/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include "pagefrm.hxx" #include "cntfrm.hxx" #include "flyfrm.hxx" #include "txtfrm.hxx" #include #include #include "viewsh.hxx" #include "viewimp.hxx" #include "pam.hxx" #include "frmfmt.hxx" #include "frmtool.hxx" #include "dflyobj.hxx" #include "hints.hxx" #include "ndtxt.hxx" #include "swundo.hxx" #include #include #include #include #include #include #include "tabfrm.hxx" #include "flyfrms.hxx" #include "crstate.hxx" #include "sectfrm.hxx" #include #include #include #include #include #include using namespace ::com::sun::star; /************************************************************************* |* |* SwFlyAtCntFrm::SwFlyAtCntFrm() |* |*************************************************************************/ SwFlyAtCntFrm::SwFlyAtCntFrm( SwFlyFrmFmt *pFmt, SwFrm* pSib, SwFrm *pAnch ) : SwFlyFreeFrm( pFmt, pSib, pAnch ) { bAtCnt = sal_True; bAutoPosition = (FLY_AT_CHAR == pFmt->GetAnchor().GetAnchorId()); } // #i28701# TYPEINIT1(SwFlyAtCntFrm,SwFlyFreeFrm); /************************************************************************* |* |* SwFlyAtCntFrm::Modify() |* |*************************************************************************/ void SwFlyAtCntFrm::Modify( const SfxPoolItem* pOld, const SfxPoolItem *pNew ) { sal_uInt16 nWhich = pNew ? pNew->Which() : 0; const SwFmtAnchor *pAnch = 0; if( RES_ATTRSET_CHG == nWhich && SFX_ITEM_SET == ((SwAttrSetChg*)pNew)->GetChgSet()->GetItemState( RES_ANCHOR, sal_False, (const SfxPoolItem**)&pAnch )) ; // The anchor pointer is set at GetItemState! else if( RES_ANCHOR == nWhich ) { //Change anchor, I move myself to a new place. //The anchor type must not change, this is only possible using //SwFEShell. pAnch = (const SwFmtAnchor*)pNew; } if( pAnch ) { OSL_ENSURE( pAnch->GetAnchorId() == GetFmt()->GetAnchor().GetAnchorId(), "Illegal change of anchor type. " ); //Unregister, get hold of a new anchor and attach it SwRect aOld( GetObjRectWithSpaces() ); SwPageFrm *pOldPage = FindPageFrm(); const SwFrm *pOldAnchor = GetAnchorFrm(); SwCntntFrm *pCntnt = (SwCntntFrm*)GetAnchorFrm(); AnchorFrm()->RemoveFly( this ); const bool bBodyFtn = (pCntnt->IsInDocBody() || pCntnt->IsInFtn()); // Search the new anchor using the NodeIdx; the relation between old // and new NodeIdx determines the search direction const SwNodeIndex aNewIdx( pAnch->GetCntntAnchor()->nNode ); SwNodeIndex aOldIdx( *pCntnt->GetNode() ); //fix: depending on which index was smaller, searching in the do-while //loop previously was done forward or backwards respectively. This however //could lead to an infinite loop. To at least avoid the loop, searching //is now done in only one direction. Getting hold of a frame from the node //is still possible if the new anchor could not be found. Chances are //good that this will be the correct one. const bool bNext = aOldIdx < aNewIdx; // consider the case that at found anchor frame candidate already a // fly frame of the given fly format is registered. // consider, that is the already // the new anchor frame. bool bFound( aOldIdx == aNewIdx ); while ( pCntnt && !bFound ) { do { if ( bNext ) pCntnt = pCntnt->GetNextCntntFrm(); else pCntnt = pCntnt->GetPrevCntntFrm(); } while ( pCntnt && !( bBodyFtn == ( pCntnt->IsInDocBody() || pCntnt->IsInFtn() ) ) ); if ( pCntnt ) aOldIdx = *pCntnt->GetNode(); // check, if at found anchor frame candidate already a fly frame // of the given fly frame format is registered. bFound = aOldIdx == aNewIdx; if ( bFound && pCntnt->GetDrawObjs() ) { SwFrmFmt* pMyFlyFrmFmt( &GetFrmFmt() ); SwSortedObjs &rObjs = *pCntnt->GetDrawObjs(); for( sal_uInt16 i = 0; i < rObjs.Count(); ++i) { SwFlyFrm* pFlyFrm = dynamic_cast(rObjs[i]); if ( pFlyFrm && &(pFlyFrm->GetFrmFmt()) == pMyFlyFrmFmt ) { bFound = false; break; } } } } if ( !pCntnt ) { SwCntntNode *pNode = aNewIdx.GetNode().GetCntntNode(); pCntnt = pNode->getLayoutFrm( getRootFrm(), &pOldAnchor->Frm().Pos(), 0, sal_False ); OSL_ENSURE( pCntnt, "Neuen Anker nicht gefunden" ); } //Flys are never attached to a follow, but always on the master which //we are going to search now. SwCntntFrm* pFlow = pCntnt; while ( pFlow->IsFollow() ) pFlow = pFlow->FindMaster(); pCntnt = pFlow; //and *puff* it's attached... pCntnt->AppendFly( this ); if ( pOldPage && pOldPage != FindPageFrm() ) NotifyBackground( pOldPage, aOld, PREP_FLY_LEAVE ); //Fix(3495) _InvalidatePos(); InvalidatePage(); SetNotifyBack(); // #i28701# - reset member and // for to-character anchored objects. ClearCharRectAndTopOfLine(); } else SwFlyFrm::Modify( pOld, pNew ); } /************************************************************************* |* |* SwFlyAtCntFrm::MakeAll() |* |* Description With a paragraph-anchored fly it's absolutely possible that |* the anchor reacts to changes of the fly. To this reaction the fly must |* certaily react too. Sadly this can lead to oscillations; for example the |* fly wants to go down therefore the content can go up - this leads to a |* smaller TxtFrm thus the fly needs to go up again whereby the text will |* get pushed down... |* To avoid such oscillations, a small position stack is built. If the fly |* reaches a position which it already had once, the action is stopped. |* To not run into problems, the stack is designed to hold five positions. |* If the stack flows over, the action is stopped too. |* Cancellation leads to the situation that the fly has a bad position in |* the end. In case of cancellation, the frame is set to automatic top |* alignment to not trigger a 'big oscillation' when calling from outside |* again. |*************************************************************************/ //We need some helper classes to monitor the oscillation and a few functions //to not get lost. // #i3317# - re-factoring of the position stack class SwOszControl { static const SwFlyFrm *pStk1; static const SwFlyFrm *pStk2; static const SwFlyFrm *pStk3; static const SwFlyFrm *pStk4; static const SwFlyFrm *pStk5; const SwFlyFrm *pFly; // #i3317# sal_uInt8 mnPosStackSize; std::vector maObjPositions; public: SwOszControl( const SwFlyFrm *pFrm ); ~SwOszControl(); bool ChkOsz(); static bool IsInProgress( const SwFlyFrm *pFly ); }; const SwFlyFrm *SwOszControl::pStk1 = 0; const SwFlyFrm *SwOszControl::pStk2 = 0; const SwFlyFrm *SwOszControl::pStk3 = 0; const SwFlyFrm *SwOszControl::pStk4 = 0; const SwFlyFrm *SwOszControl::pStk5 = 0; SwOszControl::SwOszControl( const SwFlyFrm *pFrm ) : pFly( pFrm ), // #i3317# mnPosStackSize( 20 ) { if ( !SwOszControl::pStk1 ) SwOszControl::pStk1 = pFly; else if ( !SwOszControl::pStk2 ) SwOszControl::pStk2 = pFly; else if ( !SwOszControl::pStk3 ) SwOszControl::pStk3 = pFly; else if ( !SwOszControl::pStk4 ) SwOszControl::pStk4 = pFly; else if ( !SwOszControl::pStk5 ) SwOszControl::pStk5 = pFly; } SwOszControl::~SwOszControl() { if ( SwOszControl::pStk1 == pFly ) SwOszControl::pStk1 = 0; else if ( SwOszControl::pStk2 == pFly ) SwOszControl::pStk2 = 0; else if ( SwOszControl::pStk3 == pFly ) SwOszControl::pStk3 = 0; else if ( SwOszControl::pStk4 == pFly ) SwOszControl::pStk4 = 0; else if ( SwOszControl::pStk5 == pFly ) SwOszControl::pStk5 = 0; // #i3317# while ( !maObjPositions.empty() ) { Point* pPos = maObjPositions.back(); delete pPos; maObjPositions.pop_back(); } } bool SwOszControl::IsInProgress( const SwFlyFrm *pFly ) { if ( SwOszControl::pStk1 && !pFly->IsLowerOf( SwOszControl::pStk1 ) ) return true; if ( SwOszControl::pStk2 && !pFly->IsLowerOf( SwOszControl::pStk2 ) ) return true; if ( SwOszControl::pStk3 && !pFly->IsLowerOf( SwOszControl::pStk3 ) ) return true; if ( SwOszControl::pStk4 && !pFly->IsLowerOf( SwOszControl::pStk4 ) ) return true; if ( SwOszControl::pStk5 && !pFly->IsLowerOf( SwOszControl::pStk5 ) ) return true; return false; } bool SwOszControl::ChkOsz() { bool bOscillationDetected = false; if ( maObjPositions.size() == mnPosStackSize ) { // position stack is full -> oscillation bOscillationDetected = true; } else { Point* pNewObjPos = new Point( pFly->GetObjRect().Pos() ); for ( std::vector::iterator aObjPosIter = maObjPositions.begin(); aObjPosIter != maObjPositions.end(); ++aObjPosIter ) { if ( *(pNewObjPos) == *(*aObjPosIter) ) { // position already occurred -> oscillation bOscillationDetected = true; delete pNewObjPos; break; } } if ( !bOscillationDetected ) { maObjPositions.push_back( pNewObjPos ); } } return bOscillationDetected; } void SwFlyAtCntFrm::MakeAll() { if ( !GetFmt()->GetDoc()->IsVisibleLayerId( GetVirtDrawObj()->GetLayer() ) ) { return; } if ( !SwOszControl::IsInProgress( this ) && !IsLocked() && !IsColLocked() ) { // #i28701# - use new method if( !GetPageFrm() && GetAnchorFrm() && GetAnchorFrm()->IsInFly() ) { SwFlyFrm* pFly = AnchorFrm()->FindFlyFrm(); SwPageFrm *pTmpPage = pFly ? pFly->FindPageFrm() : NULL; if( pTmpPage ) pTmpPage->AppendFlyToPage( this ); } // #i28701# - use new method if( GetPageFrm() ) { bSetCompletePaintOnInvalidate = true; { SwFlyFrmFmt *pFmt = (SwFlyFrmFmt*)GetFmt(); const SwFmtFrmSize &rFrmSz = GetFmt()->GetFrmSize(); if( rFrmSz.GetHeightPercent() != 0xFF && rFrmSz.GetHeightPercent() >= 100 ) { pFmt->LockModify(); SwFmtSurround aMain( pFmt->GetSurround() ); if ( aMain.GetSurround() == SURROUND_NONE ) { aMain.SetSurround( SURROUND_THROUGHT ); pFmt->SetFmtAttr( aMain ); } pFmt->UnlockModify(); } } SwOszControl aOszCntrl( this ); // #i43255# // #i50356# - format the anchor frame, which // contains the anchor position. E.g., for at-character anchored // object this can be the follow frame of the anchor frame. const bool bFormatAnchor = !static_cast( GetAnchorFrmContainingAnchPos() )->IsAnyJoinLocked() && !ConsiderObjWrapInfluenceOnObjPos() && !ConsiderObjWrapInfluenceOfOtherObjs(); const SwFrm* pFooter = GetAnchorFrm()->FindFooterOrHeader(); if( pFooter && !pFooter->IsFooterFrm() ) pFooter = NULL; bool bOsz = false; bool bExtra = Lower() && Lower()->IsColumnFrm(); // #i3317# - boolean, to apply temporarly the // 'straightforward positioning process' for the frame due to its // overlapping with a previous column. bool bConsiderWrapInfluenceDueToOverlapPrevCol( false ); // #i35911# - boolean, to apply temporarly the // 'straightforward positioning process' for the frame due to fact // that it causes the complete content of its layout environment // to move forward. // #i40444# - extend usage of this boolean: // apply temporarly the 'straightforward positioning process' for // the frame due to the fact that the frame clears the area for // the anchor frame, thus it has to move forward. bool bConsiderWrapInfluenceDueToMovedFwdAnchor( false ); do { SWRECTFN( this ) Point aOldPos( (Frm().*fnRect->fnGetPos)() ); SwFlyFreeFrm::MakeAll(); const bool bPosChgDueToOwnFormat = aOldPos != (Frm().*fnRect->fnGetPos)(); // #i3317# if ( !ConsiderObjWrapInfluenceOnObjPos() && OverlapsPrevColumn() ) { bConsiderWrapInfluenceDueToOverlapPrevCol = true; } // #i28701# - no format of anchor frame, if // wrapping style influence is considered on object positioning if ( bFormatAnchor ) { SwTxtFrm* pAnchPosAnchorFrm = dynamic_cast(GetAnchorFrmContainingAnchPos()); OSL_ENSURE( pAnchPosAnchorFrm, " - anchor frame of wrong type -> crash" ); // #i58182# - For the usage of new method // // to check move forward of anchor frame due to the object // positioning it's needed to know, if the object is anchored // at the master frame before the anchor frame is formatted. const bool bAnchoredAtMaster( !pAnchPosAnchorFrm->IsFollow() ); // #i56300# // perform complete format of anchor text frame and its // previous frames, which have become invalid due to the // fly frame format. SwObjectFormatterTxtFrm::FormatAnchorFrmAndItsPrevs( *pAnchPosAnchorFrm ); // #i35911# // #i40444# // #i58182# - usage of new method // sal_uInt32 nToPageNum( 0L ); bool bDummy( false ); if ( SwObjectFormatterTxtFrm::CheckMovedFwdCondition( *this, GetPageFrm()->GetPhyPageNum(), bAnchoredAtMaster, nToPageNum, bDummy ) ) { bConsiderWrapInfluenceDueToMovedFwdAnchor = true; // mark anchor text frame // directly, that it is moved forward by object positioning. SwTxtFrm* pAnchorTxtFrm( static_cast(AnchorFrm()) ); bool bInsert( true ); sal_uInt32 nAnchorFrmToPageNum( 0L ); const SwDoc& rDoc = *(GetFrmFmt().GetDoc()); if ( SwLayouter::FrmMovedFwdByObjPos( rDoc, *pAnchorTxtFrm, nAnchorFrmToPageNum ) ) { if ( nAnchorFrmToPageNum < nToPageNum ) SwLayouter::RemoveMovedFwdFrm( rDoc, *pAnchorTxtFrm ); else bInsert = false; } if ( bInsert ) { SwLayouter::InsertMovedFwdFrm( rDoc, *pAnchorTxtFrm, nToPageNum ); } } } if ( aOldPos != (Frm().*fnRect->fnGetPos)() || ( !GetValidPosFlag() && ( pFooter || bPosChgDueToOwnFormat ) ) ) { bOsz = aOszCntrl.ChkOsz(); // special loop prevention for dedicated document: if ( bOsz && HasFixSize() && IsClipped() && GetAnchorFrm()->GetUpper()->IsCellFrm() ) { SwFrmFmt* pFmt = GetFmt(); const SwFmtFrmSize& rFrmSz = pFmt->GetFrmSize(); if ( rFrmSz.GetWidthPercent() && rFrmSz.GetHeightPercent() == 0xFF ) { SwFmtSurround aSurround( pFmt->GetSurround() ); if ( aSurround.GetSurround() == SURROUND_NONE ) { pFmt->LockModify(); aSurround.SetSurround( SURROUND_THROUGHT ); pFmt->SetFmtAttr( aSurround ); pFmt->UnlockModify(); bOsz = false; OSL_FAIL( " - special loop prevention for dedicated document of b6403541 applied" ); } } } } if ( bExtra && Lower() && !Lower()->GetValidPosFlag() ) { // If a multi column frame leaves invalid columns because of // a position change, we loop once more and format // our content using FormatWidthCols again. _InvalidateSize(); bExtra = false; // Ensure only one additional loop run } } while ( !IsValid() && !bOsz && // #i3317# !bConsiderWrapInfluenceDueToOverlapPrevCol && // #i40444# !bConsiderWrapInfluenceDueToMovedFwdAnchor && GetFmt()->GetDoc()->IsVisibleLayerId( GetVirtDrawObj()->GetLayer() ) ); // #i3317# - instead of attribute change apply // temporarly the 'straightforward positioning process'. // #i80924# // handle special case during splitting of table rows if ( bConsiderWrapInfluenceDueToMovedFwdAnchor && GetAnchorFrm()->IsInTab() && GetAnchorFrm()->IsInFollowFlowRow() ) { const SwFrm* pCellFrm = GetAnchorFrm(); while ( pCellFrm && !pCellFrm->IsCellFrm() ) { pCellFrm = pCellFrm->GetUpper(); } if ( pCellFrm ) { SWRECTFN( pCellFrm ) if ( (pCellFrm->Frm().*fnRect->fnGetTop)() == 0 && (pCellFrm->Frm().*fnRect->fnGetHeight)() == 0 ) { bConsiderWrapInfluenceDueToMovedFwdAnchor = false; } } } if ( bOsz || bConsiderWrapInfluenceDueToOverlapPrevCol || // #i40444# bConsiderWrapInfluenceDueToMovedFwdAnchor ) { SetTmpConsiderWrapInfluence( true ); SetRestartLayoutProcess( true ); SetTmpConsiderWrapInfluenceOfOtherObjs( true ); } bSetCompletePaintOnInvalidate = false; } } } /** method to determine, if a on the Writer fly frame is possible #i28701# */ bool SwFlyAtCntFrm::IsFormatPossible() const { return SwFlyFreeFrm::IsFormatPossible() && !SwOszControl::IsInProgress( this ); } /************************************************************************* |* |* FindAnchor() und Hilfsfunktionen. |* |* Description: Searches an anchor for paragraph bound objects |* starting from pOldAnch. This is used to show anchors as well as changing |* anchors when dragging paragraph bound objects. |* |*************************************************************************/ class SwDistance { public: SwTwips nMain, nSub; SwDistance() { nMain = nSub = 0; } SwDistance& operator=( const SwDistance &rTwo ) { nMain = rTwo.nMain; nSub = rTwo.nSub; return *this; } bool operator<( const SwDistance& rTwo ) const { return nMain < rTwo.nMain || ( nMain == rTwo.nMain && nSub && rTwo.nSub && nSub < rTwo.nSub ); } bool operator<=( const SwDistance& rTwo ) const { return nMain < rTwo.nMain || ( nMain == rTwo.nMain && ( !nSub || !rTwo.nSub || nSub <= rTwo.nSub ) ); } }; static const SwFrm * lcl_CalcDownDist( SwDistance &rRet, const Point &rPt, const SwCntntFrm *pCnt ) { rRet.nSub = 0; //If the point stays inside the Cnt everything is clear already; the Cntnt //automatically has a distance of 0. if ( pCnt->Frm().IsInside( rPt ) ) { rRet.nMain = 0; return pCnt; } else { const SwLayoutFrm *pUp = pCnt->IsInTab() ? pCnt->FindTabFrm()->GetUpper() : pCnt->GetUpper(); // single column sections need to interconnect to their upper while( pUp->IsSctFrm() ) pUp = pUp->GetUpper(); const bool bVert = pUp->IsVertical(); //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin const bool bVertL2R = pUp->IsVertLR(); //Follow the text flow. // #i70582# // --> OD 2009-03-05 - adopted for Support for Classical Mongolian Script const SwTwips nTopForObjPos = bVert ? ( bVertL2R ? ( pCnt->Frm().Left() + pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ) : ( pCnt->Frm().Left() + pCnt->Frm().Width() - pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ) ) : ( pCnt->Frm().Top() + pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ); if ( pUp->Frm().IsInside( rPt ) ) { // point is inside environment of given content frame // #i70582# if( bVert ) //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin { if ( bVertL2R ) rRet.nMain = rPt.X() - nTopForObjPos; else rRet.nMain = nTopForObjPos - rPt.X(); } else rRet.nMain = rPt.Y() - nTopForObjPos; return pCnt; } else if ( rPt.Y() <= pUp->Frm().Top() ) { // point is above environment of given content frame // correct for vertical layout? rRet.nMain = LONG_MAX; } else if( rPt.X() < pUp->Frm().Left() && rPt.Y() <= ( bVert ? pUp->Frm().Top() : pUp->Frm().Bottom() ) ) { // point is left of environment of given content frame // seems not to be correct for vertical layout!? const SwFrm *pLay = pUp->GetLeaf( MAKEPAGE_NONE, sal_False, pCnt ); if( !pLay || (bVert && (pLay->Frm().Top() + pLay->Prt().Bottom()) Frm().Left() + pLay->Prt().Right()) point is in left border of environment // #i70582# if( bVert ) //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin { if ( bVertL2R ) rRet.nMain = rPt.X() - nTopForObjPos; else rRet.nMain = nTopForObjPos - rPt.X(); } else rRet.nMain = rPt.Y() - nTopForObjPos; return pCnt; } else rRet.nMain = LONG_MAX; } else { // Support for Classical Mongolian Script (SCMS) joint with Jiayanmin rRet.nMain = bVert ? ( bVertL2R ? ( (pUp->Frm().Left() + pUp->Prt().Right()) - nTopForObjPos ) : ( nTopForObjPos - (pUp->Frm().Left() + pUp->Prt().Left() ) ) ) : ( (pUp->Frm().Top() + pUp->Prt().Bottom()) - nTopForObjPos ); const SwFrm *pPre = pCnt; const SwFrm *pLay = pUp->GetLeaf( MAKEPAGE_NONE, sal_True, pCnt ); SwTwips nFrmTop = 0; SwTwips nPrtHeight = 0; bool bSct = false; const SwSectionFrm *pSect = pUp->FindSctFrm(); if( pSect ) { rRet.nSub = rRet.nMain; rRet.nMain = 0; } if( pSect && !pSect->IsAnLower( pLay ) ) { bSct = false; const SwSectionFrm* pNxtSect = pLay ? pLay->FindSctFrm() : 0; if( pSect->IsAnFollow( pNxtSect ) ) { if( pLay->IsVertical() ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if ( pLay->IsVertLR() ) nFrmTop = pLay->Frm().Left(); else nFrmTop = pLay->Frm().Left() + pLay->Frm().Width(); nPrtHeight = pLay->Prt().Width(); } else { nFrmTop = pLay->Frm().Top(); nPrtHeight = pLay->Prt().Height(); } pSect = pNxtSect; } else { pLay = pSect->GetUpper(); if( pLay->IsVertical() ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if ( pLay->IsVertLR() ) { nFrmTop = pSect->Frm().Right(); nPrtHeight = pLay->Frm().Left() + pLay->Prt().Left() + pLay->Prt().Width() - pSect->Frm().Left() - pSect->Frm().Width(); } else { nFrmTop = pSect->Frm().Left(); nPrtHeight = pSect->Frm().Left() - pLay->Frm().Left() - pLay->Prt().Left(); } } else { nFrmTop = pSect->Frm().Bottom(); nPrtHeight = pLay->Frm().Top() + pLay->Prt().Top() + pLay->Prt().Height() - pSect->Frm().Top() - pSect->Frm().Height(); } pSect = 0; } } else if( pLay ) { if( pLay->IsVertical() ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if ( pLay->IsVertLR() ) { nFrmTop = pLay->Frm().Left(); nPrtHeight = pLay->Prt().Width(); } else { nFrmTop = pLay->Frm().Left() + pLay->Frm().Width(); nPrtHeight = pLay->Prt().Width(); } } else { nFrmTop = pLay->Frm().Top(); nPrtHeight = pLay->Prt().Height(); } bSct = 0 != pSect; } while ( pLay && !pLay->Frm().IsInside( rPt ) && ( pLay->Frm().Top() <= rPt.Y() || pLay->IsInFly() || ( pLay->IsInSct() && pLay->FindSctFrm()->GetUpper()->Frm().Top() <= rPt.Y())) ) { if ( pLay->IsFtnContFrm() ) { if ( !((SwLayoutFrm*)pLay)->Lower() ) { SwFrm *pDel = (SwFrm*)pLay; pDel->Cut(); delete pDel; return pPre; } return 0; } else { if( bSct || pSect ) rRet.nSub += nPrtHeight; else rRet.nMain += nPrtHeight; pPre = pLay; pLay = pLay->GetLeaf( MAKEPAGE_NONE, sal_True, pCnt ); if( pSect && !pSect->IsAnLower( pLay ) ) { // If we're leaving a SwSectionFrm, the next Leaf-Frm // is the part of the upper below the SectionFrm. const SwSectionFrm* pNxtSect = pLay ? pLay->FindSctFrm() : NULL; bSct = false; if( pSect->IsAnFollow( pNxtSect ) ) { pSect = pNxtSect; if( pLay->IsVertical() ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if ( pLay->IsVertLR() ) { nFrmTop = pLay->Frm().Left(); nPrtHeight = pLay->Prt().Width(); } else { nFrmTop = pLay->Frm().Left() + pLay->Frm().Width(); nPrtHeight = pLay->Prt().Width(); } } else { nFrmTop = pLay->Frm().Top(); nPrtHeight = pLay->Prt().Height(); } } else { pLay = pSect->GetUpper(); if( pLay->IsVertical() ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if ( pLay->IsVertLR() ) { nFrmTop = pSect->Frm().Right(); nPrtHeight = pLay->Frm().Left()+pLay->Prt().Left() + pLay->Prt().Width() - pSect->Frm().Left() - pSect->Frm().Width(); } else { nFrmTop = pSect->Frm().Left(); nPrtHeight = pSect->Frm().Left() - pLay->Frm().Left() - pLay->Prt().Left(); } } else { nFrmTop = pSect->Frm().Bottom(); nPrtHeight = pLay->Frm().Top()+pLay->Prt().Top() + pLay->Prt().Height() - pSect->Frm().Top() - pSect->Frm().Height(); } pSect = 0; } } else if( pLay ) { if( pLay->IsVertical() ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if ( pLay->IsVertLR() ) { nFrmTop = pLay->Frm().Left(); nPrtHeight = pLay->Prt().Width(); } else { nFrmTop = pLay->Frm().Left() + pLay->Frm().Width(); nPrtHeight = pLay->Prt().Width(); } } else { nFrmTop = pLay->Frm().Top(); nPrtHeight = pLay->Prt().Height(); } bSct = 0 != pSect; } } } if ( pLay ) { if ( pLay->Frm().IsInside( rPt ) ) { //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin SwTwips nDiff = pLay->IsVertical() ? ( pLay->IsVertLR() ? ( rPt.X() - nFrmTop ) : ( nFrmTop - rPt.X() ) ) : ( rPt.Y() - nFrmTop ); if( bSct || pSect ) rRet.nSub += nDiff; else rRet.nMain += nDiff; } if ( pLay->IsFtnContFrm() && !((SwLayoutFrm*)pLay)->Lower() ) { SwFrm *pDel = (SwFrm*)pLay; pDel->Cut(); delete pDel; return 0; } return pLay; } else rRet.nMain = LONG_MAX; } } return 0; } static sal_uLong lcl_FindCntDiff( const Point &rPt, const SwLayoutFrm *pLay, const SwCntntFrm *& rpCnt, const bool bBody, const sal_Bool bFtn ) { // Searches below pLay the nearest Cnt to the point. The reference point of //the Cntnts is always the left upper corner. //The Cnt should preferably be above the point. #if OSL_DEBUG_LEVEL > 1 Point arPoint( rPt ); #endif rpCnt = 0; sal_uLong nDistance = ULONG_MAX; sal_uLong nNearest = ULONG_MAX; const SwCntntFrm *pCnt = pLay->ContainsCntnt(); while ( pCnt && (bBody != pCnt->IsInDocBody() || bFtn != pCnt->IsInFtn())) { pCnt = pCnt->GetNextCntntFrm(); if ( !pLay->IsAnLower( pCnt ) ) pCnt = 0; } const SwCntntFrm *pNearest = pCnt; if ( pCnt ) { do { //Calculate the distance between those two points. //'delta' X^2 + 'delta' Y^2 = 'distance'^2 sal_uInt32 dX = Max( pCnt->Frm().Left(), rPt.X() ) - Min( pCnt->Frm().Left(), rPt.X() ), dY = Max( pCnt->Frm().Top(), rPt.Y() ) - Min( pCnt->Frm().Top(), rPt.Y() ); BigInt dX1( dX ), dY1( dY ); dX1 *= dX1; dY1 *= dY1; const sal_uLong nDiff = ::SqRt( dX1 + dY1 ); if ( pCnt->Frm().Top() <= rPt.Y() ) { if ( nDiff < nDistance ) { //This one is the nearer one nDistance = nNearest = nDiff; rpCnt = pNearest = pCnt; } } else if ( nDiff < nNearest ) { nNearest = nDiff; pNearest = pCnt; } pCnt = pCnt->GetNextCntntFrm(); while ( pCnt && (bBody != pCnt->IsInDocBody() || bFtn != pCnt->IsInFtn())) pCnt = pCnt->GetNextCntntFrm(); } while ( pCnt && pLay->IsAnLower( pCnt ) ); } if ( nDistance == ULONG_MAX ) { rpCnt = pNearest; return nNearest; } return nDistance; } static const SwCntntFrm * lcl_FindCnt( const Point &rPt, const SwCntntFrm *pCnt, const bool bBody, const sal_Bool bFtn ) { //Starting from pCnt searches the CntntFrm whose left upper corner is the //nearest to the point. //Always returns a CntntFrm. //First the nearest Cntnt inside the page which contains the Cntnt is //searched. Starting from this page the pages in both directions need to //be considered. If possible a Cntnt is returned whose Y-position is //above the point. const SwCntntFrm *pRet, *pNew; const SwLayoutFrm *pLay = pCnt->FindPageFrm(); sal_uLong nDist; nDist = ::lcl_FindCntDiff( rPt, pLay, pNew, bBody, bFtn ); if ( pNew ) pRet = pNew; else { pRet = pCnt; nDist = ULONG_MAX; } const SwCntntFrm *pNearest = pRet; sal_uLong nNearest = nDist; if ( pLay ) { const SwLayoutFrm *pPge = pLay; sal_uLong nOldNew = ULONG_MAX; for ( sal_uInt16 i = 0; pPge->GetPrev() && (i < 3); ++i ) { pPge = (SwLayoutFrm*)pPge->GetPrev(); const sal_uLong nNew = ::lcl_FindCntDiff( rPt, pPge, pNew, bBody, bFtn ); if ( nNew < nDist ) { if ( pNew->Frm().Top() <= rPt.Y() ) { pRet = pNearest = pNew; nDist = nNearest = nNew; } else if ( nNew < nNearest ) { pNearest = pNew; nNearest = nNew; } } else if ( nOldNew != ULONG_MAX && nNew > nOldNew ) break; else nOldNew = nNew; } pPge = pLay; nOldNew = ULONG_MAX; for ( sal_uInt16 j = 0; pPge->GetNext() && (j < 3); ++j ) { pPge = (SwLayoutFrm*)pPge->GetNext(); const sal_uLong nNew = ::lcl_FindCntDiff( rPt, pPge, pNew, bBody, bFtn ); if ( nNew < nDist ) { if ( pNew->Frm().Top() <= rPt.Y() ) { pRet = pNearest = pNew; nDist = nNearest = nNew; } else if ( nNew < nNearest ) { pNearest = pNew; nNearest = nNew; } } else if ( nOldNew != ULONG_MAX && nNew > nOldNew ) break; else nOldNew = nNew; } } if ( (pRet->Frm().Top() > rPt.Y()) ) return pNearest; else return pRet; } static void lcl_PointToPrt( Point &rPoint, const SwFrm *pFrm ) { SwRect aTmp( pFrm->Prt() ); aTmp += pFrm->Frm().Pos(); if ( rPoint.X() < aTmp.Left() ) rPoint.X() = aTmp.Left(); else if ( rPoint.X() > aTmp.Right() ) rPoint.X() = aTmp.Right(); if ( rPoint.Y() < aTmp.Top() ) rPoint.Y() = aTmp.Top(); else if ( rPoint.Y() > aTmp.Bottom() ) rPoint.Y() = aTmp.Bottom(); } const SwCntntFrm *FindAnchor( const SwFrm *pOldAnch, const Point &rNew, const sal_Bool bBodyOnly ) { //Search the nearest Cnt around the given document position in the text //flow. The given anchor is the starting Frm. const SwCntntFrm* pCnt; if ( pOldAnch->IsCntntFrm() ) { pCnt = (const SwCntntFrm*)pOldAnch; } else { Point aTmp( rNew ); SwLayoutFrm *pTmpLay = (SwLayoutFrm*)pOldAnch; if( pTmpLay->IsRootFrm() ) { SwRect aTmpRect( aTmp, Size(0,0) ); pTmpLay = (SwLayoutFrm*)::FindPage( aTmpRect, pTmpLay->Lower() ); } pCnt = pTmpLay->GetCntntPos( aTmp, sal_False, bBodyOnly ); } //Take care to use meaningful ranges during search. This means to not enter //or leave header/footer in this case. const bool bBody = pCnt->IsInDocBody() || bBodyOnly; const sal_Bool bFtn = !bBodyOnly && pCnt->IsInFtn(); Point aNew( rNew ); if ( bBody ) { //#38848 drag from page margin into the body. const SwFrm *pPage = pCnt->FindPageFrm(); ::lcl_PointToPrt( aNew, pPage->GetUpper() ); SwRect aTmp( aNew, Size( 0, 0 ) ); pPage = ::FindPage( aTmp, pPage ); ::lcl_PointToPrt( aNew, pPage ); } if ( pCnt->IsInDocBody() == bBody && pCnt->Frm().IsInside( aNew ) ) return pCnt; else if ( pOldAnch->IsInDocBody() || pOldAnch->IsPageFrm() ) { // Maybe the selected anchor is on the same page as the current anchor. // With this we won't run into problems with the columns. Point aTmp( aNew ); const SwCntntFrm *pTmp = pCnt->FindPageFrm()-> GetCntntPos( aTmp, sal_False, sal_True, sal_False ); if ( pTmp && pTmp->Frm().IsInside( aNew ) ) return pTmp; } //Starting from the anchor we now search in both directions until we found //the nearest one respectively. //Not the direct distance is relevant but the distance which needs to be //traveled through the text flow. const SwCntntFrm *pUpLst; const SwCntntFrm *pUpFrm = pCnt; SwDistance nUp, nUpLst; ::lcl_CalcDownDist( nUp, aNew, pUpFrm ); SwDistance nDown = nUp; bool bNegAllowed = true;// Make it possible to leave the negative section once. do { pUpLst = pUpFrm; nUpLst = nUp; pUpFrm = pUpLst->GetPrevCntntFrm(); while ( pUpFrm && (bBody != pUpFrm->IsInDocBody() || bFtn != pUpFrm->IsInFtn())) pUpFrm = pUpFrm->GetPrevCntntFrm(); if ( pUpFrm ) { ::lcl_CalcDownDist( nUp, aNew, pUpFrm ); //It makes sense to search further, if the distance grows inside //a table. if ( pUpLst->IsInTab() && pUpFrm->IsInTab() ) { while ( pUpFrm && ((nUpLst < nUp && pUpFrm->IsInTab()) || bBody != pUpFrm->IsInDocBody()) ) { pUpFrm = pUpFrm->GetPrevCntntFrm(); if ( pUpFrm ) ::lcl_CalcDownDist( nUp, aNew, pUpFrm ); } } } if ( !pUpFrm ) nUp.nMain = LONG_MAX; if ( nUp.nMain >= 0 && LONG_MAX != nUp.nMain ) { bNegAllowed = false; if ( nUpLst.nMain < 0 ) //don't take the wrong one, if the value //just changed from negative to positive. { pUpLst = pUpFrm; nUpLst = nUp; } } } while ( pUpFrm && ( ( bNegAllowed && nUp.nMain < 0 ) || ( nUp <= nUpLst ) ) ); const SwCntntFrm *pDownLst; const SwCntntFrm *pDownFrm = pCnt; SwDistance nDownLst; if ( nDown.nMain < 0 ) nDown.nMain = LONG_MAX; do { pDownLst = pDownFrm; nDownLst = nDown; pDownFrm = pDownLst->GetNextCntntFrm(); while ( pDownFrm && (bBody != pDownFrm->IsInDocBody() || bFtn != pDownFrm->IsInFtn())) pDownFrm = pDownFrm->GetNextCntntFrm(); if ( pDownFrm ) { ::lcl_CalcDownDist( nDown, aNew, pDownFrm ); if ( nDown.nMain < 0 ) nDown.nMain = LONG_MAX; //It makes sense to search further, if the distance grows inside //a table. if ( pDownLst->IsInTab() && pDownFrm->IsInTab() ) { while ( pDownFrm && ( ( nDown.nMain != LONG_MAX && pDownFrm->IsInTab()) || bBody != pDownFrm->IsInDocBody() ) ) { pDownFrm = pDownFrm->GetNextCntntFrm(); if ( pDownFrm ) ::lcl_CalcDownDist( nDown, aNew, pDownFrm ); if ( nDown.nMain < 0 ) nDown.nMain = LONG_MAX; } } } if ( !pDownFrm ) nDown.nMain = LONG_MAX; } while ( pDownFrm && nDown <= nDownLst && nDown.nMain != LONG_MAX && nDownLst.nMain != LONG_MAX ); //If we couldn't find one in both directions, we'll search the Cntnt whose //left upper corner is the nearest to the point. Such a situation may //happen, if the point doesn't lay in the text flow but in any margin. if ( nDownLst.nMain == LONG_MAX && nUpLst.nMain == LONG_MAX ) { // If an OLE objects, which is contained in a fly frame // is resized in inplace mode and the new Position is outside the // fly frame, we do not want to leave our fly frame. if ( pCnt->IsInFly() ) return pCnt; return ::lcl_FindCnt( aNew, pCnt, bBody, bFtn ); } else return nDownLst < nUpLst ? pDownLst : pUpLst; } /************************************************************************* |* |* SwFlyAtCntFrm::SetAbsPos() |* |*************************************************************************/ void SwFlyAtCntFrm::SetAbsPos( const Point &rNew ) { SwPageFrm *pOldPage = FindPageFrm(); const SwRect aOld( GetObjRectWithSpaces() ); Point aNew( rNew ); //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin if( ( GetAnchorFrm()->IsVertical() && !GetAnchorFrm()->IsVertLR() ) || GetAnchorFrm()->IsRightToLeft() ) aNew.X() += Frm().Width(); SwCntntFrm *pCnt = (SwCntntFrm*)::FindAnchor( GetAnchorFrm(), aNew ); if( pCnt->IsProtected() ) pCnt = (SwCntntFrm*)GetAnchorFrm(); SwPageFrm *pTmpPage = 0; const bool bVert = pCnt->IsVertical(); //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin const bool bVertL2R = pCnt->IsVertLR(); const sal_Bool bRTL = pCnt->IsRightToLeft(); if( ( !bVert != !GetAnchorFrm()->IsVertical() ) || ( !bRTL != !GetAnchorFrm()->IsRightToLeft() ) ) { if( bVert || bRTL ) aNew.X() += Frm().Width(); else aNew.X() -= Frm().Width(); } if ( pCnt->IsInDocBody() ) { //#38848 drag from page margin into the body. pTmpPage = pCnt->FindPageFrm(); ::lcl_PointToPrt( aNew, pTmpPage->GetUpper() ); SwRect aTmp( aNew, Size( 0, 0 ) ); pTmpPage = (SwPageFrm*)::FindPage( aTmp, pTmpPage ); ::lcl_PointToPrt( aNew, pTmpPage ); } //Setup RelPos, only invalidate if requested. //rNew is an absolute position. We need to calculate the distance from rNew //to the anchor inside the text flow to correctly set RelPos. //!!!!!We can optimize here: FindAnchor could also return RelPos! const SwFrm *pFrm = 0; SwTwips nY; if ( pCnt->Frm().IsInside( aNew ) ) { // #i70582# const SwTwips nTopForObjPos = bVert ? ( bVertL2R ? ( pCnt->Frm().Left() + pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ) : ( pCnt->Frm().Left() + pCnt->Frm().Width() - pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ) ) : ( pCnt->Frm().Top() + pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ); if( bVert ) //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin { if ( bVertL2R ) nY = rNew.X() - nTopForObjPos; else nY = nTopForObjPos - rNew.X() - Frm().Width(); } else { nY = rNew.Y() - nTopForObjPos; } } else { SwDistance aDist; pFrm = ::lcl_CalcDownDist( aDist, aNew, pCnt ); nY = aDist.nMain + aDist.nSub; } SwTwips nX = 0; if ( pCnt->IsFollow() ) { // Flys are never attached to the follow but always to the master, // which we're going to search now. const SwCntntFrm *pOriginal = pCnt; const SwCntntFrm *pFollow = pCnt; while ( pCnt->IsFollow() ) { do { pCnt = pCnt->GetPrevCntntFrm(); } while ( pCnt->GetFollow() != pFollow ); pFollow = pCnt; } SwTwips nDiff = 0; do { const SwFrm *pUp = pFollow->GetUpper(); if( pUp->IsVertical() ) //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin { if ( pUp->IsVertLR() ) nDiff += pUp->Prt().Width() - pFollow->GetRelPos().X(); else nDiff += pFollow->Frm().Left() + pFollow->Frm().Width() - pUp->Frm().Left() - pUp->Prt().Left(); } else nDiff += pUp->Prt().Height() - pFollow->GetRelPos().Y(); pFollow = pFollow->GetFollow(); } while ( pFollow != pOriginal ); nY += nDiff; if( bVert ) nX = pCnt->Frm().Top() - pOriginal->Frm().Top(); else nX = pCnt->Frm().Left() - pOriginal->Frm().Left(); } if ( nY == LONG_MAX ) { // #i70582# const SwTwips nTopForObjPos = bVert ? ( bVertL2R ? ( pCnt->Frm().Left() + pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ) : ( pCnt->Frm().Left() + pCnt->Frm().Width() - pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ) ) : ( pCnt->Frm().Top() + pCnt->GetUpperSpaceAmountConsideredForPrevFrmAndPageGrid() ); if( bVert ) //Badaa: 2008-04-18 * Support for Classical Mongolian Script (SCMS) joint with Jiayanmin { if ( bVertL2R ) nY = rNew.X() - nTopForObjPos; else nY = nTopForObjPos - rNew.X(); } else { nY = rNew.Y() - nTopForObjPos; } } SwFlyFrmFmt *pFmt = (SwFlyFrmFmt*)GetFmt(); const SwFmtSurround& rSurround = pFmt->GetSurround(); const sal_Bool bWrapThrough = rSurround.GetSurround() == SURROUND_THROUGHT; SwTwips nBaseOfstForFly = 0; const SwFrm* pTmpFrm = pFrm ? pFrm : pCnt; if ( pTmpFrm->IsTxtFrm() ) nBaseOfstForFly = ((SwTxtFrm*)pTmpFrm)->GetBaseOfstForFly( !bWrapThrough ); if( bVert ) { if( !pFrm ) nX += rNew.Y() - pCnt->Frm().Top() - nBaseOfstForFly; else nX = rNew.Y() - pFrm->Frm().Top() - nBaseOfstForFly; } else { if( !pFrm ) { if ( pCnt->IsRightToLeft() ) nX += pCnt->Frm().Right() - rNew.X() - Frm().Width() + nBaseOfstForFly; else nX += rNew.X() - pCnt->Frm().Left() - nBaseOfstForFly; } else { if ( pFrm->IsRightToLeft() ) nX += pFrm->Frm().Right() - rNew.X() - Frm().Width() + nBaseOfstForFly; else nX = rNew.X() - pFrm->Frm().Left() - nBaseOfstForFly; } } GetFmt()->GetDoc()->GetIDocumentUndoRedo().StartUndo( UNDO_START, NULL ); if( pCnt != GetAnchorFrm() || ( IsAutoPos() && pCnt->IsTxtFrm() && GetFmt()->getIDocumentSettingAccess()->get(IDocumentSettingAccess::HTML_MODE)) ) { //Set the anchor attribute according to the new Cnt. SwFmtAnchor aAnch( pFmt->GetAnchor() ); SwPosition *pPos = (SwPosition*)aAnch.GetCntntAnchor(); if( IsAutoPos() && pCnt->IsTxtFrm() ) { SwCrsrMoveState eTmpState( MV_SETONLYTEXT ); Point aPt( rNew ); if( pCnt->GetCrsrOfst( pPos, aPt, &eTmpState ) && pPos->nNode == *pCnt->GetNode() ) { ResetLastCharRectHeight(); if( text::RelOrientation::CHAR == pFmt->GetVertOrient().GetRelationOrient() ) nY = LONG_MAX; if( text::RelOrientation::CHAR == pFmt->GetHoriOrient().GetRelationOrient() ) nX = LONG_MAX; } else { pPos->nNode = *pCnt->GetNode(); pPos->nContent.Assign( pCnt->GetNode(), 0 ); } } else { pPos->nNode = *pCnt->GetNode(); pPos->nContent.Assign( pCnt->GetNode(), 0 ); } // handle change of anchor node: // if count of the anchor frame also change, the fly frames have to be // re-created. Thus, delete all fly frames except the before the // anchor attribute is change and re-create them afterwards. { SwHandleAnchorNodeChg aHandleAnchorNodeChg( *pFmt, aAnch, this ); pFmt->GetDoc()->SetAttr( aAnch, *pFmt ); } } // #i28701# - use new method else if ( pTmpPage && pTmpPage != GetPageFrm() ) GetPageFrm()->MoveFly( this, pTmpPage ); const Point aRelPos = bVert ? Point( -nY, nX ) : Point( nX, nY ); ChgRelPos( aRelPos ); GetFmt()->GetDoc()->GetIDocumentUndoRedo().EndUndo( UNDO_END, NULL ); if ( pOldPage != FindPageFrm() ) ::Notify_Background( GetVirtDrawObj(), pOldPage, aOld, PREP_FLY_LEAVE, sal_False ); } /** method to assure that anchored object is registered at the correct page frame #i28701# takes over functionality of deleted method */ void SwFlyAtCntFrm::RegisterAtCorrectPage() { SwPageFrm* pPageFrm( 0L ); if ( GetVertPosOrientFrm() ) { pPageFrm = const_cast(GetVertPosOrientFrm()->FindPageFrm()); } if ( pPageFrm && GetPageFrm() != pPageFrm ) { if ( GetPageFrm() ) GetPageFrm()->MoveFly( this, pPageFrm ); else pPageFrm->AppendFlyToPage( this ); } } // #i26791# //void SwFlyAtCntFrm::MakeFlyPos() void SwFlyAtCntFrm::MakeObjPos() { // if fly frame position is valid, nothing is to do. Thus, return if ( mbValidPos ) { return; } // #i26791# - validate position flag here. mbValidPos = sal_True; // #i35911# - no calculation of new position, if // anchored object is marked that it clears its environment and its // environment is already cleared. // before checking for cleared environment // check, if member is set. if ( GetVertPosOrientFrm() && ClearedEnvironment() && HasClearedEnvironment() ) { return; } // use new class to position object objectpositioning::SwToCntntAnchoredObjectPosition aObjPositioning( *GetVirtDrawObj() ); aObjPositioning.CalcPosition(); SetVertPosOrientFrm ( aObjPositioning.GetVertPosOrientFrm() ); } // #i28701# bool SwFlyAtCntFrm::_InvalidationAllowed( const InvalidationType _nInvalid ) const { bool bAllowed( SwFlyFreeFrm::_InvalidationAllowed( _nInvalid ) ); // forbiddance of base instance can't be over ruled. if ( bAllowed ) { if ( _nInvalid == INVALID_POS || _nInvalid == INVALID_ALL ) { bAllowed = InvalidationOfPosAllowed(); } } return bAllowed; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */