/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // RotateFlyFrame3 #include using namespace ::com::sun::star; SwFrameAreaDefinition::SwFrameAreaDefinition() : maFrameArea(), maFramePrintArea(), mbFrameAreaPositionValid(false), mbFrameAreaSizeValid(false), mbFramePrintAreaValid(false), mnFrameId(SwFrameAreaDefinition::mnLastFrameId++) { } SwFrameAreaDefinition::~SwFrameAreaDefinition() { } void SwFrameAreaDefinition::setFrameAreaPositionValid(bool bNew) { if(mbFrameAreaPositionValid != bNew) { mbFrameAreaPositionValid = bNew; } } void SwFrameAreaDefinition::setFrameAreaSizeValid(bool bNew) { if(mbFrameAreaSizeValid != bNew) { mbFrameAreaSizeValid = bNew; } } void SwFrameAreaDefinition::setFramePrintAreaValid(bool bNew) { if(mbFramePrintAreaValid != bNew) { mbFramePrintAreaValid = bNew; } } SwFrameAreaDefinition::FrameAreaWriteAccess::~FrameAreaWriteAccess() { if(mrTarget.maFrameArea != *this) { mrTarget.maFrameArea = *this; } } SwFrameAreaDefinition::FramePrintAreaWriteAccess::~FramePrintAreaWriteAccess() { if(mrTarget.maFramePrintArea != *this) { mrTarget.maFramePrintArea = *this; } } // RotateFlyFrame3 - Support for Transformations basegfx::B2DHomMatrix SwFrameAreaDefinition::getFrameAreaTransformation() const { // default implementation hands out FrameArea (outer frame) const SwRect& rFrameArea(getFrameArea()); return basegfx::utils::createScaleTranslateB2DHomMatrix( rFrameArea.Width(), rFrameArea.Height(), rFrameArea.Left(), rFrameArea.Top()); } basegfx::B2DHomMatrix SwFrameAreaDefinition::getFramePrintAreaTransformation() const { // default implementation hands out FramePrintArea (outer frame) // Take into account that FramePrintArea is relative to FrameArea const SwRect& rFrameArea(getFrameArea()); const SwRect& rFramePrintArea(getFramePrintArea()); return basegfx::utils::createScaleTranslateB2DHomMatrix( rFramePrintArea.Width(), rFramePrintArea.Height(), rFramePrintArea.Left() + rFrameArea.Left(), rFramePrintArea.Top() + rFrameArea.Top()); } void SwFrameAreaDefinition::transform_translate(const Point& rOffset) { // RotateFlyFrame3: default is to change the FrameArea, FramePrintArea needs no // change since it is relative to FrameArea SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); if (aFrm.Pos().X() != FAR_AWAY) { aFrm.Pos().AdjustX(rOffset.X() ); } if (aFrm.Pos().Y() != FAR_AWAY) { aFrm.Pos().AdjustY(rOffset.Y() ); } } SwRect TransformableSwFrame::getUntransformedFrameArea() const { const basegfx::B2DHomMatrix& rSource(getLocalFrameAreaTransformation()); if(rSource.isIdentity()) { return mrSwFrameAreaDefinition.getFrameArea(); } else { basegfx::B2DVector aScale, aTranslate; double fRotate, fShearX; rSource.decompose(aScale, aTranslate, fRotate, fShearX); const basegfx::B2DPoint aCenter(rSource * basegfx::B2DPoint(0.5, 0.5)); const basegfx::B2DVector aAbsScale(basegfx::absolute(aScale)); return SwRect( basegfx::fround(aCenter.getX() - (0.5 * aAbsScale.getX())), basegfx::fround(aCenter.getY() - (0.5 * aAbsScale.getY())), basegfx::fround(aAbsScale.getX()), basegfx::fround(aAbsScale.getY())); } } SwRect TransformableSwFrame::getUntransformedFramePrintArea() const { const basegfx::B2DHomMatrix& rSource(getLocalFramePrintAreaTransformation()); if(rSource.isIdentity()) { return mrSwFrameAreaDefinition.getFramePrintArea(); } else { basegfx::B2DVector aScale, aTranslate; double fRotate, fShearX; rSource.decompose(aScale, aTranslate, fRotate, fShearX); const basegfx::B2DPoint aCenter(rSource * basegfx::B2DPoint(0.5, 0.5)); const basegfx::B2DVector aAbsScale(basegfx::absolute(aScale)); const SwRect aUntransformedFrameArea(getUntransformedFrameArea()); return SwRect( basegfx::fround(aCenter.getX() - (0.5 * aAbsScale.getX())) - aUntransformedFrameArea.Left(), basegfx::fround(aCenter.getY() - (0.5 * aAbsScale.getY())) - aUntransformedFrameArea.Top(), basegfx::fround(aAbsScale.getX()), basegfx::fround(aAbsScale.getY())); } } void TransformableSwFrame::createFrameAreaTransformations( double fRotation, const basegfx::B2DPoint& rCenter) { const basegfx::B2DHomMatrix aRotateAroundCenter( basegfx::utils::createRotateAroundPoint( rCenter.getX(), rCenter.getY(), fRotation)); const SwRect& rFrameArea(mrSwFrameAreaDefinition.getFrameArea()); const SwRect& rFramePrintArea(mrSwFrameAreaDefinition.getFramePrintArea()); maFrameAreaTransformation = aRotateAroundCenter * basegfx::utils::createScaleTranslateB2DHomMatrix( rFrameArea.Width(), rFrameArea.Height(), rFrameArea.Left(), rFrameArea.Top()); maFramePrintAreaTransformation = aRotateAroundCenter * basegfx::utils::createScaleTranslateB2DHomMatrix( rFramePrintArea.Width(), rFramePrintArea.Height(), rFramePrintArea.Left() + rFrameArea.Left(), rFramePrintArea.Top() + rFrameArea.Top()); } void TransformableSwFrame::adaptFrameAreasToTransformations() { if(!getLocalFrameAreaTransformation().isIdentity()) { basegfx::B2DRange aRangeFrameArea(0.0, 0.0, 1.0, 1.0); aRangeFrameArea.transform(getLocalFrameAreaTransformation()); const SwRect aNewFrm( basegfx::fround(aRangeFrameArea.getMinX()), basegfx::fround(aRangeFrameArea.getMinY()), basegfx::fround(aRangeFrameArea.getWidth()), basegfx::fround(aRangeFrameArea.getHeight())); if(aNewFrm != mrSwFrameAreaDefinition.getFrameArea()) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(mrSwFrameAreaDefinition); aFrm.setSwRect(aNewFrm); } } if(!getLocalFramePrintAreaTransformation().isIdentity()) { basegfx::B2DRange aRangeFramePrintArea(0.0, 0.0, 1.0, 1.0); aRangeFramePrintArea.transform(getLocalFramePrintAreaTransformation()); const SwRect aNewPrt( basegfx::fround(aRangeFramePrintArea.getMinX()) - mrSwFrameAreaDefinition.getFrameArea().Left(), basegfx::fround(aRangeFramePrintArea.getMinY()) - mrSwFrameAreaDefinition.getFrameArea().Top(), basegfx::fround(aRangeFramePrintArea.getWidth()), basegfx::fround(aRangeFramePrintArea.getHeight())); if(aNewPrt != mrSwFrameAreaDefinition.getFramePrintArea()) { SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(mrSwFrameAreaDefinition); aPrt.setSwRect(aNewPrt); } } } void TransformableSwFrame::restoreFrameAreas() { // This can be done fully based on the Transformations currently // set, so use this. Only needed when transformation *is* used if(!getLocalFrameAreaTransformation().isIdentity()) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(mrSwFrameAreaDefinition); aFrm.setSwRect(getUntransformedFrameArea()); } if(!getLocalFramePrintAreaTransformation().isIdentity()) { SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(mrSwFrameAreaDefinition); aPrt.setSwRect(getUntransformedFramePrintArea()); } } // transform by given B2DHomMatrix void TransformableSwFrame::transform(const basegfx::B2DHomMatrix& aTransform) { maFrameAreaTransformation *= aTransform; maFramePrintAreaTransformation *= aTransform; } SwFrame::SwFrame( SwModify *pMod, SwFrame* pSib ) : SwFrameAreaDefinition(), SwClient( pMod ), SfxBroadcaster(), mpRoot( pSib ? pSib->getRootFrame() : nullptr ), mpUpper(nullptr), mpNext(nullptr), mpPrev(nullptr), mnFrameType(SwFrameType::None), mbInDtor(false), mbInvalidR2L(true), mbDerivedR2L(false), mbRightToLeft(false), mbInvalidVert(true), mbDerivedVert(false), mbVertical(false), mbVertLR(false), mbVertLRBT(false), mbValidLineNum(false), mbFixSize(false), mbCompletePaint(true), mbRetouche(false), mbInfInvalid(true), mbInfBody( false ), mbInfTab ( false ), mbInfFly ( false ), mbInfFootnote ( false ), mbInfSct ( false ), mbColLocked(false), m_isInDestroy(false), mbForbidDelete(false) { OSL_ENSURE( pMod, "No frame format given." ); } const IDocumentDrawModelAccess& SwFrame::getIDocumentDrawModelAccess() { return GetUpper()->GetFormat()->getIDocumentDrawModelAccess(); } bool SwFrame::KnowsFormat( const SwFormat& rFormat ) const { return GetRegisteredIn() == &rFormat; } void SwFrame::RegisterToFormat( SwFormat& rFormat ) { rFormat.Add( this ); } void SwFrame::CheckDir( SvxFrameDirection nDir, bool bVert, bool bOnlyBiDi, bool bBrowse ) { if( SvxFrameDirection::Environment == nDir || ( bVert && bOnlyBiDi ) ) { mbDerivedVert = true; if( SvxFrameDirection::Environment == nDir ) mbDerivedR2L = true; SetDirFlags( bVert ); } else if( bVert ) { mbInvalidVert = false; if( SvxFrameDirection::Horizontal_LR_TB == nDir || SvxFrameDirection::Horizontal_RL_TB == nDir || bBrowse ) { mbVertical = false; mbVertLR = false; mbVertLRBT = false; } else { mbVertical = true; if(SvxFrameDirection::Vertical_RL_TB == nDir) { mbVertLR = false; mbVertLRBT = false; } else if(SvxFrameDirection::Vertical_LR_TB==nDir) { mbVertLR = true; mbVertLRBT = false; } else if (nDir == SvxFrameDirection::Vertical_LR_BT) { mbVertLR = true; mbVertLRBT = true; } } } else { mbInvalidR2L = false; if( SvxFrameDirection::Horizontal_RL_TB == nDir ) mbRightToLeft = true; else mbRightToLeft = false; } } void SwFrame::CheckDirection( bool bVert ) { if( bVert ) { if( !IsHeaderFrame() && !IsFooterFrame() ) { mbDerivedVert = true; SetDirFlags( bVert ); } } else { mbDerivedR2L = true; SetDirFlags( bVert ); } } void SwSectionFrame::CheckDirection( bool bVert ) { const SwFrameFormat* pFormat = GetFormat(); if( pFormat ) { const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowseMode = pSh && pSh->GetViewOptions()->getBrowseMode(); CheckDir(pFormat->GetFormatAttr(RES_FRAMEDIR).GetValue(), bVert, true, bBrowseMode ); } else SwFrame::CheckDirection( bVert ); } void SwFlyFrame::CheckDirection( bool bVert ) { const SwFrameFormat* pFormat = GetFormat(); if( pFormat ) { const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowseMode = pSh && pSh->GetViewOptions()->getBrowseMode(); CheckDir(pFormat->GetFormatAttr(RES_FRAMEDIR).GetValue(), bVert, false, bBrowseMode ); } else SwFrame::CheckDirection( bVert ); } void SwTabFrame::CheckDirection( bool bVert ) { const SwFrameFormat* pFormat = GetFormat(); if( pFormat ) { const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowseMode = pSh && pSh->GetViewOptions()->getBrowseMode(); CheckDir(pFormat->GetFormatAttr(RES_FRAMEDIR).GetValue(), bVert, true, bBrowseMode ); } else SwFrame::CheckDirection( bVert ); } void SwCellFrame::CheckDirection( bool bVert ) { const SwFrameFormat* pFormat = GetFormat(); const SfxPoolItem* pItem; // Check if the item is set, before actually // using it. Otherwise the dynamic pool default is used, which may be set // to LTR in case of OOo 1.0 documents. if( pFormat && SfxItemState::SET == pFormat->GetItemState( RES_FRAMEDIR, true, &pItem ) ) { const SvxFrameDirectionItem* pFrameDirItem = static_cast(pItem); const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowseMode = pSh && pSh->GetViewOptions()->getBrowseMode(); CheckDir( pFrameDirItem->GetValue(), bVert, false, bBrowseMode ); } else SwFrame::CheckDirection( bVert ); } void SwTextFrame::CheckDirection( bool bVert ) { const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowseMode = pSh && pSh->GetViewOptions()->getBrowseMode(); CheckDir(GetTextNodeForParaProps()->GetSwAttrSet().GetFrameDir().GetValue(), bVert, true, bBrowseMode); } void SwFrame::Modify( const SfxPoolItem* pOld, const SfxPoolItem * pNew ) { sal_uInt8 nInvFlags = 0; if( pOld && pNew && RES_ATTRSET_CHG == pNew->Which() ) { SfxItemIter aNIter( *static_cast(pNew)->GetChgSet() ); SfxItemIter aOIter( *static_cast(pOld)->GetChgSet() ); const SfxPoolItem* pNItem = aNIter.GetCurItem(); const SfxPoolItem* pOItem = aOIter.GetCurItem(); do { UpdateAttrFrame(pOItem, pNItem, nInvFlags); pNItem = aNIter.NextItem(); pOItem = aOIter.NextItem(); } while (pNItem); } else UpdateAttrFrame( pOld, pNew, nInvFlags ); if ( nInvFlags != 0 ) { SwPageFrame *pPage = FindPageFrame(); InvalidatePage( pPage ); if ( nInvFlags & 0x01 ) { InvalidatePrt_(); if( !GetPrev() && IsTabFrame() && IsInSct() ) FindSctFrame()->InvalidatePrt_(); } if ( nInvFlags & 0x02 ) InvalidateSize_(); if ( nInvFlags & 0x04 ) InvalidatePos_(); if ( nInvFlags & 0x08 ) SetCompletePaint(); SwFrame *pNxt; if ( nInvFlags & 0x30 && nullptr != (pNxt = GetNext()) ) { pNxt->InvalidatePage( pPage ); if ( nInvFlags & 0x10 ) pNxt->InvalidatePos_(); if ( nInvFlags & 0x20 ) pNxt->SetCompletePaint(); } } } void SwFrame::UpdateAttrFrame( const SfxPoolItem *pOld, const SfxPoolItem *pNew, sal_uInt8 &rInvFlags ) { sal_uInt16 nWhich = pOld ? pOld->Which() : pNew ? pNew->Which() : 0; switch( nWhich ) { case RES_BOX: case RES_SHADOW: Prepare( PrepareHint::FixSizeChanged ); [[fallthrough]]; case RES_LR_SPACE: case RES_UL_SPACE: rInvFlags |= 0x0B; break; case RES_HEADER_FOOTER_EAT_SPACING: rInvFlags |= 0x03; break; case RES_BACKGROUND: rInvFlags |= 0x28; break; case RES_KEEP: rInvFlags |= 0x04; break; case RES_FRM_SIZE: ReinitializeFrameSizeAttrFlags(); rInvFlags |= 0x13; break; case RES_FMT_CHG: rInvFlags |= 0x0F; break; case RES_ROW_SPLIT: { if ( IsRowFrame() ) { bool bInFollowFlowRow = nullptr != IsInFollowFlowRow(); if ( bInFollowFlowRow || nullptr != IsInSplitTableRow() ) { SwTabFrame* pTab = FindTabFrame(); if ( bInFollowFlowRow ) pTab = pTab->FindMaster(); pTab->SetRemoveFollowFlowLinePending( true ); } } break; } case RES_COL: OSL_FAIL( "Columns for new FrameType?" ); break; default: // the new FillStyle has to do the same as previous RES_BACKGROUND if(nWhich >= XATTR_FILL_FIRST && nWhich <= XATTR_FILL_LAST) { rInvFlags |= 0x28; } /* do Nothing */; } } bool SwFrame::Prepare( const PrepareHint, const void *, bool ) { /* Do nothing */ return false; } /** * Invalidates the page in which the Frame is currently placed. * The page is invalidated depending on the type (Layout, Content, FlyFrame) */ void SwFrame::InvalidatePage( const SwPageFrame *pPage ) const { if ( !pPage ) { pPage = FindPageFrame(); // #i28701# - for at-character and as-character // anchored Writer fly frames additionally invalidate also page frame // its 'anchor character' is on. if ( pPage && pPage->GetUpper() && IsFlyFrame() ) { const SwFlyFrame* pFlyFrame = static_cast(this); if ( pFlyFrame->IsAutoPos() || pFlyFrame->IsFlyInContentFrame() ) { // #i33751#, #i34060# - method // is replaced by method . It's return value // have to be checked. SwPageFrame* pPageFrameOfAnchor = const_cast(pFlyFrame)->FindPageFrameOfAnchor(); if ( pPageFrameOfAnchor && pPageFrameOfAnchor != pPage ) { InvalidatePage( pPageFrameOfAnchor ); } } } } if ( pPage && pPage->GetUpper() ) { if ( pPage->GetFormat()->GetDoc()->IsInDtor() ) return; SwRootFrame *pRoot = const_cast(static_cast(pPage->GetUpper())); const SwFlyFrame *pFly = FindFlyFrame(); if ( IsContentFrame() ) { if ( pRoot->IsTurboAllowed() ) { // If a ContentFrame wants to register for a second time, make it a TurboAction. if ( !pRoot->GetTurbo() || this == pRoot->GetTurbo() ) pRoot->SetTurbo( static_cast(this) ); else { pRoot->DisallowTurbo(); //The page of the Turbo could be a different one then mine, //therefore we have to invalidate it. const SwFrame *pTmp = pRoot->GetTurbo(); pRoot->ResetTurbo(); pTmp->InvalidatePage(); } } if ( !pRoot->GetTurbo() ) { if ( pFly ) { if( !pFly->IsLocked() ) { if ( pFly->IsFlyInContentFrame() ) { pPage->InvalidateFlyInCnt(); pFly->GetAnchorFrame()->InvalidatePage(); } else pPage->InvalidateFlyContent(); } } else pPage->InvalidateContent(); } } else { pRoot->DisallowTurbo(); if ( pFly ) { if ( !pFly->IsLocked() ) { if ( pFly->IsFlyInContentFrame() ) { pPage->InvalidateFlyInCnt(); pFly->GetAnchorFrame()->InvalidatePage(); } else pPage->InvalidateFlyLayout(); } } else pPage->InvalidateLayout(); if ( pRoot->GetTurbo() ) { const SwFrame *pTmp = pRoot->GetTurbo(); pRoot->ResetTurbo(); pTmp->InvalidatePage(); } } pRoot->SetIdleFlags(); if (IsTextFrame()) { SwTextFrame const*const pText(static_cast(this)); if (sw::MergedPara const*const pMergedPara = pText->GetMergedPara()) { SwTextNode const* pNode(nullptr); for (auto const& e : pMergedPara->extents) { if (e.pNode != pNode) { pNode = e.pNode; if (pNode->IsGrammarCheckDirty()) { pRoot->SetNeedGrammarCheck( true ); break; } } } } else { if (pText->GetTextNodeFirst()->IsGrammarCheckDirty()) { pRoot->SetNeedGrammarCheck( true ); } } } } } Size SwFrame::ChgSize( const Size& aNewSize ) { mbFixSize = true; const Size aOldSize( getFrameArea().SSize() ); if ( aNewSize == aOldSize ) return aOldSize; if ( GetUpper() ) { bool bNeighb = IsNeighbourFrame(); SwRectFn fnRect = IsVertical() == bNeighb ? fnRectHori : ( IsVertLR() ? (IsVertLRBT() ? fnRectVertL2RB2T : fnRectVertL2R) : fnRectVert ); SwRect aNew( Point(0,0), aNewSize ); { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); (aFrm.*fnRect->fnSetWidth)( (aNew.*fnRect->fnGetWidth)() ); } long nNew = (aNew.*fnRect->fnGetHeight)(); long nDiff = nNew - (getFrameArea().*fnRect->fnGetHeight)(); if( nDiff ) { if ( GetUpper()->IsFootnoteBossFrame() && HasFixSize() && SwNeighbourAdjust::GrowShrink != static_cast(GetUpper())->NeighbourhoodAdjustment() ) { { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); (aFrm.*fnRect->fnSetHeight)( nNew ); } SwTwips nReal = static_cast(this)->AdjustNeighbourhood(nDiff); if ( nReal != nDiff ) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); (aFrm.*fnRect->fnSetHeight)( nNew - nDiff + nReal ); } } else { // OD 24.10.2002 #97265# - grow/shrink not for neighbour frames // NOTE: neighbour frames are cell and column frames. if ( !bNeighb ) { if ( nDiff > 0 ) Grow( nDiff ); else Shrink( -nDiff ); if ( GetUpper() && (getFrameArea().*fnRect->fnGetHeight)() != nNew ) { GetUpper()->InvalidateSize_(); } } // Even if grow/shrink did not yet set the desired width, for // example when called by ChgColumns to set the column width, we // set the right width now. SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); (aFrm.*fnRect->fnSetHeight)( nNew ); } } } else { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aFrm.SSize( aNewSize ); } if ( getFrameArea().SSize() != aOldSize ) { SwPageFrame *pPage = FindPageFrame(); if ( GetNext() ) { GetNext()->InvalidatePos_(); GetNext()->InvalidatePage( pPage ); } if( IsLayoutFrame() ) { if( IsRightToLeft() ) InvalidatePos_(); if( static_cast(this)->Lower() ) static_cast(this)->Lower()->InvalidateSize_(); } InvalidatePrt_(); InvalidateSize_(); InvalidatePage( pPage ); } return getFrameArea().SSize(); } /** Insert SwFrame into existing structure. * * Insertion is done below the parent either before pBehind or * at the end of the chain if pBehind is empty. */ void SwFrame::InsertBefore( SwLayoutFrame* pParent, SwFrame* pBehind ) { OSL_ENSURE( pParent, "No parent for insert." ); OSL_ENSURE( (!pBehind || pParent == pBehind->GetUpper()), "Frame tree is inconsistent." ); mpUpper = pParent; mpNext = pBehind; if( pBehind ) { //Insert before pBehind. if( nullptr != (mpPrev = pBehind->mpPrev) ) mpPrev->mpNext = this; else mpUpper->m_pLower = this; pBehind->mpPrev = this; } else { //Insert at the end, or as first node in the sub tree mpPrev = mpUpper->Lower(); if ( mpPrev ) { while( mpPrev->mpNext ) mpPrev = mpPrev->mpNext; mpPrev->mpNext = this; } else mpUpper->m_pLower = this; } } /** Insert SwFrame into existing structure. * * Insertion is done below the parent either after pBehind or * at the beginning of the chain if pBehind is empty. */ void SwFrame::InsertBehind( SwLayoutFrame *pParent, SwFrame *pBefore ) { OSL_ENSURE( pParent, "No Parent for Insert." ); OSL_ENSURE( (!pBefore || pParent == pBefore->GetUpper()), "Frame tree is inconsistent." ); mpUpper = pParent; mpPrev = pBefore; if ( pBefore ) { //Insert after pBefore if ( nullptr != (mpNext = pBefore->mpNext) ) mpNext->mpPrev = this; pBefore->mpNext = this; } else { //Insert at the beginning of the chain mpNext = pParent->Lower(); if ( pParent->Lower() ) pParent->Lower()->mpPrev = this; pParent->m_pLower = this; } } /** Insert a chain of SwFrames into an existing structure * * Currently, this method is used to insert a SectionFrame (which may have some siblings) into an * existing structure. If the third parameter is NULL, this method is (besides handling the * siblings) equal to SwFrame::InsertBefore(..). * * If the third parameter is passed, the following happens: * - this becomes mpNext of pParent * - pSct becomes mpNext of the last one in the this-chain * - pBehind is reconnected from pParent to pSct * The purpose is: a SectionFrame (this) won't become a child of another SectionFrame (pParent), but * pParent gets split into two siblings (pParent+pSect) and this is inserted between. */ bool SwFrame::InsertGroupBefore( SwFrame* pParent, SwFrame* pBehind, SwFrame* pSct ) { OSL_ENSURE( pParent, "No parent for insert." ); OSL_ENSURE( (!pBehind || ( (pBehind && (pParent == pBehind->GetUpper())) || ((pParent->IsSctFrame() && pBehind->GetUpper()->IsColBodyFrame())) ) ), "Frame tree inconsistent." ); if( pSct ) { mpUpper = pParent->GetUpper(); SwFrame *pLast = this; while( pLast->GetNext() ) { pLast = pLast->GetNext(); pLast->mpUpper = GetUpper(); } if( pBehind ) { pLast->mpNext = pSct; pSct->mpPrev = pLast; pSct->mpNext = pParent->GetNext(); } else { pLast->mpNext = pParent->GetNext(); if( pLast->GetNext() ) pLast->GetNext()->mpPrev = pLast; } pParent->mpNext = this; mpPrev = pParent; if( pSct->GetNext() ) pSct->GetNext()->mpPrev = pSct; while( pLast->GetNext() ) { pLast = pLast->GetNext(); pLast->mpUpper = GetUpper(); } if( pBehind ) { // Insert before pBehind. if( pBehind->GetPrev() ) pBehind->GetPrev()->mpNext = nullptr; else pBehind->GetUpper()->m_pLower = nullptr; pBehind->mpPrev = nullptr; SwLayoutFrame* pTmp = static_cast(pSct); if( pTmp->Lower() ) { OSL_ENSURE( pTmp->Lower()->IsColumnFrame(), "InsertGrp: Used SectionFrame" ); pTmp = static_cast(static_cast(pTmp->Lower())->Lower()); OSL_ENSURE( pTmp, "InsertGrp: Missing ColBody" ); } pBehind->mpUpper = pTmp; pBehind->GetUpper()->m_pLower = pBehind; pLast = pBehind->GetNext(); while ( pLast ) { pLast->mpUpper = pBehind->GetUpper(); pLast = pLast->GetNext(); } } else { OSL_ENSURE( pSct->IsSctFrame(), "InsertGroup: For SectionFrames only" ); SwFrame::DestroyFrame(pSct); return false; } } else { mpUpper = static_cast(pParent); SwFrame *pLast = this; while( pLast->GetNext() ) { pLast = pLast->GetNext(); pLast->mpUpper = GetUpper(); } pLast->mpNext = pBehind; if( pBehind ) { // Insert before pBehind. if( nullptr != (mpPrev = pBehind->mpPrev) ) mpPrev->mpNext = this; else mpUpper->m_pLower = this; pBehind->mpPrev = pLast; } else { //Insert at the end, or ... the first node in the subtree mpPrev = mpUpper->Lower(); if ( mpPrev ) { while( mpPrev->mpNext ) mpPrev = mpPrev->mpNext; mpPrev->mpNext = this; } else mpUpper->m_pLower = this; } } return true; } void SwFrame::RemoveFromLayout() { OSL_ENSURE( mpUpper, "Remove without upper?" ); if (mpPrev) // one out of the middle is removed mpPrev->mpNext = mpNext; else if (mpUpper) { // the first in a list is removed //TODO OSL_ENSURE( mpUpper->m_pLower == this, "Layout is inconsistent." ); mpUpper->m_pLower = mpNext; } if( mpNext ) mpNext->mpPrev = mpPrev; // Remove link mpNext = mpPrev = nullptr; mpUpper = nullptr; } void SwContentFrame::Paste( SwFrame* pParent, SwFrame* pSibling) { OSL_ENSURE( pParent, "No parent for pasting." ); OSL_ENSURE( pParent->IsLayoutFrame(), "Parent is ContentFrame." ); OSL_ENSURE( pParent != this, "I'm the parent." ); OSL_ENSURE( pSibling != this, "I'm my own neighbour." ); OSL_ENSURE( !GetPrev() && !GetNext() && !GetUpper(), "I'm still registered somewhere" ); OSL_ENSURE( !pSibling || pSibling->IsFlowFrame(), " - sibling not of expected type." ); //Insert in the tree. InsertBefore( static_cast(pParent), pSibling ); SwPageFrame *pPage = FindPageFrame(); InvalidateAll_(); InvalidatePage( pPage ); if( pPage ) { pPage->InvalidateSpelling(); pPage->InvalidateSmartTags(); pPage->InvalidateAutoCompleteWords(); pPage->InvalidateWordCount(); } if ( GetNext() ) { SwFrame* pNxt = GetNext(); pNxt->InvalidatePrt_(); pNxt->InvalidatePos_(); pNxt->InvalidatePage( pPage ); if( pNxt->IsSctFrame() ) pNxt = static_cast(pNxt)->ContainsContent(); if( pNxt && pNxt->IsTextFrame() && pNxt->IsInFootnote() ) pNxt->Prepare( PrepareHint::FootnoteInvalidation, nullptr, false ); } if ( getFrameArea().Height() ) pParent->Grow( getFrameArea().Height() ); if ( getFrameArea().Width() != pParent->getFramePrintArea().Width() ) Prepare( PrepareHint::FixSizeChanged ); if ( GetPrev() ) { if ( IsFollow() ) //I'm a direct follower of my master now static_cast(GetPrev())->Prepare( PrepareHint::FollowFollows ); else { if ( GetPrev()->getFrameArea().Height() != GetPrev()->getFramePrintArea().Height() + GetPrev()->getFramePrintArea().Top() ) { // Take the border into account? GetPrev()->InvalidatePrt_(); } // OD 18.02.2003 #104989# - force complete paint of previous frame, // if frame is inserted at the end of a section frame, in order to // get subsidiary lines repainted for the section. if ( pParent->IsSctFrame() && !GetNext() ) { // force complete paint of previous frame, if new inserted frame // in the section is the last one. GetPrev()->SetCompletePaint(); } GetPrev()->InvalidatePage( pPage ); } } if ( IsInFootnote() ) { SwFrame* pFrame = GetIndPrev(); if( pFrame && pFrame->IsSctFrame() ) pFrame = static_cast(pFrame)->ContainsAny(); if( pFrame ) pFrame->Prepare( PrepareHint::QuoVadis, nullptr, false ); if( !GetNext() ) { pFrame = FindFootnoteFrame()->GetNext(); if( pFrame && nullptr != (pFrame=static_cast(pFrame)->ContainsAny()) ) pFrame->InvalidatePrt_(); } } InvalidateLineNum_(); SwFrame *pNxt = FindNextCnt(); if ( pNxt ) { while ( pNxt && pNxt->IsInTab() ) { if( nullptr != (pNxt = pNxt->FindTabFrame()) ) pNxt = pNxt->FindNextCnt(); } if ( pNxt ) { pNxt->InvalidateLineNum_(); if ( pNxt != GetNext() ) pNxt->InvalidatePage(); } } } void SwContentFrame::Cut() { OSL_ENSURE( GetUpper(), "Cut without Upper()." ); SwPageFrame *pPage = FindPageFrame(); InvalidatePage( pPage ); SwFrame *pFrame = GetIndPrev(); if( pFrame ) { if( pFrame->IsSctFrame() ) pFrame = static_cast(pFrame)->ContainsAny(); if ( pFrame && pFrame->IsContentFrame() ) { pFrame->InvalidatePrt_(); if( IsInFootnote() ) pFrame->Prepare( PrepareHint::QuoVadis, nullptr, false ); } // #i26250# - invalidate printing area of previous // table frame. else if ( pFrame && pFrame->IsTabFrame() ) { pFrame->InvalidatePrt(); } } SwFrame *pNxt = FindNextCnt(); if ( pNxt ) { while ( pNxt && pNxt->IsInTab() ) { if( nullptr != (pNxt = pNxt->FindTabFrame()) ) pNxt = pNxt->FindNextCnt(); } if ( pNxt ) { pNxt->InvalidateLineNum_(); if ( pNxt != GetNext() ) pNxt->InvalidatePage(); } } if( nullptr != (pFrame = GetIndNext()) ) { // The old follow may have calculated a gap to the predecessor which // now becomes obsolete or different as it becomes the first one itself pFrame->InvalidatePrt_(); pFrame->InvalidatePos_(); pFrame->InvalidatePage( pPage ); if( pFrame->IsSctFrame() ) { pFrame = static_cast(pFrame)->ContainsAny(); if( pFrame ) { pFrame->InvalidatePrt_(); pFrame->InvalidatePos_(); pFrame->InvalidatePage( pPage ); } } if( pFrame && IsInFootnote() ) pFrame->Prepare( PrepareHint::ErgoSum, nullptr, false ); if( IsInSct() && !GetPrev() ) { SwSectionFrame* pSct = FindSctFrame(); if( !pSct->IsFollow() ) { pSct->InvalidatePrt_(); pSct->InvalidatePage( pPage ); } } } else { InvalidateNextPos(); //Someone needs to do the retouching: predecessor or upper if ( nullptr != (pFrame = GetPrev()) ) { pFrame->SetRetouche(); pFrame->Prepare( PrepareHint::WidowsOrphans ); pFrame->InvalidatePos_(); pFrame->InvalidatePage( pPage ); } // If I'm (was) the only ContentFrame in my upper, it has to do the // retouching. Also, perhaps a page became empty. else { SwRootFrame *pRoot = getRootFrame(); if ( pRoot ) { pRoot->SetSuperfluous(); GetUpper()->SetCompletePaint(); GetUpper()->InvalidatePage( pPage ); } if( IsInSct() ) { SwSectionFrame* pSct = FindSctFrame(); if( !pSct->IsFollow() ) { pSct->InvalidatePrt_(); pSct->InvalidatePage( pPage ); } } // #i52253# The master table should take care // of removing the follow flow line. if ( IsInTab() ) { SwTabFrame* pThisTab = FindTabFrame(); SwTabFrame* pMasterTab = pThisTab && pThisTab->IsFollow() ? pThisTab->FindMaster() : nullptr; if ( pMasterTab ) { pMasterTab->InvalidatePos_(); pMasterTab->SetRemoveFollowFlowLinePending( true ); } } } } //Remove first, then shrink the upper. SwLayoutFrame *pUp = GetUpper(); RemoveFromLayout(); if ( pUp ) { SwSectionFrame *pSct = nullptr; if ( !pUp->Lower() && ( ( pUp->IsFootnoteFrame() && !pUp->IsColLocked() ) || ( pUp->IsInSct() && // #i29438# // We have to consider the case that the section may be "empty" // except from a temporary empty table frame. // This can happen due to the new cell split feature. !pUp->IsCellFrame() && // #126020# - adjust check for empty section // #130797# - correct fix #126020# !(pSct = pUp->FindSctFrame())->ContainsContent() && !pSct->ContainsAny( true ) ) ) ) { if ( pUp->GetUpper() ) { // prevent delete of footnote frame if ( pUp->IsFootnoteFrame() && !pUp->IsColLocked()) { if( pUp->GetNext() && !pUp->GetPrev() ) { SwFrame* pTmp = static_cast(pUp->GetNext())->ContainsAny(); if( pTmp ) pTmp->InvalidatePrt_(); } if (!pUp->IsDeleteForbidden()) { pUp->Cut(); SwFrame::DestroyFrame(pUp); } } else { if ( pSct->IsColLocked() || !pSct->IsInFootnote() || ( pUp->IsFootnoteFrame() && pUp->IsColLocked() ) ) { pSct->DelEmpty( false ); // If a locked section may not be deleted then at least // its size became invalid after removing its last // content. pSct->InvalidateSize_(); } else { pSct->DelEmpty( true ); SwFrame::DestroyFrame(pSct); } } } } else { SwRectFnSet aRectFnSet(this); long nFrameHeight = aRectFnSet.GetHeight(getFrameArea()); if( nFrameHeight ) pUp->Shrink( nFrameHeight ); } } } void SwLayoutFrame::Paste( SwFrame* pParent, SwFrame* pSibling) { OSL_ENSURE( pParent, "No parent for pasting." ); OSL_ENSURE( pParent->IsLayoutFrame(), "Parent is ContentFrame." ); OSL_ENSURE( pParent != this, "I'm the parent oneself." ); OSL_ENSURE( pSibling != this, "I'm my own neighbour." ); OSL_ENSURE( !GetPrev() && !GetNext() && !GetUpper(), "I'm still registered somewhere." ); //Insert in the tree. InsertBefore( static_cast(pParent), pSibling ); // OD 24.10.2002 #103517# - correct setting of variable // is used for the following: // (1) To invalidate the frame's size, if its size, which has to be the // same as its upper/parent, differs from its upper's/parent's. // (2) To adjust/grow the frame's upper/parent, if it has a dimension in its // size, which is not determined by its upper/parent. // Which size is which depends on the frame type and the layout direction // (vertical or horizontal). // There are the following cases: // (A) Header and footer frames both in vertical and in horizontal layout // have to size the width to the upper/parent. A dimension in the height // has to cause an adjustment/grow of the upper/parent. // --> = fnRectHori // (B) Cell and column frames in vertical layout, the width has to be the // same as upper/parent and a dimension in height causes adjustment/grow // of the upper/parent. // --> = fnRectHori // in horizontal layout the other way around // --> = fnRectVert // (C) Other frames in vertical layout, the height has to be the // same as upper/parent and a dimension in width causes adjustment/grow // of the upper/parent. // --> = fnRectVert // in horizontal layout the other way around // --> = fnRectHori //SwRectFn fnRect = IsVertical() ? fnRectHori : fnRectVert; SwRectFn fnRect; if ( IsHeaderFrame() || IsFooterFrame() ) fnRect = fnRectHori; else if ( IsCellFrame() || IsColumnFrame() ) fnRect = GetUpper()->IsVertical() ? fnRectHori : ( GetUpper()->IsVertLR() ? (GetUpper()->IsVertLRBT() ? fnRectVertL2RB2T : fnRectVertL2R) : fnRectVert ); else fnRect = GetUpper()->IsVertical() ? ( GetUpper()->IsVertLR() ? (GetUpper()->IsVertLRBT() ? fnRectVertL2RB2T : fnRectVertL2R) : fnRectVert ) : fnRectHori; if( (getFrameArea().*fnRect->fnGetWidth)() != (pParent->getFramePrintArea().*fnRect->fnGetWidth)()) InvalidateSize_(); InvalidatePos_(); const SwPageFrame *pPage = FindPageFrame(); InvalidatePage( pPage ); if( !IsColumnFrame() ) { SwFrame *pFrame = GetIndNext(); if( nullptr != pFrame ) { pFrame->InvalidatePos_(); if( IsInFootnote() ) { if( pFrame->IsSctFrame() ) pFrame = static_cast(pFrame)->ContainsAny(); if( pFrame ) pFrame->Prepare( PrepareHint::ErgoSum, nullptr, false ); } } if ( IsInFootnote() && nullptr != ( pFrame = GetIndPrev() ) ) { if( pFrame->IsSctFrame() ) pFrame = static_cast(pFrame)->ContainsAny(); if( pFrame ) pFrame->Prepare( PrepareHint::QuoVadis, nullptr, false ); } } if( (getFrameArea().*fnRect->fnGetHeight)() ) { // AdjustNeighbourhood is now also called in columns which are not // placed inside a frame SwNeighbourAdjust nAdjust = GetUpper()->IsFootnoteBossFrame() ? static_cast(GetUpper())->NeighbourhoodAdjustment() : SwNeighbourAdjust::GrowShrink; SwTwips nGrow = (getFrameArea().*fnRect->fnGetHeight)(); if( SwNeighbourAdjust::OnlyAdjust == nAdjust ) AdjustNeighbourhood( nGrow ); else { SwTwips nReal = 0; if( SwNeighbourAdjust::AdjustGrow == nAdjust ) nReal = AdjustNeighbourhood( nGrow ); if( nReal < nGrow ) nReal += pParent->Grow( nGrow - nReal ); if( SwNeighbourAdjust::GrowAdjust == nAdjust && nReal < nGrow ) AdjustNeighbourhood( nGrow - nReal ); } } } void SwLayoutFrame::Cut() { if ( GetNext() ) GetNext()->InvalidatePos_(); SwRectFnSet aRectFnSet(this); SwTwips nShrink = aRectFnSet.GetHeight(getFrameArea()); // Remove first, then shrink upper. SwLayoutFrame *pUp = GetUpper(); // AdjustNeighbourhood is now also called in columns which are not // placed inside a frame. // Remove must not be called before an AdjustNeighbourhood, but it has to // be called before the upper-shrink-call, if the upper-shrink takes care // of its content. if ( pUp && nShrink ) { if( pUp->IsFootnoteBossFrame() ) { SwNeighbourAdjust nAdjust= static_cast(pUp)->NeighbourhoodAdjustment(); if( SwNeighbourAdjust::OnlyAdjust == nAdjust ) AdjustNeighbourhood( -nShrink ); else { SwTwips nReal = 0; if( SwNeighbourAdjust::AdjustGrow == nAdjust ) nReal = -AdjustNeighbourhood( -nShrink ); if( nReal < nShrink ) { const SwTwips nOldHeight = aRectFnSet.GetHeight(getFrameArea()); // seems as if this needs to be forwarded to the SwFrame already here, // changing to zero seems temporary anyways { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, 0 ); } nReal += pUp->Shrink( nShrink - nReal ); { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, nOldHeight ); } } if( SwNeighbourAdjust::GrowAdjust == nAdjust && nReal < nShrink ) AdjustNeighbourhood( nReal - nShrink ); } RemoveFromLayout(); } else { RemoveFromLayout(); pUp->Shrink( nShrink ); } } else RemoveFromLayout(); if( pUp && !pUp->Lower() ) { pUp->SetCompletePaint(); pUp->InvalidatePage(); } } SwTwips SwFrame::Grow( SwTwips nDist, bool bTst, bool bInfo ) { OSL_ENSURE( nDist >= 0, "Negative growth?" ); PROTOCOL_ENTER( this, bTst ? PROT::GrowTest : PROT::Grow, DbgAction::NONE, &nDist ) if ( nDist ) { SwRectFnSet aRectFnSet(this); SwTwips nPrtHeight = aRectFnSet.GetHeight(getFramePrintArea()); if( nPrtHeight > 0 && nDist > (LONG_MAX - nPrtHeight) ) nDist = LONG_MAX - nPrtHeight; if ( IsFlyFrame() ) return static_cast(this)->Grow_( nDist, bTst ); else if( IsSctFrame() ) return static_cast(this)->Grow_( nDist, bTst ); else { const SwCellFrame* pThisCell = dynamic_cast(this); if ( pThisCell ) { const SwTabFrame* pTab = FindTabFrame(); // NEW TABLES if ( pTab->IsVertical() != IsVertical() || pThisCell->GetLayoutRowSpan() < 1 ) return 0; } const SwTwips nReal = GrowFrame( nDist, bTst, bInfo ); if( !bTst ) { nPrtHeight = aRectFnSet.GetHeight(getFramePrintArea()); SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(*this); aRectFnSet.SetHeight( aPrt, nPrtHeight + ( IsContentFrame() ? nDist : nReal ) ); } return nReal; } } return 0; } SwTwips SwFrame::Shrink( SwTwips nDist, bool bTst, bool bInfo ) { OSL_ENSURE( nDist >= 0, "Negative reduction?" ); PROTOCOL_ENTER( this, bTst ? PROT::ShrinkTest : PROT::Shrink, DbgAction::NONE, &nDist ) if ( nDist ) { if ( IsFlyFrame() ) return static_cast(this)->Shrink_( nDist, bTst ); else if( IsSctFrame() ) return static_cast(this)->Shrink_( nDist, bTst ); else { const SwCellFrame* pThisCell = dynamic_cast(this); if ( pThisCell ) { const SwTabFrame* pTab = FindTabFrame(); // NEW TABLES if ( (pTab && pTab->IsVertical() != IsVertical()) || pThisCell->GetLayoutRowSpan() < 1 ) return 0; } SwRectFnSet aRectFnSet(this); SwTwips nReal = aRectFnSet.GetHeight(getFrameArea()); ShrinkFrame( nDist, bTst, bInfo ); nReal -= aRectFnSet.GetHeight(getFrameArea()); if( !bTst ) { const SwTwips nPrtHeight = aRectFnSet.GetHeight(getFramePrintArea()); SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(*this); aRectFnSet.SetHeight( aPrt, nPrtHeight - ( IsContentFrame() ? nDist : nReal ) ); } return nReal; } } return 0; } /** Adjust surrounding neighbourhood after insertion * * A Frame needs "normalization" if it is directly placed below a footnote boss (page/column) and its * size changes. There is always a frame that takes the maximum possible space (the frame that * contains the Body text) and zero or more frames which only take the space needed (header/footer * area, footnote container). If one of these frames changes, the body-text-frame has to grow or * shrink accordingly, even though it's fixed. * * !! Is it possible to do this in a generic way and not restrict it to the page and a distinct * frame which takes the maximum space (controlled using the FrameSize attribute)? * Problems: * - What if multiple frames taking the maximum space are placed next to each other? * - How is the maximum space calculated? * - How small can those frames become? * * In any case, only a certain amount of space is allowed, so we never go below a minimum value for * the height of the body. * * @param nDiff the value around which the space has to be allocated */ SwTwips SwFrame::AdjustNeighbourhood( SwTwips nDiff, bool bTst ) { PROTOCOL_ENTER( this, PROT::AdjustN, DbgAction::NONE, &nDiff ); if ( !nDiff || !GetUpper()->IsFootnoteBossFrame() ) // only inside pages/columns return 0; const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowse = pSh && pSh->GetViewOptions()->getBrowseMode(); //The (Page-)Body only changes in BrowseMode, but only if it does not //contain columns. if ( IsPageBodyFrame() && (!bBrowse || (static_cast(this)->Lower() && static_cast(this)->Lower()->IsColumnFrame())) ) return 0; //In BrowseView mode the PageFrame can handle some of the requests. long nBrowseAdd = 0; if ( bBrowse && GetUpper()->IsPageFrame() ) // only (Page-)BodyFrames { SwViewShell *pViewShell = getRootFrame()->GetCurrShell(); SwLayoutFrame *pUp = GetUpper(); long nChg; const long nUpPrtBottom = pUp->getFrameArea().Height() - pUp->getFramePrintArea().Height() - pUp->getFramePrintArea().Top(); SwRect aInva( pUp->getFrameArea() ); if ( pViewShell ) { aInva.Pos().setX( pViewShell->VisArea().Left() ); aInva.Width( pViewShell->VisArea().Width() ); } if ( nDiff > 0 ) { nChg = BROWSE_HEIGHT - pUp->getFrameArea().Height(); nChg = std::min( nDiff, nChg ); if ( !IsBodyFrame() ) { SetCompletePaint(); if ( !pViewShell || pViewShell->VisArea().Height() >= pUp->getFrameArea().Height() ) { //First minimize Body, it will grow again later. SwFrame *pBody = static_cast(pUp)->FindBodyCont(); const long nTmp = nChg - pBody->getFramePrintArea().Height(); if ( !bTst ) { { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pBody); aFrm.Height(std::max( 0L, aFrm.Height() - nChg )); } pBody->InvalidatePrt_(); pBody->InvalidateSize_(); if ( pBody->GetNext() ) pBody->GetNext()->InvalidatePos_(); if ( !IsHeaderFrame() ) pBody->SetCompletePaint(); } nChg = nTmp <= 0 ? 0 : nTmp; } } const long nTmp = nUpPrtBottom + 20; aInva.Top( aInva.Bottom() - nTmp ); aInva.Height( nChg + nTmp ); } else { //The page can shrink to 0. The first page keeps the same size like //VisArea. nChg = nDiff; long nInvaAdd = 0; if ( pViewShell && !pUp->GetPrev() && pUp->getFrameArea().Height() + nDiff < pViewShell->VisArea().Height() ) { // This means that we have to invalidate adequately. nChg = pViewShell->VisArea().Height() - pUp->getFrameArea().Height(); nInvaAdd = -(nDiff - nChg); } //Invalidate including bottom border. long nBorder = nUpPrtBottom + 20; nBorder -= nChg; aInva.Top( aInva.Bottom() - (nBorder+nInvaAdd) ); if ( !IsBodyFrame() ) { SetCompletePaint(); if ( !IsHeaderFrame() ) static_cast(pUp)->FindBodyCont()->SetCompletePaint(); } //Invalidate the page because of the frames. Thereby the page becomes //the right size again if a frame didn't fit. This only works //randomly for paragraph bound frames otherwise (NotifyFlys). pUp->InvalidateSize(); } if ( !bTst ) { //Independent from nChg if ( pViewShell && aInva.HasArea() && pUp->GetUpper() ) pViewShell->InvalidateWindows( aInva ); } if ( !bTst && nChg ) { { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pUp); aFrm.AddHeight(nChg ); } { SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(*pUp); aPrt.AddHeight(nChg ); } if ( pViewShell ) pViewShell->Imp()->SetFirstVisPageInvalid(); if ( GetNext() ) GetNext()->InvalidatePos_(); //Trigger a repaint if necessary. std::unique_ptr aBack(pUp->GetFormat()->makeBackgroundBrushItem()); const SvxGraphicPosition ePos = aBack ? aBack->GetGraphicPos() : GPOS_NONE; if ( ePos != GPOS_NONE && ePos != GPOS_TILED ) pViewShell->InvalidateWindows( pUp->getFrameArea() ); if ( pUp->GetUpper() ) { if ( pUp->GetNext() ) pUp->GetNext()->InvalidatePos(); //Sad but true: during notify on ViewImp a Calc on the page and //its Lower may be called. The values should not be changed //because the caller takes care of the adjustment of Frame and //Prt. const long nOldFrameHeight = getFrameArea().Height(); const long nOldPrtHeight = getFramePrintArea().Height(); const bool bOldComplete = IsCompletePaint(); if ( IsBodyFrame() ) { SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(*this); aPrt.Height( nOldFrameHeight ); } if ( pUp->GetUpper() ) { static_cast(pUp->GetUpper())->CheckViewLayout( nullptr, nullptr ); } SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aFrm.Height( nOldFrameHeight ); SwFrameAreaDefinition::FramePrintAreaWriteAccess aPrt(*this); aPrt.Height( nOldPrtHeight ); mbCompletePaint = bOldComplete; } if ( !IsBodyFrame() ) pUp->InvalidateSize_(); InvalidatePage( static_cast(pUp) ); } nDiff -= nChg; if ( !nDiff ) return nChg; else nBrowseAdd = nChg; } const SwFootnoteBossFrame *pBoss = static_cast(GetUpper()); SwTwips nReal = 0, nAdd = 0; SwFrame *pFrame = nullptr; SwRectFnSet aRectFnSet(this); if( IsBodyFrame() ) { if( IsInSct() ) { SwSectionFrame *pSect = FindSctFrame(); if( nDiff > 0 && pSect->IsEndnAtEnd() && GetNext() && GetNext()->IsFootnoteContFrame() ) { SwFootnoteContFrame* pCont = static_cast(GetNext()); SwTwips nMinH = 0; SwFootnoteFrame* pFootnote = static_cast(pCont->Lower()); bool bFootnote = false; while( pFootnote ) { if( !pFootnote->GetAttr()->GetFootnote().IsEndNote() ) { nMinH += aRectFnSet.GetHeight(pFootnote->getFrameArea()); bFootnote = true; } pFootnote = static_cast(pFootnote->GetNext()); } if( bFootnote ) nMinH += aRectFnSet.GetTop(pCont->getFramePrintArea()); nReal = aRectFnSet.GetHeight(pCont->getFrameArea()) - nMinH; if( nReal > nDiff ) nReal = nDiff; if( nReal > 0 ) pFrame = GetNext(); else nReal = 0; } if( !bTst && !pSect->IsColLocked() ) pSect->InvalidateSize(); } if( !pFrame ) return nBrowseAdd; } else { const bool bFootnotePage = pBoss->IsPageFrame() && static_cast(pBoss)->IsFootnotePage(); if ( bFootnotePage && !IsFootnoteContFrame() ) pFrame = const_cast(static_cast(pBoss->FindFootnoteCont())); if ( !pFrame ) pFrame = const_cast(static_cast(pBoss->FindBodyCont())); if ( !pFrame ) return 0; //If not one is found, everything else is solved. nReal = aRectFnSet.GetHeight(pFrame->getFrameArea()); if( nReal > nDiff ) nReal = nDiff; if( !bFootnotePage ) { //Respect the minimal boundary! if( nReal ) { const SwTwips nMax = pBoss->GetVarSpace(); if ( nReal > nMax ) nReal = nMax; } if( !IsFootnoteContFrame() && nDiff > nReal && pFrame->GetNext() && pFrame->GetNext()->IsFootnoteContFrame() && ( pFrame->GetNext()->IsVertical() == IsVertical() ) ) { //If the Body doesn't return enough, we look for a footnote, if //there is one, we steal there accordingly. const SwTwips nAddMax = aRectFnSet.GetHeight(pFrame->GetNext()->getFrameArea()); nAdd = nDiff - nReal; if ( nAdd > nAddMax ) nAdd = nAddMax; if ( !bTst ) { { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pFrame->GetNext()); aRectFnSet.SetHeight(aFrm, nAddMax-nAdd); if( aRectFnSet.IsVert() && !aRectFnSet.IsVertL2R() ) { aFrm.Pos().AdjustX(nAdd ); } } pFrame->GetNext()->InvalidatePrt(); if ( pFrame->GetNext()->GetNext() ) { pFrame->GetNext()->GetNext()->InvalidatePos_(); } } } } } if ( !bTst && nReal ) { SwTwips nTmp = aRectFnSet.GetHeight(pFrame->getFrameArea()); { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pFrame); aRectFnSet.SetHeight( aFrm, nTmp - nReal ); if( aRectFnSet.IsVert() && !aRectFnSet.IsVertL2R() ) { aFrm.Pos().AdjustX(nReal ); } } pFrame->InvalidatePrt(); if ( pFrame->GetNext() ) pFrame->GetNext()->InvalidatePos_(); if( nReal < 0 && pFrame->IsInSct() ) { SwLayoutFrame* pUp = pFrame->GetUpper(); if( pUp && nullptr != ( pUp = pUp->GetUpper() ) && pUp->IsSctFrame() && !pUp->IsColLocked() ) pUp->InvalidateSize(); } if( ( IsHeaderFrame() || IsFooterFrame() ) && pBoss->GetDrawObjs() ) { const SwSortedObjs &rObjs = *pBoss->GetDrawObjs(); OSL_ENSURE( pBoss->IsPageFrame(), "Header/Footer out of page?" ); for (SwAnchoredObject* pAnchoredObj : rObjs) { if ( dynamic_cast< const SwFlyFrame *>( pAnchoredObj ) != nullptr ) { SwFlyFrame* pFly = static_cast(pAnchoredObj); OSL_ENSURE( !pFly->IsFlyInContentFrame(), "FlyInCnt at Page?" ); const SwFormatVertOrient &rVert = pFly->GetFormat()->GetVertOrient(); // When do we have to invalidate? // If a frame is aligned on a PageTextArea and the header // changes a TOP, MIDDLE or NONE aligned frame needs to // recalculate it's position; if the footer changes a BOTTOM // or MIDDLE aligned frame needs to recalculate it's // position. if( ( rVert.GetRelationOrient() == text::RelOrientation::PRINT_AREA || rVert.GetRelationOrient() == text::RelOrientation::PAGE_PRINT_AREA ) && ((IsHeaderFrame() && rVert.GetVertOrient()!=text::VertOrientation::BOTTOM) || (IsFooterFrame() && rVert.GetVertOrient()!=text::VertOrientation::NONE && rVert.GetVertOrient() != text::VertOrientation::TOP)) ) { pFly->InvalidatePos_(); pFly->Invalidate_(); } } } } } return (nBrowseAdd + nReal + nAdd); } /** method to perform additional actions on an invalidation (2004-05-19 #i28701#) */ void SwFrame::ActionOnInvalidation( const InvalidationType ) { // default behaviour is to perform no additional action } /** method to determine, if an invalidation is allowed (2004-05-19 #i28701#) */ bool SwFrame::InvalidationAllowed( const InvalidationType ) const { // default behaviour is to allow invalidation return true; } void SwFrame::ImplInvalidateSize() { if ( InvalidationAllowed( INVALID_SIZE ) ) { setFrameAreaSizeValid(false); if ( IsFlyFrame() ) static_cast(this)->Invalidate_(); else InvalidatePage(); // OD 2004-05-19 #i28701# ActionOnInvalidation( INVALID_SIZE ); } } void SwFrame::ImplInvalidatePrt() { if ( InvalidationAllowed( INVALID_PRTAREA ) ) { setFramePrintAreaValid(false); if ( IsFlyFrame() ) static_cast(this)->Invalidate_(); else InvalidatePage(); // OD 2004-05-19 #i28701# ActionOnInvalidation( INVALID_PRTAREA ); } } void SwFrame::ImplInvalidatePos() { if ( InvalidationAllowed( INVALID_POS ) ) { setFrameAreaPositionValid(false); if ( IsFlyFrame() ) { static_cast(this)->Invalidate_(); } else { InvalidatePage(); } // OD 2004-05-19 #i28701# ActionOnInvalidation( INVALID_POS ); } } void SwFrame::ImplInvalidateLineNum() { if ( InvalidationAllowed( INVALID_LINENUM ) ) { mbValidLineNum = false; OSL_ENSURE( IsTextFrame(), "line numbers are implemented for text only" ); InvalidatePage(); // OD 2004-05-19 #i28701# ActionOnInvalidation( INVALID_LINENUM ); } } void SwFrame::ReinitializeFrameSizeAttrFlags() { const SwFormatFrameSize &rFormatSize = GetAttrSet()->GetFrameSize(); if ( SwFrameSize::Variable == rFormatSize.GetHeightSizeType() || SwFrameSize::Minimum == rFormatSize.GetHeightSizeType()) { mbFixSize = false; if ( GetType() & (SwFrameType::Header | SwFrameType::Footer | SwFrameType::Row) ) { SwFrame *pFrame = static_cast(this)->Lower(); while ( pFrame ) { pFrame->InvalidateSize_(); pFrame->InvalidatePrt_(); pFrame = pFrame->GetNext(); } SwContentFrame *pCnt = static_cast(this)->ContainsContent(); // #i36991# - be save. // E.g., a row can contain *no* content. if ( pCnt ) { pCnt->InvalidatePage(); do { pCnt->Prepare( PrepareHint::AdjustSizeWithoutFormatting ); pCnt->InvalidateSize_(); pCnt = pCnt->GetNextContentFrame(); } while ( static_cast(this)->IsAnLower( pCnt ) ); } } } else if ( rFormatSize.GetHeightSizeType() == SwFrameSize::Fixed ) { if( IsVertical() ) ChgSize( Size( rFormatSize.GetWidth(), getFrameArea().Height())); else ChgSize( Size( getFrameArea().Width(), rFormatSize.GetHeight())); } } void SwFrame::ValidateThisAndAllLowers( const sal_uInt16 nStage ) { // Stage 0: Only validate frames. Do not process any objects. // Stage 1: Only validate fly frames and all of their contents. // Stage 2: Validate all. const bool bOnlyObject = 1 == nStage; const bool bIncludeObjects = 1 <= nStage; if ( !bOnlyObject || dynamic_cast< const SwFlyFrame *>( this ) != nullptr ) { setFrameAreaSizeValid(true); setFramePrintAreaValid(true); setFrameAreaPositionValid(true); } if ( bIncludeObjects ) { const SwSortedObjs* pObjs = GetDrawObjs(); if ( pObjs ) { const size_t nCnt = pObjs->size(); for ( size_t i = 0; i < nCnt; ++i ) { SwAnchoredObject* pAnchObj = (*pObjs)[i]; if ( dynamic_cast< const SwFlyFrame *>( pAnchObj ) != nullptr ) static_cast(pAnchObj)->ValidateThisAndAllLowers( 2 ); else if ( dynamic_cast< const SwAnchoredDrawObject *>( pAnchObj ) != nullptr ) static_cast(pAnchObj)->ValidateThis(); } } } if ( IsLayoutFrame() ) { SwFrame* pLower = static_cast(this)->Lower(); while ( pLower ) { pLower->ValidateThisAndAllLowers( nStage ); pLower = pLower->GetNext(); } } } SwTwips SwContentFrame::GrowFrame( SwTwips nDist, bool bTst, bool bInfo ) { SwRectFnSet aRectFnSet(this); SwTwips nFrameHeight = aRectFnSet.GetHeight(getFrameArea()); if( nFrameHeight > 0 && nDist > (LONG_MAX - nFrameHeight ) ) nDist = LONG_MAX - nFrameHeight; const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowse = pSh && pSh->GetViewOptions()->getBrowseMode(); SwFrameType nTmpType = SwFrameType::Cell | SwFrameType::Column; if (bBrowse) nTmpType |= SwFrameType::Body; if( !(GetUpper()->GetType() & nTmpType) && GetUpper()->HasFixSize() ) { if ( !bTst ) { { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, nFrameHeight + nDist ); if( IsVertical() && !IsVertLR() ) { aFrm.Pos().AdjustX( -nDist ); } } if ( GetNext() ) { GetNext()->InvalidatePos(); } // #i28701# - Due to the new object positioning the // frame on the next page/column can flow backward (e.g. it was moved forward // due to the positioning of its objects ). Thus, invalivate this next frame, // if document compatibility option 'Consider wrapping style influence on // object positioning' is ON. else if ( GetUpper()->GetFormat()->getIDocumentSettingAccess().get(DocumentSettingId::CONSIDER_WRAP_ON_OBJECT_POSITION) ) { InvalidateNextPos(); } } return 0; } SwTwips nReal = aRectFnSet.GetHeight(GetUpper()->getFramePrintArea()); SwFrame *pFrame = GetUpper()->Lower(); while( pFrame && nReal > 0 ) { nReal -= aRectFnSet.GetHeight(pFrame->getFrameArea()); pFrame = pFrame->GetNext(); } if ( !bTst ) { //Contents are always resized to the wished value. long nOld = aRectFnSet.GetHeight(getFrameArea()); { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, nOld + nDist ); if( IsVertical()&& !IsVertLR() ) { aFrm.Pos().AdjustX( -nDist ); } } SwTabFrame *pTab = (nOld && IsInTab()) ? FindTabFrame() : nullptr; if (pTab) { if ( pTab->GetTable()->GetHTMLTableLayout() && !pTab->IsJoinLocked() && !pTab->GetFormat()->GetDoc()->GetDocShell()->IsReadOnly() ) { pTab->InvalidatePos(); pTab->SetResizeHTMLTable(); } } } //Only grow Upper if necessary. if ( nReal < nDist ) { if( GetUpper() ) { if( bTst || !GetUpper()->IsFooterFrame() ) nReal = GetUpper()->Grow( nDist - std::max(nReal, 0), bTst, bInfo ); else { nReal = 0; GetUpper()->InvalidateSize(); } } else nReal = 0; } else nReal = nDist; // #i28701# - Due to the new object positioning the // frame on the next page/column can flow backward (e.g. it was moved forward // due to the positioning of its objects ). Thus, invalivate this next frame, // if document compatibility option 'Consider wrapping style influence on // object positioning' is ON. if ( !bTst ) { if ( GetNext() ) { GetNext()->InvalidatePos(); } else if ( GetUpper()->GetFormat()->getIDocumentSettingAccess().get(DocumentSettingId::CONSIDER_WRAP_ON_OBJECT_POSITION) ) { InvalidateNextPos(); } } return nReal; } SwTwips SwContentFrame::ShrinkFrame( SwTwips nDist, bool bTst, bool bInfo ) { SwRectFnSet aRectFnSet(this); OSL_ENSURE( nDist >= 0, "nDist < 0" ); OSL_ENSURE( nDist <= aRectFnSet.GetHeight(getFrameArea()), "nDist > than current size." ); if ( !bTst ) { SwTwips nRstHeight; if( GetUpper() ) nRstHeight = aRectFnSet.BottomDist( getFrameArea(), aRectFnSet.GetPrtBottom(*GetUpper()) ); else nRstHeight = 0; if( nRstHeight < 0 ) { SwTwips nNextHeight = 0; if( GetUpper()->IsSctFrame() && nDist > LONG_MAX/2 ) { SwFrame *pNxt = GetNext(); while( pNxt ) { nNextHeight += aRectFnSet.GetHeight(pNxt->getFrameArea()); pNxt = pNxt->GetNext(); } } nRstHeight = nDist + nRstHeight - nNextHeight; } else { nRstHeight = nDist; } { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, aRectFnSet.GetHeight(aFrm) - nDist ); if( IsVertical() && !IsVertLR() ) { aFrm.Pos().AdjustX(nDist ); } } nDist = nRstHeight; SwTabFrame *pTab = IsInTab() ? FindTabFrame() : nullptr; if (pTab) { if ( pTab->GetTable()->GetHTMLTableLayout() && !pTab->IsJoinLocked() && !pTab->GetFormat()->GetDoc()->GetDocShell()->IsReadOnly() ) { pTab->InvalidatePos(); pTab->SetResizeHTMLTable(); } } } SwTwips nReal; if( GetUpper() && nDist > 0 ) { if( bTst || !GetUpper()->IsFooterFrame() ) nReal = GetUpper()->Shrink( nDist, bTst, bInfo ); else { nReal = 0; // #108745# Sorry, dear old footer friend, I'm not gonna invalidate you, // if there are any objects anchored inside your content, which // overlap with the shrinking frame. // This may lead to a footer frame that is too big, but this is better // than looping. // #109722# : The fix for #108745# was too strict. bool bInvalidate = true; const SwRect aRect( getFrameArea() ); const SwPageFrame* pPage = FindPageFrame(); const SwSortedObjs* pSorted = pPage ? pPage->GetSortedObjs() : nullptr; if( pSorted ) { for (SwAnchoredObject* pAnchoredObj : *pSorted) { const SwRect aBound( pAnchoredObj->GetObjRectWithSpaces() ); if( aBound.Left() > aRect.Right() ) continue; if( aBound.IsOver( aRect ) ) { const SwFrameFormat& rFormat = pAnchoredObj->GetFrameFormat(); if( css::text::WrapTextMode_THROUGH != rFormat.GetSurround().GetSurround() ) { const SwFrame* pAnchor = pAnchoredObj->GetAnchorFrame(); if ( pAnchor && pAnchor->FindFooterOrHeader() == GetUpper() ) { bInvalidate = false; break; } } } } } if ( bInvalidate ) GetUpper()->InvalidateSize(); } } else nReal = 0; if ( !bTst ) { //The position of the next Frame changes for sure. InvalidateNextPos(); //If I don't have a successor I have to do the retouch by myself. if ( !GetNext() ) SetRetouche(); } return nReal; } void SwContentFrame::Modify( const SfxPoolItem* pOld, const SfxPoolItem * pNew ) { sal_uInt8 nInvFlags = 0; if( pNew && RES_ATTRSET_CHG == pNew->Which() && pOld ) { SfxItemIter aNIter( *static_cast(pNew)->GetChgSet() ); SfxItemIter aOIter( *static_cast(pOld)->GetChgSet() ); const SfxPoolItem* pNItem = aNIter.GetCurItem(); const SfxPoolItem* pOItem = aOIter.GetCurItem(); SwAttrSetChg aOldSet( *static_cast(pOld) ); SwAttrSetChg aNewSet( *static_cast(pNew) ); do { UpdateAttr_(pOItem, pNItem, nInvFlags, &aOldSet, &aNewSet); pNItem = aNIter.NextItem(); pOItem = aOIter.NextItem(); } while (pNItem); if ( aOldSet.Count() || aNewSet.Count() ) SwFrame::Modify( &aOldSet, &aNewSet ); } else UpdateAttr_( pOld, pNew, nInvFlags ); if ( nInvFlags == 0 ) return; SwPageFrame *pPage = FindPageFrame(); InvalidatePage( pPage ); if ( nInvFlags & 0x01 ) SetCompletePaint(); if ( nInvFlags & 0x02 ) InvalidatePos_(); if ( nInvFlags & 0x04 ) InvalidateSize_(); if ( nInvFlags & 0x88 ) { if( IsInSct() && !GetPrev() ) { SwSectionFrame *pSect = FindSctFrame(); if( pSect->ContainsAny() == this ) { pSect->InvalidatePrt_(); pSect->InvalidatePage( pPage ); } } InvalidatePrt_(); } SwFrame* pNextFrame = GetIndNext(); if ( pNextFrame && nInvFlags & 0x10) { pNextFrame->InvalidatePrt_(); pNextFrame->InvalidatePage( pPage ); } if ( pNextFrame && nInvFlags & 0x80 ) { pNextFrame->SetCompletePaint(); } if ( nInvFlags & 0x20 ) { SwFrame* pPrevFrame = GetPrev(); if ( pPrevFrame ) { pPrevFrame->InvalidatePrt_(); pPrevFrame->InvalidatePage( pPage ); } } if ( nInvFlags & 0x40 ) InvalidateNextPos(); } void SwContentFrame::UpdateAttr_( const SfxPoolItem* pOld, const SfxPoolItem* pNew, sal_uInt8 &rInvFlags, SwAttrSetChg *pOldSet, SwAttrSetChg *pNewSet ) { bool bClear = true; sal_uInt16 nWhich = pOld ? pOld->Which() : pNew ? pNew->Which() : 0; switch ( nWhich ) { case RES_FMT_CHG: rInvFlags = 0xFF; [[fallthrough]]; case RES_PAGEDESC: //attribute changes (on/off) if ( IsInDocBody() && !IsInTab() ) { rInvFlags |= 0x02; SwPageFrame *pPage = FindPageFrame(); if ( !GetPrev() ) CheckPageDescs( pPage ); if (GetPageDescItem().GetNumOffset()) static_cast(pPage->GetUpper())->SetVirtPageNum( true ); SwDocPosUpdate aMsgHint( pPage->getFrameArea().Top() ); pPage->GetFormat()->GetDoc()->getIDocumentFieldsAccess().UpdatePageFields( &aMsgHint ); } break; case RES_UL_SPACE: { // OD 2004-02-18 #106629# - correction // Invalidation of the printing area of next frame, not only // for footnote content. if ( !GetIndNext() ) { SwFrame* pNxt = FindNext(); if ( pNxt ) { SwPageFrame* pPg = pNxt->FindPageFrame(); pNxt->InvalidatePage( pPg ); pNxt->InvalidatePrt_(); if( pNxt->IsSctFrame() ) { SwFrame* pCnt = static_cast(pNxt)->ContainsAny(); if( pCnt ) { pCnt->InvalidatePrt_(); pCnt->InvalidatePage( pPg ); } } pNxt->SetCompletePaint(); } } // OD 2004-03-17 #i11860# if ( GetIndNext() && !GetUpper()->GetFormat()->getIDocumentSettingAccess().get(DocumentSettingId::USE_FORMER_OBJECT_POS) ) { // OD 2004-07-01 #i28701# - use new method GetIndNext()->InvalidateObjs(); } Prepare( PrepareHint::ULSpaceChanged ); //TextFrame has to correct line spacing. rInvFlags |= 0x80; [[fallthrough]]; } case RES_LR_SPACE: case RES_BOX: case RES_SHADOW: Prepare( PrepareHint::FixSizeChanged ); SwFrame::Modify( pOld, pNew ); rInvFlags |= 0x30; break; case RES_BREAK: { rInvFlags |= 0x42; const IDocumentSettingAccess& rIDSA = GetUpper()->GetFormat()->getIDocumentSettingAccess(); if( rIDSA.get(DocumentSettingId::PARA_SPACE_MAX) || rIDSA.get(DocumentSettingId::PARA_SPACE_MAX_AT_PAGES) ) { rInvFlags |= 0x1; SwFrame* pNxt = FindNext(); if( pNxt ) { SwPageFrame* pPg = pNxt->FindPageFrame(); pNxt->InvalidatePage( pPg ); pNxt->InvalidatePrt_(); if( pNxt->IsSctFrame() ) { SwFrame* pCnt = static_cast(pNxt)->ContainsAny(); if( pCnt ) { pCnt->InvalidatePrt_(); pCnt->InvalidatePage( pPg ); } } pNxt->SetCompletePaint(); } } } break; // OD 2004-02-26 #i25029# case RES_PARATR_CONNECT_BORDER: { rInvFlags |= 0x01; if ( IsTextFrame() ) { InvalidateNextPrtArea(); } if ( !GetIndNext() && IsInTab() && IsInSplitTableRow() ) { FindTabFrame()->InvalidateSize(); } } break; case RES_PARATR_TABSTOP: case RES_CHRATR_SHADOWED: case RES_CHRATR_AUTOKERN: case RES_CHRATR_UNDERLINE: case RES_CHRATR_OVERLINE: case RES_CHRATR_KERNING: case RES_CHRATR_FONT: case RES_CHRATR_FONTSIZE: case RES_CHRATR_ESCAPEMENT: case RES_CHRATR_CONTOUR: case RES_PARATR_NUMRULE: rInvFlags |= 0x01; break; case RES_FRM_SIZE: rInvFlags |= 0x01; [[fallthrough]]; default: bClear = false; } if ( bClear ) { if ( pOldSet || pNewSet ) { if ( pOldSet ) pOldSet->ClearItem( nWhich ); if ( pNewSet ) pNewSet->ClearItem( nWhich ); } else SwFrame::Modify( pOld, pNew ); } } SwLayoutFrame::SwLayoutFrame(SwFrameFormat *const pFormat, SwFrame *const pSib) : SwFrame(pFormat, pSib) , m_pLower(nullptr) { const SwFormatFrameSize &rFormatSize = pFormat->GetFrameSize(); if ( rFormatSize.GetHeightSizeType() == SwFrameSize::Fixed ) mbFixSize = true; } // #i28701# SwTwips SwLayoutFrame::InnerHeight() const { const SwFrame* pCnt = Lower(); if (!pCnt) return 0; SwRectFnSet aRectFnSet(this); SwTwips nRet = 0; if( pCnt->IsColumnFrame() || pCnt->IsCellFrame() ) { do { SwTwips nTmp = static_cast(pCnt)->InnerHeight(); if( pCnt->isFramePrintAreaValid() ) nTmp += aRectFnSet.GetHeight(pCnt->getFrameArea()) - aRectFnSet.GetHeight(pCnt->getFramePrintArea()); if( nRet < nTmp ) nRet = nTmp; pCnt = pCnt->GetNext(); } while ( pCnt ); } else { do { nRet += aRectFnSet.GetHeight(pCnt->getFrameArea()); if( pCnt->IsContentFrame() && static_cast(pCnt)->IsUndersized() ) nRet += static_cast(pCnt)->GetParHeight() - aRectFnSet.GetHeight(pCnt->getFramePrintArea()); if( pCnt->IsLayoutFrame() && !pCnt->IsTabFrame() ) nRet += static_cast(pCnt)->InnerHeight() - aRectFnSet.GetHeight(pCnt->getFramePrintArea()); pCnt = pCnt->GetNext(); } while( pCnt ); } return nRet; } SwTwips SwLayoutFrame::GrowFrame( SwTwips nDist, bool bTst, bool bInfo ) { const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowse = pSh && pSh->GetViewOptions()->getBrowseMode(); SwFrameType nTmpType = SwFrameType::Cell | SwFrameType::Column; if (bBrowse) nTmpType |= SwFrameType::Body; if( !(GetType() & nTmpType) && HasFixSize() ) return 0; SwRectFnSet aRectFnSet(this); const SwTwips nFrameHeight = aRectFnSet.GetHeight(getFrameArea()); const SwTwips nFramePos = getFrameArea().Pos().X(); if ( nFrameHeight > 0 && nDist > (LONG_MAX - nFrameHeight) ) nDist = LONG_MAX - nFrameHeight; SwTwips nMin = 0; if ( GetUpper() && !IsCellFrame() ) { SwFrame *pFrame = GetUpper()->Lower(); while( pFrame ) { nMin += aRectFnSet.GetHeight(pFrame->getFrameArea()); pFrame = pFrame->GetNext(); } nMin = aRectFnSet.GetHeight(GetUpper()->getFramePrintArea()) - nMin; if ( nMin < 0 ) nMin = 0; } SwRect aOldFrame( getFrameArea() ); bool bMoveAccFrame = false; bool bChgPos = IsVertical(); if ( !bTst ) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, nFrameHeight + nDist ); if( bChgPos && !IsVertLR() ) { aFrm.Pos().AdjustX( -nDist ); } bMoveAccFrame = true; } SwTwips nReal = nDist - nMin; if ( nReal > 0 ) { if ( GetUpper() ) { // AdjustNeighbourhood now only for the columns (but not in frames) SwNeighbourAdjust nAdjust = GetUpper()->IsFootnoteBossFrame() ? static_cast(GetUpper())->NeighbourhoodAdjustment() : SwNeighbourAdjust::GrowShrink; if( SwNeighbourAdjust::OnlyAdjust == nAdjust ) nReal = AdjustNeighbourhood( nReal, bTst ); else { if( SwNeighbourAdjust::AdjustGrow == nAdjust ) nReal += AdjustNeighbourhood( nReal, bTst ); SwTwips nGrow = 0; if( 0 < nReal ) { SwFrame* pToGrow = GetUpper(); // NEW TABLES // A cell with a row span of > 1 is allowed to grow the // line containing the end of the row span if it is // located in the same table frame: const SwCellFrame* pThisCell = dynamic_cast(this); if ( pThisCell && pThisCell->GetLayoutRowSpan() > 1 ) { SwCellFrame& rEndCell = const_cast(pThisCell->FindStartEndOfRowSpanCell( false )); if ( -1 == rEndCell.GetTabBox()->getRowSpan() ) pToGrow = rEndCell.GetUpper(); else pToGrow = nullptr; } nGrow = pToGrow ? pToGrow->Grow( nReal, bTst, bInfo ) : 0; } if( SwNeighbourAdjust::GrowAdjust == nAdjust && nGrow < nReal ) nReal = o3tl::saturating_add(nReal, AdjustNeighbourhood( nReal - nGrow, bTst )); if ( IsFootnoteFrame() && (nGrow != nReal) && GetNext() ) { //Footnotes can replace their successor. SwTwips nSpace = bTst ? 0 : -nDist; const SwFrame *pFrame = GetUpper()->Lower(); do { nSpace += aRectFnSet.GetHeight(pFrame->getFrameArea()); pFrame = pFrame->GetNext(); } while ( pFrame != GetNext() ); nSpace = aRectFnSet.GetHeight(GetUpper()->getFramePrintArea()) -nSpace; if ( nSpace < 0 ) nSpace = 0; nSpace += nGrow; if ( nReal > nSpace ) nReal = nSpace; if ( nReal && !bTst ) static_cast(this)->InvalidateNxtFootnoteCnts( FindPageFrame() ); } else nReal = nGrow; } } else nReal = 0; nReal += nMin; } else nReal = nDist; if ( !bTst ) { if( nReal != nDist && // NEW TABLES ( !IsCellFrame() || static_cast(this)->GetLayoutRowSpan() > 1 ) ) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, nFrameHeight + nReal ); if( bChgPos && !IsVertLR() ) { aFrm.Pos().setX( nFramePos - nReal ); } bMoveAccFrame = true; } if ( nReal ) { SwPageFrame *pPage = FindPageFrame(); if ( GetNext() ) { GetNext()->InvalidatePos_(); if ( GetNext()->IsContentFrame() ) GetNext()->InvalidatePage( pPage ); } if ( !IsPageBodyFrame() ) { InvalidateAll_(); InvalidatePage( pPage ); } if (!(GetType() & (SwFrameType::Row|SwFrameType::Tab|SwFrameType::FtnCont|SwFrameType::Page|SwFrameType::Root))) NotifyLowerObjs(); if( IsCellFrame() ) InvaPercentLowers( nReal ); std::unique_ptr aBack(GetFormat()->makeBackgroundBrushItem()); const SvxGraphicPosition ePos = aBack ? aBack->GetGraphicPos() : GPOS_NONE; if ( GPOS_NONE != ePos && GPOS_TILED != ePos ) SetCompletePaint(); } } if( bMoveAccFrame && IsAccessibleFrame() ) { SwRootFrame *pRootFrame = getRootFrame(); if( pRootFrame && pRootFrame->IsAnyShellAccessible() && pRootFrame->GetCurrShell() ) { pRootFrame->GetCurrShell()->Imp()->MoveAccessibleFrame( this, aOldFrame ); } } return nReal; } SwTwips SwLayoutFrame::ShrinkFrame( SwTwips nDist, bool bTst, bool bInfo ) { const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowse = pSh && pSh->GetViewOptions()->getBrowseMode(); SwFrameType nTmpType = SwFrameType::Cell | SwFrameType::Column; if (bBrowse) nTmpType |= SwFrameType::Body; if (pSh && pSh->GetViewOptions()->IsWhitespaceHidden()) { if (IsBodyFrame()) { // Whitespace is hidden and this body frame will not shrink, as it // has a fix size. // Invalidate the page frame size, so in case the reason for the // shrink was that there is more whitespace on this page, the size // without whitespace will be recalculated correctly. SwPageFrame* pPageFrame = FindPageFrame(); pPageFrame->InvalidateSize(); } } if( !(GetType() & nTmpType) && HasFixSize() ) return 0; OSL_ENSURE( nDist >= 0, "nDist < 0" ); SwRectFnSet aRectFnSet(this); SwTwips nFrameHeight = aRectFnSet.GetHeight(getFrameArea()); if ( nDist > nFrameHeight ) nDist = nFrameHeight; SwTwips nMin = 0; bool bChgPos = IsVertical(); if ( Lower() ) { if( !Lower()->IsNeighbourFrame() ) { const SwFrame *pFrame = Lower(); const long nTmp = aRectFnSet.GetHeight(getFramePrintArea()); while( pFrame && nMin < nTmp ) { nMin += aRectFnSet.GetHeight(pFrame->getFrameArea()); pFrame = pFrame->GetNext(); } } } SwTwips nReal = nDist; SwTwips nMinDiff = aRectFnSet.GetHeight(getFramePrintArea()) - nMin; if( nReal > nMinDiff ) nReal = nMinDiff; if( nReal <= 0 ) return nDist; SwRect aOldFrame( getFrameArea() ); bool bMoveAccFrame = false; SwTwips nRealDist = nReal; if ( !bTst ) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, nFrameHeight - nReal ); if( bChgPos && !IsVertLR() ) { aFrm.Pos().AdjustX(nReal ); } bMoveAccFrame = true; } SwNeighbourAdjust nAdjust = GetUpper() && GetUpper()->IsFootnoteBossFrame() ? static_cast(GetUpper())->NeighbourhoodAdjustment() : SwNeighbourAdjust::GrowShrink; // AdjustNeighbourhood also in columns (but not in frames) if( SwNeighbourAdjust::OnlyAdjust == nAdjust ) { if ( IsPageBodyFrame() && !bBrowse ) nReal = nDist; else { nReal = AdjustNeighbourhood( -nReal, bTst ); nReal *= -1; if ( !bTst && IsBodyFrame() && nReal < nRealDist ) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, aRectFnSet.GetHeight(aFrm) + nRealDist - nReal ); if( bChgPos && !IsVertLR() ) { aFrm.Pos().AdjustX(nRealDist - nReal ); } OSL_ENSURE( !IsAccessibleFrame(), "bMoveAccFrame has to be set!" ); } } } else if( IsColumnFrame() || IsColBodyFrame() ) { SwTwips nTmp = GetUpper()->Shrink( nReal, bTst, bInfo ); if ( nTmp != nReal ) { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.SetHeight( aFrm, aRectFnSet.GetHeight(aFrm) + nReal - nTmp ); if( bChgPos && !IsVertLR() ) { aFrm.Pos().AdjustX(nTmp - nReal ); } OSL_ENSURE( !IsAccessibleFrame(), "bMoveAccFrame has to be set!" ); nReal = nTmp; } } else { SwTwips nShrink = nReal; SwFrame* pToShrink = GetUpper(); const SwCellFrame* pThisCell = dynamic_cast(this); // NEW TABLES if ( pThisCell && pThisCell->GetLayoutRowSpan() > 1 ) { SwCellFrame& rEndCell = const_cast(pThisCell->FindStartEndOfRowSpanCell( false )); pToShrink = rEndCell.GetUpper(); } nReal = pToShrink ? pToShrink->Shrink( nShrink, bTst, bInfo ) : 0; if( ( SwNeighbourAdjust::GrowAdjust == nAdjust || SwNeighbourAdjust::AdjustGrow == nAdjust ) && nReal < nShrink ) AdjustNeighbourhood( nReal - nShrink ); } if( bMoveAccFrame && IsAccessibleFrame() ) { SwRootFrame *pRootFrame = getRootFrame(); if( pRootFrame && pRootFrame->IsAnyShellAccessible() && pRootFrame->GetCurrShell() ) { pRootFrame->GetCurrShell()->Imp()->MoveAccessibleFrame( this, aOldFrame ); } } if ( !bTst && (IsCellFrame() || IsColumnFrame() ? nReal : nRealDist) ) { SwPageFrame *pPage = FindPageFrame(); if ( GetNext() ) { GetNext()->InvalidatePos_(); if ( GetNext()->IsContentFrame() ) GetNext()->InvalidatePage( pPage ); if ( IsTabFrame() ) static_cast(this)->SetComplete(); } else { if ( IsRetoucheFrame() ) SetRetouche(); if ( IsTabFrame() ) { static_cast(this)->SetComplete(); if ( Lower() ) // Can also be in the Join and be empty! InvalidateNextPos(); } } if ( !IsBodyFrame() ) { InvalidateAll_(); InvalidatePage( pPage ); bool bCompletePaint = true; const SwFrameFormat* pFormat = GetFormat(); if (pFormat) { std::unique_ptr aBack(pFormat->makeBackgroundBrushItem()); const SvxGraphicPosition ePos = aBack ? aBack->GetGraphicPos() : GPOS_NONE; if ( GPOS_NONE == ePos || GPOS_TILED == ePos ) bCompletePaint = false; } if (bCompletePaint) SetCompletePaint(); } if (!(GetType() & (SwFrameType::Row|SwFrameType::Tab|SwFrameType::FtnCont|SwFrameType::Page|SwFrameType::Root))) NotifyLowerObjs(); if( IsCellFrame() ) InvaPercentLowers( nReal ); SwContentFrame *pCnt; if( IsFootnoteFrame() && !static_cast(this)->GetAttr()->GetFootnote().IsEndNote() && ( GetFormat()->GetDoc()->GetFootnoteInfo().m_ePos != FTNPOS_CHAPTER || ( IsInSct() && FindSctFrame()->IsFootnoteAtEnd() ) ) && nullptr != (pCnt = static_cast(this)->GetRefFromAttr() ) ) { if ( pCnt->IsFollow() ) { // If we are in another column/page than the frame with the // reference, we don't need to invalidate its master. SwFrame *pTmp = pCnt->FindFootnoteBossFrame(true) == FindFootnoteBossFrame(true) ? &pCnt->FindMaster()->GetFrame() : pCnt; pTmp->Prepare( PrepareHint::AdjustSizeWithoutFormatting ); pTmp->InvalidateSize(); } else pCnt->InvalidatePos(); } } return nReal; } /** * Changes the size of the directly subsidiary Frame's that have a fixed size, proportionally to the * size change of the PrtArea of the Frame's. * * The variable Frames are also proportionally adapted; they will grow/shrink again by themselves. */ void SwLayoutFrame::ChgLowersProp( const Size& rOldSize ) { // no change of lower properties for root frame or if no lower exists. if ( IsRootFrame() || !Lower() ) return; // declare and init with first lower SwFrame *pLowerFrame = Lower(); // declare and init const booleans and const bool bHeightChgd = rOldSize.Height() != getFramePrintArea().Height(); const bool bWidthChgd = rOldSize.Width() != getFramePrintArea().Width(); SwRectFnSet aRectFnSet(this); // This shortcut basically tries to handle only lower frames that // are affected by the size change. Otherwise much more lower frames // are invalidated. if ( !( aRectFnSet.IsVert() ? bHeightChgd : bWidthChgd ) && ! Lower()->IsColumnFrame() && ( ( IsBodyFrame() && IsInDocBody() && ( !IsInSct() || !FindSctFrame()->IsColLocked() ) ) || // #i10826# Section frames without columns should not // invalidate all lowers! IsSctFrame() ) ) { // Determine page frame the body frame resp. the section frame belongs to. SwPageFrame *pPage = FindPageFrame(); // Determine last lower by traveling through them using . // During travel check each section frame, if it will be sized to // maximum. If Yes, invalidate size of section frame and set // corresponding flags at the page. do { if( pLowerFrame->IsSctFrame() && static_cast(pLowerFrame)->ToMaximize_() ) { pLowerFrame->InvalidateSize_(); pLowerFrame->InvalidatePage( pPage ); } if( pLowerFrame->GetNext() ) pLowerFrame = pLowerFrame->GetNext(); else break; } while( true ); // If found last lower is a section frame containing no section // (section frame isn't valid and will be deleted in the future), // travel backwards. while( pLowerFrame->IsSctFrame() && !static_cast(pLowerFrame)->GetSection() && pLowerFrame->GetPrev() ) pLowerFrame = pLowerFrame->GetPrev(); // If found last lower is a section frame, set to its last // content, if the section frame is valid and is not sized to maximum. // Otherwise set to NULL - In this case body frame only // contains invalid section frames. if( pLowerFrame->IsSctFrame() ) pLowerFrame = static_cast(pLowerFrame)->GetSection() && !static_cast(pLowerFrame)->ToMaximize( false ) ? static_cast(pLowerFrame)->FindLastContent() : nullptr; // continue with found last lower, probably the last content of a section if ( pLowerFrame ) { // If is in a table frame, set to this table // frame and continue. if ( pLowerFrame->IsInTab() ) { // OD 28.10.2002 #97265# - safeguard for setting to // its table frame - check, if the table frame is also a lower // of the body frame, in order to assure that is not // set to a frame, which is an *upper* of the body frame. SwFrame* pTableFrame = pLowerFrame->FindTabFrame(); if ( IsAnLower( pTableFrame ) ) { pLowerFrame = pTableFrame; } } // Check, if variable size of body frame resp. section frame has grown // OD 28.10.2002 #97265# - correct check, if variable size has grown. SwTwips nOldHeight = aRectFnSet.IsVert() ? rOldSize.Width() : rOldSize.Height(); if( nOldHeight < aRectFnSet.GetHeight(getFramePrintArea()) ) { // If variable size of body|section frame has grown, only found // last lower and the position of the its next have to be invalidated. pLowerFrame->InvalidateAll_(); pLowerFrame->InvalidatePage( pPage ); if( !pLowerFrame->IsFlowFrame() || !SwFlowFrame::CastFlowFrame( pLowerFrame )->HasFollow() ) pLowerFrame->InvalidateNextPos( true ); if ( pLowerFrame->IsTextFrame() ) static_cast(pLowerFrame)->Prepare( PrepareHint::AdjustSizeWithoutFormatting ); } else { // variable size of body|section frame has shrunk. Thus, // invalidate all lowers not matching the new body|section size // and the dedicated new last lower. if( aRectFnSet.IsVert() ) { SwTwips nBot = getFrameArea().Left() + getFramePrintArea().Left(); while ( pLowerFrame && pLowerFrame->GetPrev() && pLowerFrame->getFrameArea().Left() < nBot ) { pLowerFrame->InvalidateAll_(); pLowerFrame->InvalidatePage( pPage ); pLowerFrame = pLowerFrame->GetPrev(); } } else { SwTwips nBot = getFrameArea().Top() + getFramePrintArea().Bottom(); while ( pLowerFrame && pLowerFrame->GetPrev() && pLowerFrame->getFrameArea().Top() > nBot ) { pLowerFrame->InvalidateAll_(); pLowerFrame->InvalidatePage( pPage ); pLowerFrame = pLowerFrame->GetPrev(); } } if ( pLowerFrame ) { pLowerFrame->InvalidateSize_(); pLowerFrame->InvalidatePage( pPage ); if ( pLowerFrame->IsTextFrame() ) static_cast(pLowerFrame)->Prepare( PrepareHint::AdjustSizeWithoutFormatting ); } } // #i41694# - improvement by removing duplicates if ( pLowerFrame ) { if ( pLowerFrame->IsInSct() ) { // #i41694# - follow-up of issue #i10826# // No invalidation of section frame, if it's the this. SwFrame* pSectFrame = pLowerFrame->FindSctFrame(); if( pSectFrame != this && IsAnLower( pSectFrame ) ) { pSectFrame->InvalidateSize_(); pSectFrame->InvalidatePage( pPage ); } } } } return; } // end of { special case } // Invalidate page for content only once. bool bInvaPageForContent = true; // Declare booleans and , indicating for text frame // adjustment, if fixed/variable size has changed. bool bFixChgd, bVarChgd; if( aRectFnSet.IsVert() == pLowerFrame->IsNeighbourFrame() ) { bFixChgd = bWidthChgd; bVarChgd = bHeightChgd; } else { bFixChgd = bHeightChgd; bVarChgd = bWidthChgd; } // Declare const unsigned short and init it this frame types // which has fixed width in vertical respectively horizontal layout. // In vertical layout these are neighbour frames (cell and column frames), // header frames and footer frames. // In horizontal layout these are all frames, which aren't neighbour frames. const SwFrameType nFixWidth = aRectFnSet.IsVert() ? (FRM_NEIGHBOUR | FRM_HEADFOOT) : ~SwFrameType(FRM_NEIGHBOUR); // Declare const unsigned short and init it this frame types // which has fixed height in vertical respectively horizontal layout. // In vertical layout these are all frames, which aren't neighbour frames, // header frames, footer frames, body frames or foot note container frames. // In horizontal layout these are neighbour frames. const SwFrameType nFixHeight = aRectFnSet.IsVert() ? ~SwFrameType(FRM_NEIGHBOUR | FRM_HEADFOOT | FRM_BODYFTNC) : FRM_NEIGHBOUR; // Travel through all lowers using while ( pLowerFrame ) { if ( pLowerFrame->IsTextFrame() ) { // Text frames will only be invalidated - prepare invalidation if ( bFixChgd ) static_cast(pLowerFrame)->Prepare( PrepareHint::FixSizeChanged ); if ( bVarChgd ) static_cast(pLowerFrame)->Prepare( PrepareHint::AdjustSizeWithoutFormatting ); } else { // If lower isn't a table, row, cell or section frame, adjust its // frame size. const SwFrameType nLowerType = pLowerFrame->GetType(); if ( !(nLowerType & (SwFrameType::Tab|SwFrameType::Row|SwFrameType::Cell|SwFrameType::Section)) ) { if ( bWidthChgd ) { if( nLowerType & nFixWidth ) { // Considering previous conditions: // In vertical layout set width of column, header and // footer frames to its upper width. // In horizontal layout set width of header, footer, // foot note container, foot note, body and no-text // frames to its upper width. SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pLowerFrame); aFrm.Width( getFramePrintArea().Width() ); } else if( rOldSize.Width() && !pLowerFrame->IsFootnoteFrame() ) { // Adjust frame width proportional, if lower isn't a // foot note frame and condition // isn't true. // Considering previous conditions: // In vertical layout these are foot note container, // body and no-text frames. // In horizontal layout these are column and no-text frames. // OD 24.10.2002 #97265# - calculation // Perform calculation of new width, if // one of the coefficients is greater than 50000 SwTwips nNewWidth; if ( (pLowerFrame->getFrameArea().Width() > 50000) || (getFramePrintArea().Width() > 50000) ) { double nNewWidthTmp = ( double(pLowerFrame->getFrameArea().Width()) * double(getFramePrintArea().Width()) ) / double(rOldSize.Width()); nNewWidth = SwTwips(nNewWidthTmp); } else { nNewWidth = (pLowerFrame->getFrameArea().Width() * getFramePrintArea().Width()) / rOldSize.Width(); } SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pLowerFrame); aFrm.Width( nNewWidth ); } } if ( bHeightChgd ) { if( nLowerType & nFixHeight ) { // Considering previous conditions: // In vertical layout set height of foot note and // no-text frames to its upper height. // In horizontal layout set height of column frames // to its upper height. SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pLowerFrame); aFrm.Height( getFramePrintArea().Height() ); } // OD 01.10.2002 #102211# // add conditions IsHeaderFrame()> and // IsFooterFrame()> in order to avoid that // the of header or footer are overwritten. // NOTE: Height of header/footer frame is determined by contents. else if ( rOldSize.Height() && !pLowerFrame->IsFootnoteFrame() && !pLowerFrame->IsHeaderFrame() && !pLowerFrame->IsFooterFrame() ) { // Adjust frame height proportional, if lower isn't a // foot note, a header or a footer frame and // condition isn't true. // Considering previous conditions: // In vertical layout these are column, foot note container, // body and no-text frames. // In horizontal layout these are column, foot note // container, body and no-text frames. // OD 29.10.2002 #97265# - special case for page lowers // The page lowers that have to be adjusted on page height // change are the body frame and the foot note container // frame. // In vertical layout the height of both is directly // adjusted to the page height change. // In horizontal layout the height of the body frame is // directly adjusted to the page height change and the // foot note frame height isn't touched, because its // determined by its content. // OD 31.03.2003 #108446# - apply special case for page // lowers - see description above - also for section columns. if ( IsPageFrame() || ( IsColumnFrame() && IsInSct() ) ) { OSL_ENSURE( pLowerFrame->IsBodyFrame() || pLowerFrame->IsFootnoteContFrame(), "ChgLowersProp - only for body or foot note container" ); if ( pLowerFrame->IsBodyFrame() || pLowerFrame->IsFootnoteContFrame() ) { if ( IsVertical() || pLowerFrame->IsBodyFrame() ) { SwTwips nNewHeight = pLowerFrame->getFrameArea().Height() + ( getFramePrintArea().Height() - rOldSize.Height() ); if ( nNewHeight < 0) { // OD 01.04.2003 #108446# - adjust assertion condition and text OSL_ENSURE( !( IsPageFrame() && (pLowerFrame->getFrameArea().Height()>0) && (pLowerFrame->isFrameAreaDefinitionValid()) ), "ChgLowersProg - negative height for lower."); nNewHeight = 0; } SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pLowerFrame); aFrm.Height( nNewHeight ); } } } else { SwTwips nNewHeight; // OD 24.10.2002 #97265# - calculation // Perform calculation of new height, if // one of the coefficients is greater than 50000 if ( (pLowerFrame->getFrameArea().Height() > 50000) || (getFramePrintArea().Height() > 50000) ) { double nNewHeightTmp = ( double(pLowerFrame->getFrameArea().Height()) * double(getFramePrintArea().Height()) ) / double(rOldSize.Height()); nNewHeight = SwTwips(nNewHeightTmp); } else { nNewHeight = ( pLowerFrame->getFrameArea().Height() * getFramePrintArea().Height() ) / rOldSize.Height(); } if( !pLowerFrame->GetNext() ) { SwTwips nSum = getFramePrintArea().Height(); SwFrame* pTmp = Lower(); while( pTmp->GetNext() ) { if( !pTmp->IsFootnoteContFrame() || !pTmp->IsVertical() ) nSum -= pTmp->getFrameArea().Height(); pTmp = pTmp->GetNext(); } if( nSum - nNewHeight == 1 && nSum == pLowerFrame->getFrameArea().Height() ) nNewHeight = nSum; } SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*pLowerFrame); aFrm.Height( nNewHeight ); } } } } } // end of else { NOT text frame } pLowerFrame->InvalidateAll_(); if ( bInvaPageForContent && pLowerFrame->IsContentFrame() ) { pLowerFrame->InvalidatePage(); bInvaPageForContent = false; } if ( !pLowerFrame->GetNext() && pLowerFrame->IsRetoucheFrame() ) { //If a growth took place and the subordinate elements can retouch //itself (currently Tabs, Sections and Content) we trigger it. if ( rOldSize.Height() < getFramePrintArea().SSize().Height() || rOldSize.Width() < getFramePrintArea().SSize().Width() ) pLowerFrame->SetRetouche(); } pLowerFrame = pLowerFrame->GetNext(); } // Finally adjust the columns if width is set to auto // Possible optimization: execute this code earlier in this function and // return??? if ( ( (aRectFnSet.IsVert() && bHeightChgd) || (! aRectFnSet.IsVert() && bWidthChgd) ) && Lower()->IsColumnFrame() ) { // get column attribute const SwFormatCol* pColAttr = nullptr; if ( IsPageBodyFrame() ) { OSL_ENSURE( GetUpper()->IsPageFrame(), "Upper is not page frame" ); pColAttr = &GetUpper()->GetFormat()->GetCol(); } else { OSL_ENSURE( IsFlyFrame() || IsSctFrame(), "Columns not in fly or section" ); pColAttr = &GetFormat()->GetCol(); } if ( pColAttr->IsOrtho() && pColAttr->GetNumCols() > 1 ) AdjustColumns( pColAttr, false ); } } /** "Formats" the Frame; Frame and PrtArea. * * The Fixsize is not set here. */ void SwLayoutFrame::Format( vcl::RenderContext* /*pRenderContext*/, const SwBorderAttrs *pAttrs ) { OSL_ENSURE( pAttrs, "LayoutFrame::Format, pAttrs is 0." ); if ( isFramePrintAreaValid() && isFrameAreaSizeValid() ) return; bool bHideWhitespace = false; if (IsPageFrame()) { SwViewShell* pShell = getRootFrame()->GetCurrShell(); if (pShell && pShell->GetViewOptions()->IsWhitespaceHidden()) { // This is needed so that no space is reserved for the margin on // the last page of the document. Other pages would have no margin // set even without this, as their frame height is the content // height already. bHideWhitespace = true; } } const sal_uInt16 nLeft = static_cast(pAttrs->CalcLeft(this)); const sal_uInt16 nUpper = bHideWhitespace ? 0 : pAttrs->CalcTop(); const sal_uInt16 nRight = static_cast(pAttrs->CalcRight(this)); const sal_uInt16 nLower = bHideWhitespace ? 0 : pAttrs->CalcBottom(); const bool bVert = IsVertical() && !IsPageFrame(); SwRectFn fnRect = bVert ? ( IsVertLR() ? (IsVertLRBT() ? fnRectVertL2RB2T : fnRectVertL2R) : fnRectVert ) : fnRectHori; if ( !isFramePrintAreaValid() ) { setFramePrintAreaValid(true); (this->*fnRect->fnSetXMargins)( nLeft, nRight ); (this->*fnRect->fnSetYMargins)( nUpper, nLower ); } if ( !isFrameAreaSizeValid() ) { if ( !HasFixSize() ) { const SwTwips nBorder = nUpper + nLower; const SwFormatFrameSize &rSz = GetFormat()->GetFrameSize(); SwTwips nMinHeight = rSz.GetHeightSizeType() == SwFrameSize::Minimum ? rSz.GetHeight() : 0; do { setFrameAreaSizeValid(true); //The size in VarSize is calculated using the content plus the // borders. SwTwips nRemaining = 0; SwFrame *pFrame = Lower(); while ( pFrame ) { nRemaining += (pFrame->getFrameArea().*fnRect->fnGetHeight)(); if( pFrame->IsTextFrame() && static_cast(pFrame)->IsUndersized() ) // This TextFrame would like to be a bit bigger nRemaining += static_cast(pFrame)->GetParHeight() - (pFrame->getFramePrintArea().*fnRect->fnGetHeight)(); else if( pFrame->IsSctFrame() && static_cast(pFrame)->IsUndersized() ) nRemaining += static_cast(pFrame)->Undersize(); pFrame = pFrame->GetNext(); } nRemaining += nBorder; nRemaining = std::max( nRemaining, nMinHeight ); const SwTwips nDiff = nRemaining-(getFrameArea().*fnRect->fnGetHeight)(); const long nOldLeft = (getFrameArea().*fnRect->fnGetLeft)(); const long nOldTop = (getFrameArea().*fnRect->fnGetTop)(); if ( nDiff ) { if ( nDiff > 0 ) Grow( nDiff ); else Shrink( -nDiff ); //Updates the positions using the fast channel. MakePos(); } //Don't exceed the bottom edge of the Upper. if ( GetUpper() && (getFrameArea().*fnRect->fnGetHeight)() ) { const SwTwips nLimit = (GetUpper()->*fnRect->fnGetPrtBottom)(); if( (this->*fnRect->fnSetLimit)( nLimit ) && nOldLeft == (getFrameArea().*fnRect->fnGetLeft)() && nOldTop == (getFrameArea().*fnRect->fnGetTop)() ) { setFrameAreaSizeValid(true); setFramePrintAreaValid(true); } } } while ( !isFrameAreaSizeValid() ); } else if (GetType() & FRM_HEADFOOT) { do { if ( getFrameArea().Height() != pAttrs->GetSize().Height() ) { ChgSize( Size( getFrameArea().Width(), pAttrs->GetSize().Height())); } setFrameAreaSizeValid(true); MakePos(); } while ( !isFrameAreaSizeValid() ); } else { setFrameAreaSizeValid(true); } // While updating the size, PrtArea might be invalidated. if (!isFramePrintAreaValid()) { setFramePrintAreaValid(true); (this->*fnRect->fnSetXMargins)(nLeft, nRight); (this->*fnRect->fnSetYMargins)(nUpper, nLower); } } } static void InvaPercentFlys( SwFrame *pFrame, SwTwips nDiff ) { OSL_ENSURE( pFrame->GetDrawObjs(), "Can't find any Objects" ); for (SwAnchoredObject* pAnchoredObj : *pFrame->GetDrawObjs()) { if ( dynamic_cast< const SwFlyFrame *>( pAnchoredObj ) != nullptr ) { SwFlyFrame *pFly = static_cast(pAnchoredObj); const SwFormatFrameSize &rSz = pFly->GetFormat()->GetFrameSize(); if ( rSz.GetWidthPercent() || rSz.GetHeightPercent() ) { bool bNotify = true; // If we've a fly with more than 90% relative height... if( rSz.GetHeightPercent() > 90 && pFly->GetAnchorFrame() && rSz.GetHeightPercent() != SwFormatFrameSize::SYNCED && nDiff ) { const SwFrame *pRel = pFly->IsFlyLayFrame() ? pFly->GetAnchorFrame(): pFly->GetAnchorFrame()->GetUpper(); // ... and we have already more than 90% height and we // not allow the text to go through... // then a notification could cause an endless loop, e.g. // 100% height and no text wrap inside a cell of a table. if( pFly->getFrameArea().Height()*10 > ( nDiff + pRel->getFramePrintArea().Height() )*9 && pFly->GetFormat()->GetSurround().GetSurround() != css::text::WrapTextMode_THROUGH ) bNotify = false; } if( bNotify ) pFly->InvalidateSize(); } } } } void SwLayoutFrame::InvaPercentLowers( SwTwips nDiff ) { if ( GetDrawObjs() ) ::InvaPercentFlys( this, nDiff ); SwFrame *pFrame = ContainsContent(); if ( pFrame ) do { if ( pFrame->IsInTab() && !IsTabFrame() ) { SwFrame *pTmp = pFrame->FindTabFrame(); OSL_ENSURE( pTmp, "Where's my TabFrame?" ); if( IsAnLower( pTmp ) ) pFrame = pTmp; } if ( pFrame->IsTabFrame() ) { const SwFormatFrameSize &rSz = static_cast(pFrame)->GetFormat()->GetFrameSize(); if ( rSz.GetWidthPercent() || rSz.GetHeightPercent() ) pFrame->InvalidatePrt(); } else if ( pFrame->GetDrawObjs() ) ::InvaPercentFlys( pFrame, nDiff ); pFrame = pFrame->FindNextCnt(); } while ( pFrame && IsAnLower( pFrame ) ) ; } long SwLayoutFrame::CalcRel( const SwFormatFrameSize &rSz ) const { long nRet = rSz.GetWidth(), nPercent = rSz.GetWidthPercent(); if ( nPercent ) { const SwFrame *pRel = GetUpper(); long nRel = LONG_MAX; const SwViewShell *pSh = getRootFrame()->GetCurrShell(); const bool bBrowseMode = pSh && pSh->GetViewOptions()->getBrowseMode(); if( pRel->IsPageBodyFrame() && pSh && bBrowseMode && pSh->VisArea().Width() ) { nRel = pSh->GetBrowseWidth(); long nDiff = nRel - pRel->getFramePrintArea().Width(); if ( nDiff > 0 ) nRel -= nDiff; } nRel = std::min( nRel, pRel->getFramePrintArea().Width() ); nRet = nRel * nPercent / 100; } return nRet; } // Local helpers for SwLayoutFrame::FormatWidthCols() static long lcl_CalcMinColDiff( SwLayoutFrame *pLayFrame ) { long nDiff = 0, nFirstDiff = 0; SwLayoutFrame *pCol = static_cast(pLayFrame->Lower()); OSL_ENSURE( pCol, "Where's the columnframe?" ); SwFrame *pFrame = pCol->Lower(); do { if( pFrame && pFrame->IsBodyFrame() ) pFrame = static_cast(pFrame)->Lower(); if ( pFrame && pFrame->IsTextFrame() ) { const long nTmp = static_cast(pFrame)->FirstLineHeight(); if ( nTmp != USHRT_MAX ) { if ( pCol == pLayFrame->Lower() ) nFirstDiff = nTmp; else nDiff = nDiff ? std::min( nDiff, nTmp ) : nTmp; } } //Skip empty columns! pCol = static_cast(pCol->GetNext()); while ( pCol && nullptr == (pFrame = pCol->Lower()) ) pCol = static_cast(pCol->GetNext()); } while ( pFrame && pCol ); return nDiff ? nDiff : nFirstDiff ? nFirstDiff : 240; } static bool lcl_IsFlyHeightClipped( SwLayoutFrame *pLay ) { SwFrame *pFrame = pLay->ContainsContent(); while ( pFrame ) { if ( pFrame->IsInTab() ) pFrame = pFrame->FindTabFrame(); if ( pFrame->GetDrawObjs() ) { const size_t nCnt = pFrame->GetDrawObjs()->size(); for ( size_t i = 0; i < nCnt; ++i ) { SwAnchoredObject* pAnchoredObj = (*pFrame->GetDrawObjs())[i]; if ( dynamic_cast< const SwFlyFrame *>( pAnchoredObj ) != nullptr ) { SwFlyFrame* pFly = static_cast(pAnchoredObj); if ( pFly->IsHeightClipped() && ( !pFly->IsFlyFreeFrame() || pFly->GetPageFrame() ) ) return true; } } } pFrame = pFrame->FindNextCnt(); } return false; } void SwLayoutFrame::FormatWidthCols( const SwBorderAttrs &rAttrs, const SwTwips nBorder, const SwTwips nMinHeight ) { //If there are columns involved, the size is adjusted using the last column. //1. Format content. //2. Calculate height of the last column: if it's too big, the Fly has to // grow. The amount by which the Fly grows is not the amount of the // overhang because we have to act on the assumption that some text flows // back which will generate some more space. // The amount which we grow by equals the overhang // divided by the amount of columns or the overhang itself if it's smaller // than the amount of columns. //3. Go back to 1. until everything is stable. const SwFormatCol &rCol = rAttrs.GetAttrSet().GetCol(); const sal_uInt16 nNumCols = rCol.GetNumCols(); bool bEnd = false; bool bBackLock = false; SwViewShell *pSh = getRootFrame()->GetCurrShell(); SwViewShellImp *pImp = pSh ? pSh->Imp() : nullptr; vcl::RenderContext* pRenderContext = pSh ? pSh->GetOut() : nullptr; { // Underlying algorithm // We try to find the optimal height for the column. // nMinimum starts with the passed minimum height and is then remembered // as the maximum height on which column content still juts out of a // column. // nMaximum starts with LONG_MAX and is then remembered as the minimum // width on which the content fitted. // In column based sections nMaximum starts at the maximum value which // the surrounding defines, this can certainly be a value on which // content still juts out. // The columns are formatted. If content still juts out, nMinimum is // adjusted accordingly, then we grow, at least by uMinDiff but not // over a certain nMaximum. If no content juts out but there is still // some space left in the column, shrinking is done accordingly, at // least by nMindIff but not below the nMinimum. // Cancel as soon as no content juts out and the difference from minimum // to maximum is less than MinDiff or the maximum which was defined by // the surrounding is reached even if some content still juts out. // Criticism of this implementation // 1. Theoretically situations are possible in which the content fits in // a lower height but not in a higher height. To ensure that the code // handles such situations the code contains a few checks concerning // minimum and maximum which probably are never triggered. // 2. We use the same nMinDiff for shrinking and growing, but nMinDiff // is more or less the smallest first line height and doesn't seem ideal // as minimum value. long nMinimum = nMinHeight; long nMaximum; bool bNoBalance = false; SwRectFnSet aRectFnSet(this); if( IsSctFrame() ) { nMaximum = aRectFnSet.GetHeight(getFrameArea()) - nBorder + aRectFnSet.BottomDist(getFrameArea(), aRectFnSet.GetPrtBottom(*GetUpper())); nMaximum += GetUpper()->Grow( LONG_MAX, true ); if( nMaximum < nMinimum ) { if( nMaximum < 0 ) nMinimum = nMaximum = 0; else nMinimum = nMaximum; } if( nMaximum > BROWSE_HEIGHT ) nMaximum = BROWSE_HEIGHT; bNoBalance = static_cast(this)->GetSection()->GetFormat()-> GetBalancedColumns().GetValue(); SwFrame* pAny = ContainsAny(); if( bNoBalance || ( !aRectFnSet.GetHeight(getFrameArea()) && pAny ) ) { long nTop = aRectFnSet.GetTopMargin(*this); // #i23129# - correction // to the calculated maximum height. { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.AddBottom( aFrm, nMaximum - aRectFnSet.GetHeight(getFrameArea()) ); } if( nTop > nMaximum ) nTop = nMaximum; aRectFnSet.SetYMargins( *this, nTop, 0 ); } if( !pAny && !static_cast(this)->IsFootnoteLock() ) { SwFootnoteContFrame* pFootnoteCont = static_cast(this)->ContainsFootnoteCont(); if( pFootnoteCont ) { SwFrame* pFootnoteAny = pFootnoteCont->ContainsAny(); if( pFootnoteAny && pFootnoteAny->isFrameAreaDefinitionValid() ) { bBackLock = true; static_cast(this)->SetFootnoteLock( true ); } } } } else nMaximum = LONG_MAX; // #i3317# - reset temporarily consideration // of wrapping style influence SwPageFrame* pPageFrame = FindPageFrame(); SwSortedObjs* pObjs = pPageFrame ? pPageFrame->GetSortedObjs() : nullptr; if ( pObjs ) { for (SwAnchoredObject* pAnchoredObj : *pObjs) { if ( IsAnLower( pAnchoredObj->GetAnchorFrame() ) ) { pAnchoredObj->SetTmpConsiderWrapInfluence( false ); } } } do { //Could take a while therefore check for Waitcrsr here. if ( pImp ) pImp->CheckWaitCursor(); setFrameAreaSizeValid(true); //First format the column as this will relieve the stack a bit. //Also set width and height of the column (if they are wrong) //while we are at it. SwLayoutFrame *pCol = static_cast(Lower()); // #i27399# // Simply setting the column width based on the values returned by // CalcColWidth does not work for automatic column width. AdjustColumns( &rCol, false ); for ( sal_uInt16 i = 0; i < nNumCols; ++i ) { pCol->Calc(pRenderContext); // ColumnFrames have a BodyFrame now, which needs to be calculated pCol->Lower()->Calc(pRenderContext); if( pCol->Lower()->GetNext() ) pCol->Lower()->GetNext()->Calc(pRenderContext); // SwFootnoteCont pCol = static_cast(pCol->GetNext()); } ::CalcContent( this ); pCol = static_cast(Lower()); OSL_ENSURE( pCol && pCol->GetNext(), ":-( column making holidays?"); // set bMinDiff if no empty columns exist bool bMinDiff = true; // OD 28.03.2003 #108446# - check for all column content and all columns while ( bMinDiff && pCol ) { bMinDiff = nullptr != pCol->ContainsContent(); pCol = static_cast(pCol->GetNext()); } pCol = static_cast(Lower()); // OD 28.03.2003 #108446# - initialize local variable SwTwips nDiff = 0; SwTwips nMaxFree = 0; SwTwips nAllFree = LONG_MAX; // set bFoundLower if there is at least one non-empty column bool bFoundLower = false; while( pCol ) { SwLayoutFrame* pLay = static_cast(pCol->Lower()); SwTwips nInnerHeight = aRectFnSet.GetHeight(pLay->getFrameArea()) - aRectFnSet.GetHeight(pLay->getFramePrintArea()); if( pLay->Lower() ) { bFoundLower = true; nInnerHeight += pLay->InnerHeight(); } else if( nInnerHeight < 0 ) nInnerHeight = 0; if( pLay->GetNext() ) { bFoundLower = true; pLay = static_cast(pLay->GetNext()); OSL_ENSURE( pLay->IsFootnoteContFrame(),"FootnoteContainer expected" ); nInnerHeight += pLay->InnerHeight(); nInnerHeight += aRectFnSet.GetHeight(pLay->getFrameArea()) - aRectFnSet.GetHeight(pLay->getFramePrintArea()); } nInnerHeight -= aRectFnSet.GetHeight(pCol->getFramePrintArea()); if( nInnerHeight > nDiff ) { nDiff = nInnerHeight; nAllFree = 0; } else { if( nMaxFree < -nInnerHeight ) nMaxFree = -nInnerHeight; if( nAllFree > -nInnerHeight ) nAllFree = -nInnerHeight; } pCol = static_cast(pCol->GetNext()); } if ( bFoundLower || ( IsSctFrame() && static_cast(this)->HasFollow() ) ) { SwTwips nMinDiff = ::lcl_CalcMinColDiff( this ); // Here we decide if growing is needed - this is the case, if // column content (nDiff) or a Fly juts over. // In sections with columns we take into account to set the size // when having a non-empty Follow. if ( nDiff || ::lcl_IsFlyHeightClipped( this ) || ( IsSctFrame() && static_cast(this)->CalcMinDiff( nMinDiff ) ) ) { long nPrtHeight = aRectFnSet.GetHeight(getFramePrintArea()); // The minimum must not be smaller than our PrtHeight as // long as something juts over. if( nMinimum < nPrtHeight ) nMinimum = nPrtHeight; // The maximum must not be smaller than PrtHeight if // something still juts over. if( nMaximum < nPrtHeight ) nMaximum = nPrtHeight; // Robust, but will this ever happen? if( !nDiff ) // If only Flys jut over, we grow by nMinDiff nDiff = nMinDiff; // If we should grow more than by nMinDiff we split it over // the columns if ( std::abs(nDiff - nMinDiff) > nNumCols && nDiff > static_cast(nNumCols) ) nDiff /= nNumCols; if ( bMinDiff ) { // If no empty column exists, we want to grow at least // by nMinDiff. Special case: If we are smaller than the // minimal FrameHeight and PrtHeight is smaller than // nMindiff we grow in a way that PrtHeight is exactly // nMinDiff afterwards. long nFrameHeight = aRectFnSet.GetHeight(getFrameArea()); if ( nFrameHeight > nMinHeight || nPrtHeight >= nMinDiff ) nDiff = std::max( nDiff, nMinDiff ); else if( nDiff < nMinDiff ) nDiff = nMinDiff - nPrtHeight + 1; } // nMaximum has a size which fits the content or the // requested value from the surrounding therefore we don't // need to exceed this value. if( nDiff + nPrtHeight > nMaximum ) nDiff = nMaximum - nPrtHeight; } else if( nMaximum > nMinimum ) // We fit, do we still have some margin? { long nPrtHeight = aRectFnSet.GetHeight(getFramePrintArea()); if ( nMaximum < nPrtHeight ) nDiff = nMaximum - nPrtHeight; // We grew over a working // height and shrink back to it, but will this ever // happen? else { // We have a new maximum, a size which fits for the content. nMaximum = nPrtHeight; // If the margin in the column is bigger than nMinDiff // and we therefore drop under the minimum, we deflate // a bit. if ( !bNoBalance && // #i23129# - can be // big, because of an object at the beginning of // a column. Thus, decrease optimization here. //nMaxFree >= nMinDiff && nMaxFree > 0 && ( !nAllFree || nMinimum < nPrtHeight - nMinDiff ) ) { nMaxFree /= nNumCols; // disperse over the columns nDiff = nMaxFree < nMinDiff ? -nMinDiff : -nMaxFree; // min nMinDiff if( nPrtHeight + nDiff <= nMinimum ) // below the minimum? nDiff = ( nMinimum - nMaximum ) / 2; // Take the center } else if( nAllFree ) { nDiff = -nAllFree; if( nPrtHeight + nDiff <= nMinimum ) // Less than minimum? nDiff = ( nMinimum - nMaximum ) / 2; // Take the center } } } if( nDiff ) // now we shrink or grow... { Size aOldSz( getFramePrintArea().SSize() ); long nTop = aRectFnSet.GetTopMargin(*this); nDiff = aRectFnSet.GetHeight(getFramePrintArea()) + nDiff + nBorder - aRectFnSet.GetHeight(getFrameArea()); { SwFrameAreaDefinition::FrameAreaWriteAccess aFrm(*this); aRectFnSet.AddBottom( aFrm, nDiff ); } // #i68520# SwFlyFrame *pFlyFrame = dynamic_cast(this); if (pFlyFrame) { pFlyFrame->InvalidateObjRectWithSpaces(); } aRectFnSet.SetYMargins( *this, nTop, nBorder - nTop ); ChgLowersProp( aOldSz ); NotifyLowerObjs(); // #i3317# - reset temporarily consideration // of wrapping style influence SwPageFrame* pTmpPageFrame = FindPageFrame(); SwSortedObjs* pTmpObjs = pTmpPageFrame ? pTmpPageFrame->GetSortedObjs() : nullptr; if ( pTmpObjs ) { for (SwAnchoredObject* pAnchoredObj : *pTmpObjs) { if ( IsAnLower( pAnchoredObj->GetAnchorFrame() ) ) { pAnchoredObj->SetTmpConsiderWrapInfluence( false ); } } } //Invalidate suitable to nicely balance the Frames. //- Every first one after the second column gets a // InvalidatePos(); pCol = static_cast(Lower()->GetNext()); while ( pCol ) { SwFrame *pLow = pCol->Lower(); if ( pLow ) pLow->InvalidatePos_(); pCol = static_cast(pCol->GetNext()); } if( IsSctFrame() && static_cast(this)->HasFollow() ) { // If we created a Follow, we need to give its content // the opportunity to flow back inside the CalcContent SwContentFrame* pTmpContent = static_cast(this)->GetFollow()->ContainsContent(); if( pTmpContent ) pTmpContent->InvalidatePos_(); } } else bEnd = true; } else bEnd = true; } while ( !bEnd || !isFrameAreaSizeValid() ); } // OD 01.04.2003 #108446# - Don't collect endnotes for sections. Thus, set // 2nd parameter to . ::CalcContent( this, true ); if( IsSctFrame() ) { // OD 14.03.2003 #i11760# - adjust 2nd parameter - sal_True --> true ::CalcContent( this, true ); if( bBackLock ) static_cast(this)->SetFootnoteLock( false ); } } static SwContentFrame* lcl_InvalidateSection( SwFrame *pCnt, SwInvalidateFlags nInv ) { SwSectionFrame* pSect = pCnt->FindSctFrame(); // If our ContentFrame is placed inside a table or a footnote, only sections // which are also placed inside are meant. // Exception: If a table is directly passed. if( ( ( pCnt->IsInTab() && !pSect->IsInTab() ) || ( pCnt->IsInFootnote() && !pSect->IsInFootnote() ) ) && !pCnt->IsTabFrame() ) return nullptr; if( nInv & SwInvalidateFlags::Size ) pSect->InvalidateSize_(); if( nInv & SwInvalidateFlags::Pos ) pSect->InvalidatePos_(); if( nInv & SwInvalidateFlags::PrtArea ) pSect->InvalidatePrt_(); SwFlowFrame *pFoll = pSect->GetFollow(); // Temporary separation from follow pSect->SetFollow( nullptr ); SwContentFrame* pRet = pSect->FindLastContent(); pSect->SetFollow( pFoll ); return pRet; } static SwContentFrame* lcl_InvalidateTable( SwTabFrame *pTable, SwInvalidateFlags nInv ) { if( ( nInv & SwInvalidateFlags::Section ) && pTable->IsInSct() ) lcl_InvalidateSection( pTable, nInv ); if( nInv & SwInvalidateFlags::Size ) pTable->InvalidateSize_(); if( nInv & SwInvalidateFlags::Pos ) pTable->InvalidatePos_(); if( nInv & SwInvalidateFlags::PrtArea ) pTable->InvalidatePrt_(); return pTable->FindLastContent(); } static void lcl_InvalidateAllContent( SwContentFrame *pCnt, SwInvalidateFlags nInv ); static void lcl_InvalidateContent( SwContentFrame *pCnt, SwInvalidateFlags nInv ) { SwContentFrame *pLastTabCnt = nullptr; SwContentFrame *pLastSctCnt = nullptr; while ( pCnt ) { if( nInv & SwInvalidateFlags::Section ) { if( pCnt->IsInSct() ) { // See above at tables if( !pLastSctCnt ) pLastSctCnt = lcl_InvalidateSection( pCnt, nInv ); if( pLastSctCnt == pCnt ) pLastSctCnt = nullptr; } #if OSL_DEBUG_LEVEL > 0 else OSL_ENSURE( !pLastSctCnt, "Where's the last SctContent?" ); #endif } if( nInv & SwInvalidateFlags::Table ) { if( pCnt->IsInTab() ) { // To not call FindTabFrame() for each ContentFrame of a table and // then invalidate the table, we remember the last ContentFrame of // the table and ignore IsInTab() until we are past it. // When entering the table, LastSctCnt is set to null, so // sections inside the table are correctly invalidated. // If the table itself is in a section the // invalidation is done three times, which is acceptable. if( !pLastTabCnt ) { pLastTabCnt = lcl_InvalidateTable( pCnt->FindTabFrame(), nInv ); pLastSctCnt = nullptr; } if( pLastTabCnt == pCnt ) { pLastTabCnt = nullptr; pLastSctCnt = nullptr; } } #if OSL_DEBUG_LEVEL > 0 else OSL_ENSURE( !pLastTabCnt, "Where's the last TabContent?" ); #endif } if( nInv & SwInvalidateFlags::Size ) pCnt->Prepare( PrepareHint::Clear, nullptr, false ); if( nInv & SwInvalidateFlags::Pos ) pCnt->InvalidatePos_(); if( nInv & SwInvalidateFlags::PrtArea ) pCnt->InvalidatePrt_(); if ( nInv & SwInvalidateFlags::LineNum ) pCnt->InvalidateLineNum(); if ( pCnt->GetDrawObjs() ) lcl_InvalidateAllContent( pCnt, nInv ); pCnt = pCnt->GetNextContentFrame(); } } static void lcl_InvalidateAllContent( SwContentFrame *pCnt, SwInvalidateFlags nInv ) { SwSortedObjs &rObjs = *pCnt->GetDrawObjs(); for (SwAnchoredObject* pAnchoredObj : rObjs) { if ( dynamic_cast< const SwFlyFrame *>( pAnchoredObj ) != nullptr ) { SwFlyFrame *pFly = static_cast(pAnchoredObj); if ( pFly->IsFlyInContentFrame() ) { ::lcl_InvalidateContent( pFly->ContainsContent(), nInv ); if( nInv & SwInvalidateFlags::Direction ) pFly->CheckDirChange(); } } } } void SwRootFrame::InvalidateAllContent( SwInvalidateFlags nInv ) { // First process all page bound FlyFrames. SwPageFrame *pPage = static_cast(Lower()); while( pPage ) { pPage->InvalidateFlyLayout(); pPage->InvalidateFlyContent(); pPage->InvalidateFlyInCnt(); pPage->InvalidateLayout(); pPage->InvalidateContent(); pPage->InvalidatePage( pPage ); // So even the Turbo disappears if applicable if ( pPage->GetSortedObjs() ) { const SwSortedObjs &rObjs = *pPage->GetSortedObjs(); for (SwAnchoredObject* pAnchoredObj : rObjs) { if ( dynamic_cast< const SwFlyFrame *>( pAnchoredObj ) != nullptr ) { SwFlyFrame* pFly = static_cast(pAnchoredObj); ::lcl_InvalidateContent( pFly->ContainsContent(), nInv ); if ( nInv & SwInvalidateFlags::Direction ) pFly->CheckDirChange(); } } } if( nInv & SwInvalidateFlags::Direction ) pPage->CheckDirChange(); pPage = static_cast(pPage->GetNext()); } //Invalidate the whole document content and the character bound Flys here. ::lcl_InvalidateContent( ContainsContent(), nInv ); if( nInv & SwInvalidateFlags::PrtArea ) { SwViewShell *pSh = getRootFrame()->GetCurrShell(); if( pSh ) pSh->InvalidateWindows( getFrameArea() ); } } /** * Invalidate/re-calculate the position of all floating screen objects (Writer fly frames and * drawing objects), that are anchored to paragraph or to character. (2004-03-16 #i11860#) */ void SwRootFrame::InvalidateAllObjPos() { const SwPageFrame* pPageFrame = static_cast(Lower()); while( pPageFrame ) { pPageFrame->InvalidateFlyLayout(); if ( pPageFrame->GetSortedObjs() ) { const SwSortedObjs& rObjs = *(pPageFrame->GetSortedObjs()); for (SwAnchoredObject* pAnchoredObj : rObjs) { const SwFormatAnchor& rAnch = pAnchoredObj->GetFrameFormat().GetAnchor(); if ((rAnch.GetAnchorId() != RndStdIds::FLY_AT_PARA) && (rAnch.GetAnchorId() != RndStdIds::FLY_AT_CHAR)) { // only to paragraph and to character anchored objects are considered. continue; } // #i28701# - special invalidation for anchored // objects, whose wrapping style influence has to be considered. if ( pAnchoredObj->ConsiderObjWrapInfluenceOnObjPos() ) pAnchoredObj->InvalidateObjPosForConsiderWrapInfluence(); else pAnchoredObj->InvalidateObjPos(); } } pPageFrame = static_cast(pPageFrame->GetNext()); } } static void AddRemoveFlysForNode( SwTextFrame & rFrame, SwTextNode & rTextNode, std::set *const pSkipped, SwFrameFormats & rTable, SwPageFrame *const pPage, SwTextNode const*const pNode, std::vector::const_iterator & rIterFirst, std::vector::const_iterator const& rIterEnd, SwTextNode const*const pFirstNode, SwTextNode const*const pLastNode) { if (pNode == &rTextNode) { // remove existing hidden at-char anchored flys RemoveHiddenObjsOfNode(rTextNode, &rIterFirst, &rIterEnd, pFirstNode, pLastNode); } else if (rTextNode.GetIndex() < pNode->GetIndex()) { // pNode's frame has been deleted by CheckParaRedlineMerge() AppendObjsOfNode(&rTable, pNode->GetIndex(), &rFrame, pPage, rTextNode.GetDoc(), &rIterFirst, &rIterEnd, pFirstNode, pLastNode); if (pSkipped) { // if a fly has been added by AppendObjsOfNode, it must be skipped; if not, then it doesn't matter if it's skipped or not because it has no frames and because of that it would be skipped anyway if (auto const pFlys = pNode->GetAnchoredFlys()) { for (auto const pFly : *pFlys) { if (pFly->Which() != RES_DRAWFRMFMT) { pSkipped->insert(pFly->GetContent().GetContentIdx()->GetIndex()); } } } } } } namespace sw { /// rTextNode is the first one of the "new" merge - if rTextNode isn't the same /// as MergedPara::pFirstNode, then nodes before rTextNode have their flys /// already properly attached, so only the other nodes need handling here. void AddRemoveFlysAnchoredToFrameStartingAtNode( SwTextFrame & rFrame, SwTextNode & rTextNode, std::set *const pSkipped) { auto const pMerged(rFrame.GetMergedPara()); if (pMerged // do this only *once*, for the *last* frame // otherwise AppendObj would create multiple frames for fly-frames! && !rFrame.GetFollow()) { assert(pMerged->pFirstNode->GetIndex() <= rTextNode.GetIndex() && rTextNode.GetIndex() <= pMerged->pLastNode->GetIndex()); // add visible flys in non-first node to merged frame // (hidden flys remain and are deleted via DelFrames()) SwFrameFormats& rTable(*rTextNode.GetDoc()->GetSpzFrameFormats()); SwPageFrame *const pPage(rFrame.FindPageFrame()); std::vector::const_iterator iterFirst(pMerged->extents.begin()); std::vector::const_iterator iter(iterFirst); SwTextNode const* pNode(pMerged->pFirstNode); for ( ; ; ++iter) { if (iter == pMerged->extents.end() || iter->pNode != pNode) { AddRemoveFlysForNode(rFrame, rTextNode, pSkipped, rTable, pPage, pNode, iterFirst, iter, pMerged->pFirstNode, pMerged->pLastNode); sal_uLong const until = iter == pMerged->extents.end() ? pMerged->pLastNode->GetIndex() + 1 : iter->pNode->GetIndex(); for (sal_uLong i = pNode->GetIndex() + 1; i < until; ++i) { // let's show at-para flys on nodes that contain start/end of // redline too, even if there's no text there SwNode const*const pTmp(pNode->GetNodes()[i]); if (pTmp->GetRedlineMergeFlag() == SwNode::Merge::NonFirst) { AddRemoveFlysForNode(rFrame, rTextNode, pSkipped, rTable, pPage, pTmp->GetTextNode(), iter, iter, pMerged->pFirstNode, pMerged->pLastNode); } } if (iter == pMerged->extents.end()) { break; } pNode = iter->pNode; iterFirst = iter; } } } } } // namespace sw static void UnHideRedlines(SwRootFrame & rLayout, SwNodes & rNodes, SwNode const& rEndOfSectionNode, std::set *const pSkipped) { assert(rEndOfSectionNode.IsEndNode()); assert(rNodes[rEndOfSectionNode.StartOfSectionNode()->GetIndex() + 1]->IsCreateFrameWhenHidingRedlines()); // first node is never hidden for (sal_uLong i = rEndOfSectionNode.StartOfSectionNode()->GetIndex() + 1; i < rEndOfSectionNode.GetIndex(); ++i) { SwNode & rNode(*rNodes[i]); if (rNode.IsTextNode()) // only text nodes are 1st node of a merge { SwTextNode & rTextNode(*rNode.GetTextNode()); SwIterator aIter(rTextNode); std::vector frames; for (SwTextFrame * pFrame = aIter.First(); pFrame; pFrame = aIter.Next()) { if (pFrame->getRootFrame() == &rLayout) { if (pFrame->IsFollow()) { frames.push_back(pFrame); } // when hiding, the loop must remove the anchored flys else // *before* resetting SetMergedPara anywhere - else { // the fly deletion code will access multiple of the // frames with inconsistent MergedPara and assert frames.insert(frames.begin(), pFrame); } } } // this messes with pRegisteredIn so do it outside SwIterator auto eMode(sw::FrameMode::Existing); for (SwTextFrame * pFrame : frames) { if (rLayout.IsHideRedlines()) { assert(!pFrame->GetMergedPara() || !rNode.IsCreateFrameWhenHidingRedlines()); if (rNode.IsCreateFrameWhenHidingRedlines()) { { auto pMerged(CheckParaRedlineMerge(*pFrame, rTextNode, eMode)); pFrame->SetMergedPara(std::move(pMerged)); } auto const pMerged(pFrame->GetMergedPara()); if (pMerged) { // invalidate SwInvalidateFlags::Size pFrame->Prepare(PrepareHint::Clear, nullptr, false); pFrame->InvalidatePage(); if (auto const pObjs = pFrame->GetDrawObjs()) { // also invalidate position of existing flys // because they may need to be moved for (auto const pObject : *pObjs) { pObject->InvalidateObjPos(); } } } sw::AddRemoveFlysAnchoredToFrameStartingAtNode(*pFrame, rTextNode, pSkipped); // only *first* frame of node gets Existing because it eMode = sw::FrameMode::New; // is not idempotent! } } else { if (auto const& pMergedPara = pFrame->GetMergedPara()) { // invalidate SwInvalidateFlags::Size pFrame->Prepare(PrepareHint::Clear, nullptr, false); pFrame->InvalidatePage(); if (auto const pObjs = pFrame->GetDrawObjs()) { // also invalidate position of existing flys for (auto const pObject : *pObjs) { pObject->InvalidateObjPos(); } } // SwFlyAtContentFrame::Modify() always appends to // the master frame, so do the same here. // (RemoveFootnotesForNode must be called at least once) if (!pFrame->IsFollow()) { // the new text frames don't exist yet, so at this point // we can only delete the footnote frames so they don't // point to the merged SwTextFrame any more... assert(&rTextNode == pMergedPara->pFirstNode); // iterate over nodes, not extents: if a node has // no extents now but did have extents initially, // its flys need their frames deleted too! for (sal_uLong j = rTextNode.GetIndex() + 1; j <= pMergedPara->pLastNode->GetIndex(); ++j) { SwNode *const pNode(rTextNode.GetNodes()[j]); assert(!pNode->IsEndNode()); if (pNode->IsStartNode()) { j = pNode->EndOfSectionIndex(); } else if (pNode->IsTextNode()) { sw::RemoveFootnotesForNode(rLayout, *pNode->GetTextNode(), nullptr); // similarly, remove the anchored flys if (auto const pFlys = pNode->GetAnchoredFlys()) { for (SwFrameFormat * pFormat : *pFlys) { pFormat->DelFrames(/*&rLayout*/); } } } } // rely on AppendAllObjs call at the end to add // all flys in first node that are hidden } pFrame->SetMergedPara(nullptr); } } pFrame->Broadcast(SfxHint()); // notify SwAccessibleParagraph } // all nodes, not just merged ones! it may be in the same list as if (rTextNode.IsNumbered(nullptr)) // a preceding merged one... { // notify frames so they reformat numbering portions rTextNode.NumRuleChgd(); } } else if (rNode.IsTableNode() && rLayout.IsHideRedlines()) { SwPosition const tmp(rNode); SwRangeRedline const*const pRedline( rLayout.GetFormat()->GetDoc()->getIDocumentRedlineAccess().GetRedline(tmp, nullptr)); // pathology: redline that starts on a TableNode; cannot // be created in UI but by import filters... if (pRedline && pRedline->GetType() == RedlineType::Delete && &pRedline->Start()->nNode.GetNode() == &rNode) { for (sal_uLong j = rNode.GetIndex(); j <= rNode.EndOfSectionIndex(); ++j) { rNode.GetNodes()[j]->SetRedlineMergeFlag(SwNode::Merge::Hidden); } rNode.GetTableNode()->DelFrames(&rLayout); } } if (!rNode.IsCreateFrameWhenHidingRedlines()) { if (rLayout.IsHideRedlines()) { if (rNode.IsContentNode()) { // note: nothing to do here, already done #ifndef NDEBUG auto const pFrame(static_cast(rNode).getLayoutFrame(&rLayout)); assert(!pFrame || static_cast(pFrame)->GetMergedPara()->pFirstNode != &rNode); #endif } } else { assert(!rNode.IsContentNode() || !rNode.GetContentNode()->getLayoutFrame(&rLayout)); sal_uLong j = i + 1; for ( ; j < rEndOfSectionNode.GetIndex(); ++j) { if (rNodes[j]->IsCreateFrameWhenHidingRedlines()) { break; } } // call MakeFrames once, because sections/tables // InsertCnt_ also checks for hidden sections SwNodeIndex const start(rNodes, i); SwNodeIndex const end(rNodes, j); assert(!bDontCreateObjects); bDontCreateObjects = true; // suppress here, to be called once ::MakeFrames(rLayout.GetFormat()->GetDoc(), start, end); bDontCreateObjects = false; i = j - 1; // will be incremented again } } } } static void UnHideRedlinesExtras(SwRootFrame & rLayout, SwNodes & rNodes, SwNode const& rEndOfExtraSectionNode, std::set *const pSkipped) { assert(rEndOfExtraSectionNode.IsEndNode()); for (sal_uLong i = rEndOfExtraSectionNode.StartOfSectionNode()->GetIndex() + 1; i < rEndOfExtraSectionNode.GetIndex(); ++i) { SwNode const& rStartNode(*rNodes[i]); assert(rStartNode.IsStartNode()); assert(rStartNode.GetRedlineMergeFlag() == SwNode::Merge::None); SwNode const& rEndNode(*rStartNode.EndOfSectionNode()); bool bSkip(pSkipped && pSkipped->find(i) != pSkipped->end()); i = rEndNode.GetIndex(); for (sal_uLong j = rStartNode.GetIndex() + 1; j < i; ++j) { // note: SwStartNode has no way to access the frames, so check // whether the first content-node inside the section has frames SwNode const& rNode(*rNodes[j]); if (rNode.IsSectionNode() && static_cast(rNode).GetSection().IsHiddenFlag()) { // skip hidden sections - they can be inserted in fly-frames :( j = rNode.EndOfSectionNode()->GetIndex(); continue; } if (rNode.IsContentNode()) { SwContentNode const& rCNode(static_cast(rNode)); if (!rCNode.getLayoutFrame(&rLayout)) { // ignore footnote/fly/header/footer with no layout frame bSkip = true; // they will be created from scratch later if needed } break; } } if (!bSkip) { UnHideRedlines(rLayout, rNodes, rEndNode, pSkipped); } } } void SwRootFrame::SetHideRedlines(bool const bHideRedlines) { if (bHideRedlines == mbHideRedlines) { return; } mbHideRedlines = bHideRedlines; assert(GetCurrShell()->ActionPend()); // tdf#125754 avoid recursive layout SwDoc & rDoc(*GetFormat()->GetDoc()); // don't do early return if there are no redlines: // Show->Hide must init hidden number trees // Hide->Show may be called after all redlines have been deleted but there // may still be MergedParas because those aren't deleted yet... #if 0 if (!bHideRedlines && rDoc.getIDocumentRedlineAccess().GetRedlineTable().empty()) { return; } #endif // Hide->Show: clear MergedPara, create frames // Show->Hide: call CheckParaRedlineMerge, delete frames // Traverse the document via the nodes-array; traversing via the layout // wouldn't find the nodes that don't have frames in the ->Show case. // In-order traversal of each nodes array section should init the flags // in nodes before they are iterated. // Actual creation of frames should be done with existing functions // if possible, particularly InsertCnt_() or its wrapper ::MakeFrames(). SwNodes /*const*/& rNodes(rDoc.GetNodes()); // Flys/footnotes: must iterate and find all the ones that already exist // with frames and have redlines inside them; if any don't have frames at // all, they will be created (if necessary) from scratch and completely by // MakeFrames(). // // Flys before footnotes: because footnotes may contain flys but not // vice-versa; alas flys may contain flys, so we skip some of them // if they have already been created from scratch via their anchor flys. std::set skippedFlys; UnHideRedlinesExtras(*this, rNodes, rNodes.GetEndOfAutotext(), // when un-hiding, delay all fly frame creation to AppendAllObjs below IsHideRedlines() ? &skippedFlys : nullptr); // Footnotes are created automatically (after invalidation etc.) by // ConnectFootnote(), but need to be deleted manually. Footnotes do not // occur in flys or headers/footers. UnHideRedlinesExtras(*this, rNodes, rNodes.GetEndOfInserts(), nullptr); UnHideRedlines(*this, rNodes, rNodes.GetEndOfContent(), nullptr); if (!IsHideRedlines()) { // create all previously hidden flys at once: // * Flys on first node of pre-existing merged frames that are hidden // (in delete redline), to be added to the existing frame // * Flys on non-first (hidden/merged) nodes of pre-existing merged // frames, to be added to the new frame of their node // * Flys anchored in other flys that are hidden AppendAllObjs(rDoc.GetSpzFrameFormats(), this); } for (auto const pRedline : rDoc.getIDocumentRedlineAccess().GetRedlineTable()) { // DELETE are handled by the code above; for other types, need to // trigger repaint of text frames to add/remove the redline color font if (pRedline->GetType() != RedlineType::Delete) { pRedline->InvalidateRange(SwRangeRedline::Invalidation::Add); } } SwFootnoteIdxs & rFootnotes(rDoc.GetFootnoteIdxs()); if (rDoc.GetFootnoteInfo().m_eNum == FTNNUM_CHAPTER) { // sadly determining which node is outline node requires hidden layout rFootnotes.UpdateAllFootnote(); } // invalidate all footnotes to reformat their numbers for (SwTextFootnote *const pFootnote : rFootnotes) { SwFormatFootnote const& rFootnote(pFootnote->GetFootnote()); if (rFootnote.GetNumber() != rFootnote.GetNumberRLHidden() && rFootnote.GetNumStr().isEmpty()) { pFootnote->InvalidateNumberInLayout(); } } // update various fields to re-expand them with the new layout IDocumentFieldsAccess & rIDFA(rDoc.getIDocumentFieldsAccess()); auto const pAuthType(rIDFA.GetFieldType( SwFieldIds::TableOfAuthorities, OUString(), false)); if (pAuthType) // created on demand... { // calling DelSequenceArray() should be unnecessary here since the // sequence doesn't depend on frames pAuthType->UpdateFields(); } rIDFA.GetFieldType(SwFieldIds::RefPageGet, OUString(), false)->UpdateFields(); rIDFA.GetSysFieldType(SwFieldIds::Chapter)->UpdateFields(); rIDFA.UpdateExpFields(nullptr, false); rIDFA.UpdateRefFields(); // update SwPostItMgr / notes in the margin // note: as long as all shells share layout, broadcast to all shells! rDoc.GetDocShell()->Broadcast( SwFormatFieldHint(nullptr, bHideRedlines ? SwFormatFieldHintWhich::REMOVED : SwFormatFieldHintWhich::INSERTED) ); // InvalidateAllContent(SwInvalidateFlags::Size); // ??? TODO what to invalidate? this is the big hammer } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */