInFollowFlowRow instead of IsInSplitTableRow. ( ( !pLineBefore && pSibling->IsInFollowFlowRow() ) || ( pLineBefore && pSibling->IsInSplitTableRow() ) ) ) ) // <-- { pSibling = (SwFrm*)aIter.Next(); } } pUpperFrm = pSibling->GetUpper(); if ( pLineBefore ) pSibling = pSibling->GetNext(); USHORT nMax = nBhPos != USHRT_MAX ? nBhPos - nCnt : rTable.GetTabLines().Count() - nCnt; i = nBfPos != USHRT_MAX ? nBfPos + 1 : 0; for ( ; i < nMax; ++i ) ::lcl_InsertRow( *rTable.GetTabLines()[i], pUpperFrm, pSibling ); if ( pUpperFrm->IsTabFrm() ) ((SwTabFrm*)pUpperFrm)->SetCalcLowers(); } } } //Die Headlines mussen ggf. auch verarbeitet werden. Um gut arbeitenden //Code nicht zu zerfasern wird hier nochmals iteriert. const USHORT nRowsToRepeat = rTable.GetRowsToRepeat(); if ( nRowsToRepeat > 0 && ( ( !bBehind && ( nBfPos == USHRT_MAX || nBfPos + 1 < nRowsToRepeat ) ) || ( bBehind && ( ( nBfPos == USHRT_MAX && nRowsToRepeat > 1 ) || nBfPos + 2 < nRowsToRepeat ) ) ) ) { for ( pTable = (SwTabFrm*)aTabIter.First( TYPE(SwFrm) ); pTable; pTable = (SwTabFrm*)aTabIter.Next() ) { if ( pTable->Lower() ) { if ( pTable->IsFollow() ) { lcl_UpdateRepeatedHeadlines( *pTable, true ); } ASSERT( ((SwRowFrm*)pTable->Lower())->GetTabLine() == rTable.GetTabLines()[0], "MakeNewFrms: Table corruption!" ) } } } } BOOL _FndBox::AreLinesToRestore( const SwTable &rTable ) const { //Lohnt es sich MakeFrms zu rufen? if ( !pLineBefore && !pLineBehind && rTable.GetTabLines().Count() ) return TRUE; USHORT nBfPos; if(pLineBefore) { const SwTableLine* rLBefore = (const SwTableLine*)pLineBefore; nBfPos = rTable.GetTabLines().GetPos( rLBefore ); } else nBfPos = USHRT_MAX; USHORT nBhPos; if(pLineBehind) { const SwTableLine* rLBehind = (const SwTableLine*)pLineBehind; nBhPos = rTable.GetTabLines().GetPos( rLBehind ); } else nBhPos = USHRT_MAX; if ( nBfPos == nBhPos ) //Duerfte eigentlich nie vorkommen. { ASSERT( FALSE, "Table, Loeschen auf keinem Bereich !?!" ); return FALSE; } if ( rTable.GetRowsToRepeat() > 0 ) { // ups. sollte unsere zu wiederholende Kopfzeile geloescht worden // sein?? SwClientIter aIter( *rTable.GetFrmFmt() ); for( SwTabFrm* pTable = (SwTabFrm*)aIter.First( TYPE( SwFrm )); pTable; pTable = (SwTabFrm*)aIter.Next() ) { if( pTable->IsFollow() ) { // Insert new headlines: lcl_UpdateRepeatedHeadlines( *pTable, false ); } } } // Some adjacent lines at the beginning of the table have been deleted: if ( nBfPos == USHRT_MAX && nBhPos == 0 ) return FALSE; // Some adjacent lines at the end of the table have been deleted: if ( nBhPos == USHRT_MAX && nBfPos == (rTable.GetTabLines().Count() - 1) ) return FALSE; // Some adjacent lines in the middle of the table have been deleted: if ( nBfPos != USHRT_MAX && nBhPos != USHRT_MAX && (nBfPos + 1) == nBhPos ) return FALSE; // The structure of the deleted lines is more complex due to split lines. // A call of MakeFrms() is necessary. return TRUE; }