/* -*- 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 "svdfmtf.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; class SdrGraphicLink : public sfx2::SvBaseLink { SdrGrafObj& rGrafObj; public: explicit SdrGraphicLink(SdrGrafObj& rObj); virtual void Closed() override; virtual ::sfx2::SvBaseLink::UpdateResult DataChanged( const OUString& rMimeType, const uno::Any & rValue ) override; void Connect() { GetRealObject(); } }; SdrGraphicLink::SdrGraphicLink(SdrGrafObj& rObj) : ::sfx2::SvBaseLink( ::SfxLinkUpdateMode::ONCALL, SotClipboardFormatId::SVXB ) , rGrafObj( rObj ) { SetSynchron( false ); } ::sfx2::SvBaseLink::UpdateResult SdrGraphicLink::DataChanged( const OUString& rMimeType, const uno::Any & rValue ) { SdrModel& rModel(rGrafObj.getSdrModelFromSdrObject()); sfx2::LinkManager* pLinkManager(rModel.GetLinkManager()); if( pLinkManager && rValue.hasValue() ) { sfx2::LinkManager::GetDisplayNames( this, nullptr, &rGrafObj.aFileName, nullptr, &rGrafObj.aFilterName ); Graphic aGraphic; if (pLinkManager->GetGraphicFromAny(rMimeType, rValue, aGraphic, nullptr)) { rGrafObj.ImpSetLinkedGraphic(aGraphic); } else if( SotExchange::GetFormatIdFromMimeType( rMimeType ) != sfx2::LinkManager::RegisterStatusInfoId() ) { // broadcasting, to update slide sorter rGrafObj.BroadcastObjectChange(); } } return SUCCESS; } void SdrGraphicLink::Closed() { // close connection; set pLink of the object to NULL, as link instance is just about getting destructed. rGrafObj.ForceSwapIn(); rGrafObj.pGraphicLink=nullptr; rGrafObj.ReleaseGraphicLink(); SvBaseLink::Closed(); } std::unique_ptr SdrGrafObj::CreateObjectSpecificProperties() { return std::make_unique(*this); } // DrawContact section std::unique_ptr SdrGrafObj::CreateObjectSpecificViewContact() { return std::make_unique(*this); } // check if SVG and if try to get ObjectInfoPrimitive2D and extract info void SdrGrafObj::onGraphicChanged() { if (!mpGraphicObject || !mpGraphicObject->GetGraphic().isAvailable()) return; auto const & rVectorGraphicDataPtr = mpGraphicObject->GetGraphic().getVectorGraphicData(); if (!rVectorGraphicDataPtr) return; // Skip for PDF as it is only a bitmap primitive in a sequence and // doesn't contain metadata. However getting the primitive sequence // will also trigger a premature rendering of the PDF. if (rVectorGraphicDataPtr->getType() == VectorGraphicDataType::Pdf) return; const std::deque>& rContainer(rVectorGraphicDataPtr->getPrimitive2DSequence()); if (rContainer.empty()) return; drawinglayer::geometry::ViewInformation2D aViewInformation2D; drawinglayer::processor2d::ObjectInfoPrimitiveExtractor2D aProcessor(aViewInformation2D); aProcessor.process(rContainer); const drawinglayer::primitive2d::ObjectInfoPrimitive2D* pResult = aProcessor.getResult(); if (!pResult) return; OUString aName = pResult->getName(); OUString aTitle = pResult->getTitle(); OUString aDesc = pResult->getDesc(); if(!aName.isEmpty()) { SetName(aName); } if(!aTitle.isEmpty()) { SetTitle(aTitle); } if(!aDesc.isEmpty()) { SetDescription(aDesc); } } SdrGrafObj::SdrGrafObj(SdrModel& rSdrModel) : SdrRectObj(rSdrModel) ,mpGraphicObject(new GraphicObject) ,pGraphicLink(nullptr) ,bMirrored(false) ,mbIsSignatureLine(false) ,mbIsSignatureLineShowSignDate(true) ,mbIsSignatureLineCanAddComment(false) ,mbSignatureLineIsSigned(false) { onGraphicChanged(); // #i118485# Shear allowed and possible now mbNoShear = false; mbGrafAnimationAllowed = true; // #i25616# mbLineIsOutsideGeometry = true; // #i25616# mbSupportTextIndentingOnLineWidthChange = false; } SdrGrafObj::SdrGrafObj(SdrModel& rSdrModel, SdrGrafObj const & rSource) : SdrRectObj(rSdrModel, rSource) ,mpGraphicObject(new GraphicObject) ,pGraphicLink(nullptr) { onGraphicChanged(); // #i118485# Shear allowed and possible now mbNoShear = false; mbGrafAnimationAllowed = true; // #i25616# mbLineIsOutsideGeometry = true; // #i25616# mbSupportTextIndentingOnLineWidthChange = false; aFileName = rSource.aFileName; bMirrored = rSource.bMirrored; mbIsSignatureLine = rSource.mbIsSignatureLine; maSignatureLineId = rSource.maSignatureLineId; maSignatureLineSuggestedSignerName = rSource.maSignatureLineSuggestedSignerName; maSignatureLineSuggestedSignerTitle = rSource.maSignatureLineSuggestedSignerTitle; maSignatureLineSuggestedSignerEmail = rSource.maSignatureLineSuggestedSignerEmail; maSignatureLineSigningInstructions = rSource.maSignatureLineSigningInstructions; mbIsSignatureLineShowSignDate = rSource.mbIsSignatureLineShowSignDate; mbIsSignatureLineCanAddComment = rSource.mbIsSignatureLineCanAddComment; mbSignatureLineIsSigned = false; mpSignatureLineUnsignedGraphic = rSource.mpSignatureLineUnsignedGraphic; if(rSource.mpBarCode) { mpBarCode = std::make_unique(*rSource.mpBarCode); } else { mpBarCode.reset(); } if (mbIsSignatureLine && rSource.mpSignatureLineUnsignedGraphic) mpGraphicObject->SetGraphic(rSource.mpSignatureLineUnsignedGraphic); else mpGraphicObject->SetGraphic( rSource.GetGraphic() ); if( rSource.IsLinkedGraphic() ) { SetGraphicLink( aFileName ); } ImpSetAttrToGrafInfo(); } SdrGrafObj::SdrGrafObj( SdrModel& rSdrModel, const Graphic& rGraphic, const tools::Rectangle& rRect) : SdrRectObj(rSdrModel, rRect) ,mpGraphicObject(new GraphicObject(rGraphic)) ,pGraphicLink(nullptr) ,bMirrored(false) ,mbIsSignatureLine(false) ,mbIsSignatureLineShowSignDate(true) ,mbIsSignatureLineCanAddComment(false) ,mbSignatureLineIsSigned(false) { onGraphicChanged(); // #i118485# Shear allowed and possible now mbNoShear = false; mbGrafAnimationAllowed = true; // #i25616# mbLineIsOutsideGeometry = true; // #i25616# mbSupportTextIndentingOnLineWidthChange = false; } SdrGrafObj::SdrGrafObj( SdrModel& rSdrModel, const Graphic& rGraphic) : SdrRectObj(rSdrModel) ,mpGraphicObject(new GraphicObject(rGraphic)) ,pGraphicLink(nullptr) ,bMirrored(false) ,mbIsSignatureLine(false) ,mbIsSignatureLineShowSignDate(true) ,mbIsSignatureLineCanAddComment(false) ,mbSignatureLineIsSigned(false) { onGraphicChanged(); // #i118485# Shear allowed and possible now mbNoShear = false; mbGrafAnimationAllowed = true; // #i25616# mbLineIsOutsideGeometry = true; // #i25616# mbSupportTextIndentingOnLineWidthChange = false; } SdrGrafObj::~SdrGrafObj() { ImpDeregisterLink(); } void SdrGrafObj::SetGraphicObject(const GraphicObject& rGraphicObject) { mpGraphicObject.reset(new GraphicObject(rGraphicObject)); mpReplacementGraphicObject.reset(); mpGraphicObject->SetUserData(); SetChanged(); BroadcastObjectChange(); onGraphicChanged(); } const GraphicObject& SdrGrafObj::GetGraphicObject(bool bForceSwapIn) const { if (bForceSwapIn) ForceSwapIn(); return *mpGraphicObject; } const GraphicObject* SdrGrafObj::GetReplacementGraphicObject() const { if (!mpReplacementGraphicObject && mpGraphicObject) { auto const & rVectorGraphicDataPtr = mpGraphicObject->GetGraphic().getVectorGraphicData(); if (rVectorGraphicDataPtr) { const_cast< SdrGrafObj* >(this)->mpReplacementGraphicObject.reset(new GraphicObject(rVectorGraphicDataPtr->getReplacement())); } else if (mpGraphicObject->GetGraphic().GetType() == GraphicType::GdiMetafile) { // Replacement graphic for PDF and metafiles is just the bitmap. const_cast(this)->mpReplacementGraphicObject.reset(new GraphicObject(mpGraphicObject->GetGraphic().GetBitmapEx())); } } return mpReplacementGraphicObject.get(); } void SdrGrafObj::NbcSetGraphic(const Graphic& rGraphic) { mpGraphicObject->SetGraphic(rGraphic); mpReplacementGraphicObject.reset(); mpGraphicObject->SetUserData(); onGraphicChanged(); } void SdrGrafObj::SetGraphic( const Graphic& rGraphic ) { if (!rGraphic.getOriginURL().isEmpty()) { ImpDeregisterLink(); aFileName = rGraphic.getOriginURL(); aFilterName = ""; } NbcSetGraphic(rGraphic); if (!rGraphic.getOriginURL().isEmpty()) { ImpRegisterLink(); mpGraphicObject->SetUserData(); } SetChanged(); BroadcastObjectChange(); ForceSwapIn(); } const Graphic& SdrGrafObj::GetGraphic() const { return mpGraphicObject->GetGraphic(); } Graphic SdrGrafObj::GetTransformedGraphic( SdrGrafObjTransformsAttrs nTransformFlags ) const { // Refactored most of the code to GraphicObject, where // everybody can use e.g. the cropping functionality MapMode aDestMap(getSdrModelFromSdrObject().GetScaleUnit()); const Size aDestSize( GetLogicRect().GetSize() ); GraphicAttr aActAttr = GetGraphicAttr(nTransformFlags); // Delegate to moved code in GraphicObject return GetGraphicObject().GetTransformedGraphic( aDestSize, aDestMap, aActAttr ); } GraphicType SdrGrafObj::GetGraphicType() const { return mpGraphicObject->GetType(); } GraphicAttr SdrGrafObj::GetGraphicAttr( SdrGrafObjTransformsAttrs nTransformFlags ) const { GraphicAttr aActAttr; GraphicType eType = GetGraphicType(); if( SdrGrafObjTransformsAttrs::NONE != nTransformFlags && GraphicType::NONE != eType ) { const bool bMirror = bool( nTransformFlags & SdrGrafObjTransformsAttrs::MIRROR ); const bool bRotate = bool( nTransformFlags & SdrGrafObjTransformsAttrs::ROTATE ) && (maGeo.m_nRotationAngle && maGeo.m_nRotationAngle != 18000_deg100); // Need cropping info earlier const_cast(this)->ImpSetAttrToGrafInfo(); // Actually transform the graphic only in this case. // Cropping always happens, though. aActAttr = aGrafInfo; if( bMirror ) { sal_uInt16 nMirrorCase = ( maGeo.m_nRotationAngle == 18000_deg100 ) ? ( bMirrored ? 3 : 4 ) : ( bMirrored ? 2 : 1 ); bool bHMirr = nMirrorCase == 2 || nMirrorCase == 4; bool bVMirr = nMirrorCase == 3 || nMirrorCase == 4; aActAttr.SetMirrorFlags( ( bHMirr ? BmpMirrorFlags::Horizontal : BmpMirrorFlags::NONE ) | ( bVMirr ? BmpMirrorFlags::Vertical : BmpMirrorFlags::NONE ) ); } if( bRotate ) aActAttr.SetRotation( to(maGeo.m_nRotationAngle ) ); } return aActAttr; } bool SdrGrafObj::IsAnimated() const { return mpGraphicObject->IsAnimated(); } bool SdrGrafObj::IsEPS() const { return mpGraphicObject->IsEPS(); } MapMode SdrGrafObj::GetGrafPrefMapMode() const { return mpGraphicObject->GetPrefMapMode(); } Size SdrGrafObj::GetGrafPrefSize() const { return mpGraphicObject->GetPrefSize(); } void SdrGrafObj::SetGrafStreamURL( const OUString& rGraphicStreamURL ) { if( rGraphicStreamURL.isEmpty() ) { mpGraphicObject->SetUserData(); } else if(getSdrModelFromSdrObject().IsSwapGraphics() ) { mpGraphicObject->SetUserData( rGraphicStreamURL ); } } OUString const & SdrGrafObj::GetGrafStreamURL() const { return mpGraphicObject->GetUserData(); } Size SdrGrafObj::getOriginalSize() const { Size aSize = GetGrafPrefSize(); if (GetGrafPrefMapMode().GetMapUnit() == MapUnit::MapPixel) aSize = Application::GetDefaultDevice()->PixelToLogic(aSize, MapMode(getSdrModelFromSdrObject().GetScaleUnit())); else aSize = OutputDevice::LogicToLogic(aSize, GetGrafPrefMapMode(), MapMode(getSdrModelFromSdrObject().GetScaleUnit())); if (aGrafInfo.IsCropped()) { const tools::Long aCroppedWidth(aSize.getWidth() - aGrafInfo.GetLeftCrop() - aGrafInfo.GetRightCrop()); const tools::Long aCroppedHeight(aSize.getHeight() - aGrafInfo.GetTopCrop() - aGrafInfo.GetBottomCrop()); aSize = Size(aCroppedWidth, aCroppedHeight); } return aSize; } // TODO Remove void SdrGrafObj::ForceSwapIn() const { if (pGraphicLink && (mpGraphicObject->GetType() == GraphicType::NONE || mpGraphicObject->GetType() == GraphicType::Default) ) { pGraphicLink->Update(); } } void SdrGrafObj::ImpRegisterLink() { sfx2::LinkManager* pLinkManager(getSdrModelFromSdrObject().GetLinkManager()); if( pLinkManager != nullptr && pGraphicLink == nullptr ) { if (!aFileName.isEmpty()) { pGraphicLink = new SdrGraphicLink( *this ); pLinkManager->InsertFileLink( *pGraphicLink, sfx2::SvBaseLinkObjectType::ClientGraphic, aFileName, (aFilterName.isEmpty() ? nullptr : &aFilterName)); pGraphicLink->Connect(); } } } void SdrGrafObj::ImpDeregisterLink() { sfx2::LinkManager* pLinkManager(getSdrModelFromSdrObject().GetLinkManager()); if( pLinkManager != nullptr && pGraphicLink!=nullptr) { // When using Remove, the *pGraphicLink is implicitly deleted pLinkManager->Remove( pGraphicLink ); pGraphicLink=nullptr; } } void SdrGrafObj::SetGraphicLink(const OUString& rFileName) { Graphic aGraphic; aGraphic.setOriginURL(rFileName); SetGraphic(aGraphic); } void SdrGrafObj::ReleaseGraphicLink() { ImpDeregisterLink(); aFileName.clear(); aFilterName.clear(); auto aGraphic = mpGraphicObject->GetGraphic(); aGraphic.setOriginURL(u""_ustr); SetGraphic(aGraphic); } bool SdrGrafObj::IsLinkedGraphic() const { return !mpGraphicObject->GetGraphic().getOriginURL().isEmpty(); } void SdrGrafObj::TakeObjInfo(SdrObjTransformInfoRec& rInfo) const { bool bNoPresGrf = ( mpGraphicObject->GetType() != GraphicType::NONE ) && !m_bEmptyPresObj; rInfo.bResizeFreeAllowed = maGeo.m_nRotationAngle.get() % 9000 == 0 || maGeo.m_nRotationAngle.get() % 18000 == 0 || maGeo.m_nRotationAngle.get() % 27000 == 0; rInfo.bResizePropAllowed = true; rInfo.bRotateFreeAllowed = bNoPresGrf; rInfo.bRotate90Allowed = bNoPresGrf; rInfo.bMirrorFreeAllowed = bNoPresGrf; rInfo.bMirror45Allowed = bNoPresGrf; rInfo.bMirror90Allowed = !m_bEmptyPresObj; rInfo.bTransparenceAllowed = false; // #i118485# Shear allowed and possible now rInfo.bShearAllowed = true; rInfo.bEdgeRadiusAllowed=false; rInfo.bCanConvToPath = !IsEPS(); rInfo.bCanConvToPathLineToArea = false; rInfo.bCanConvToPolyLineToArea = false; rInfo.bCanConvToPoly = !IsEPS(); rInfo.bCanConvToContour = (rInfo.bCanConvToPoly || LineGeometryUsageIsNecessary()); } SdrObjKind SdrGrafObj::GetObjIdentifier() const { return SdrObjKind::Graphic; } void SdrGrafObj::ImpSetLinkedGraphic( const Graphic& rGraphic ) { const bool bIsChanged(getSdrModelFromSdrObject().IsChanged()); NbcSetGraphic( rGraphic ); ActionChanged(); BroadcastObjectChange(); getSdrModelFromSdrObject().SetChanged(bIsChanged); } OUString SdrGrafObj::TakeObjNameSingul() const { if (!mpGraphicObject) return OUString(); auto const & rVectorGraphicDataPtr = mpGraphicObject->GetGraphic().getVectorGraphicData(); OUStringBuffer sName; if (rVectorGraphicDataPtr) { switch (rVectorGraphicDataPtr->getType()) { case VectorGraphicDataType::Svg: { sName.append(SvxResId(STR_ObjNameSingulGRAFSVG)); break; } case VectorGraphicDataType::Wmf: { sName.append(SvxResId(STR_ObjNameSingulGRAFWMF)); break; } case VectorGraphicDataType::Emf: { sName.append(SvxResId(STR_ObjNameSingulGRAFEMF)); break; } case VectorGraphicDataType::Pdf: { sName.append(SvxResId(STR_ObjNameSingulGRAFPDF)); break; } } //no default, see tdf#137813 } else { switch( mpGraphicObject->GetType() ) { case GraphicType::Bitmap: { TranslateId pId = ( ( mpGraphicObject->IsTransparent() || GetObjectItem( SDRATTR_GRAFTRANSPARENCE ).GetValue() ) ? ( IsLinkedGraphic() ? STR_ObjNameSingulGRAFBMPTRANSLNK : STR_ObjNameSingulGRAFBMPTRANS ) : ( IsLinkedGraphic() ? STR_ObjNameSingulGRAFBMPLNK : STR_ObjNameSingulGRAFBMP ) ); sName.append(SvxResId(pId)); } break; case GraphicType::GdiMetafile: sName.append(SvxResId(IsLinkedGraphic() ? STR_ObjNameSingulGRAFMTFLNK : STR_ObjNameSingulGRAFMTF)); break; case GraphicType::NONE: sName.append(SvxResId(IsLinkedGraphic() ? STR_ObjNameSingulGRAFNONELNK : STR_ObjNameSingulGRAFNONE)); break; default: sName.append(SvxResId(IsLinkedGraphic() ? STR_ObjNameSingulGRAFLNK : STR_ObjNameSingulGRAF)); break; } } const OUString aName(GetName()); if (!aName.isEmpty()) { sName.append(" '" + aName + "\'" ); } return sName.makeStringAndClear(); } OUString SdrGrafObj::TakeObjNamePlural() const { if (!mpGraphicObject) return OUString(); auto const & rVectorGraphicDataPtr = mpGraphicObject->GetGraphic().getVectorGraphicData(); OUStringBuffer sName; if (rVectorGraphicDataPtr) { switch (rVectorGraphicDataPtr->getType()) { case VectorGraphicDataType::Svg: { sName.append(SvxResId(STR_ObjNamePluralGRAFSVG)); break; } case VectorGraphicDataType::Wmf: { sName.append(SvxResId(STR_ObjNamePluralGRAFWMF)); break; } case VectorGraphicDataType::Emf: { sName.append(SvxResId(STR_ObjNamePluralGRAFEMF)); break; } case VectorGraphicDataType::Pdf: { sName.append(SvxResId(STR_ObjNamePluralGRAFPDF)); break; } } //no default, see tdf#137813 } else { switch(mpGraphicObject->GetType()) { case GraphicType::Bitmap: { TranslateId pId = ( ( mpGraphicObject->IsTransparent() || GetObjectItem( SDRATTR_GRAFTRANSPARENCE ).GetValue() ) ? ( IsLinkedGraphic() ? STR_ObjNamePluralGRAFBMPTRANSLNK : STR_ObjNamePluralGRAFBMPTRANS ) : ( IsLinkedGraphic() ? STR_ObjNamePluralGRAFBMPLNK : STR_ObjNamePluralGRAFBMP ) ); sName.append(SvxResId(pId)); } break; case GraphicType::GdiMetafile: sName.append(SvxResId(IsLinkedGraphic() ? STR_ObjNamePluralGRAFMTFLNK : STR_ObjNamePluralGRAFMTF)); break; case GraphicType::NONE: sName.append(SvxResId(IsLinkedGraphic() ? STR_ObjNamePluralGRAFNONELNK : STR_ObjNamePluralGRAFNONE)); break; default: sName.append(SvxResId(IsLinkedGraphic() ? STR_ObjNamePluralGRAFLNK : STR_ObjNamePluralGRAF)); break; } } const OUString aName(GetName()); if (!aName.isEmpty()) { sName.append(" '" + aName + "\'"); } return sName.makeStringAndClear(); } rtl::Reference SdrGrafObj::getFullDragClone() const { // call parent rtl::Reference pRetval = SdrRectObj::getFullDragClone(); // #i103116# the full drag clone leads to problems // with linked graphics, so reset the link in this // temporary interaction object and load graphic if(pRetval && IsLinkedGraphic()) { static_cast< SdrGrafObj* >(pRetval.get())->ReleaseGraphicLink(); } return pRetval; } rtl::Reference SdrGrafObj::CloneSdrObject(SdrModel& rTargetModel) const { return new SdrGrafObj(rTargetModel, *this); } sal_uInt32 SdrGrafObj::GetHdlCount() const { return 8; } void SdrGrafObj::AddToHdlList(SdrHdlList& rHdlList) const { SdrHdlList tempList(nullptr); SdrRectObj::AddToHdlList( tempList ); tempList.RemoveHdl(0); tempList.MoveTo(rHdlList); } void SdrGrafObj::NbcResize(const Point& rRef, const Fraction& xFact, const Fraction& yFact) { SdrRectObj::NbcResize( rRef, xFact, yFact ); bool bMirrX = xFact.GetNumerator() < 0; bool bMirrY = yFact.GetNumerator() < 0; if( bMirrX != bMirrY ) bMirrored = !bMirrored; } void SdrGrafObj::NbcMirror(const Point& rRef1, const Point& rRef2) { SdrRectObj::NbcMirror(rRef1,rRef2); bMirrored = !bMirrored; } std::unique_ptr SdrGrafObj::NewGeoData() const { return std::make_unique(); } void SdrGrafObj::SaveGeoData(SdrObjGeoData& rGeo) const { SdrRectObj::SaveGeoData(rGeo); SdrGrafObjGeoData& rGGeo=static_cast(rGeo); rGGeo.bMirrored=bMirrored; } void SdrGrafObj::RestoreGeoData(const SdrObjGeoData& rGeo) { SdrRectObj::RestoreGeoData(rGeo); const SdrGrafObjGeoData& rGGeo=static_cast(rGeo); bMirrored=rGGeo.bMirrored; } void SdrGrafObj::handlePageChange(SdrPage* pOldPage, SdrPage* pNewPage) { const bool bRemove(pNewPage == nullptr && pOldPage != nullptr); const bool bInsert(pNewPage != nullptr && pOldPage == nullptr); if( bRemove ) { // No SwapIn necessary here, because if something's not loaded, it can't be animated either. if( mpGraphicObject->IsAnimated()) mpGraphicObject->StopAnimation(); if( pGraphicLink != nullptr ) ImpDeregisterLink(); } // call parent SdrRectObj::handlePageChange(pOldPage, pNewPage); if (!aFileName.isEmpty() && bInsert) { ImpRegisterLink(); } } void SdrGrafObj::StartAnimation() { SetGrafAnimationAllowed(true); } bool SdrGrafObj::HasGDIMetaFile() const { return( mpGraphicObject->GetType() == GraphicType::GdiMetafile ); } bool SdrGrafObj::isEmbeddedVectorGraphicData() const { return GraphicType::Bitmap == GetGraphicType() && GetGraphic().getVectorGraphicData(); } GDIMetaFile SdrGrafObj::getMetafileFromEmbeddedVectorGraphicData() const { GDIMetaFile aRetval; if(isEmbeddedVectorGraphicData()) { ScopedVclPtrInstance< VirtualDevice > pOut; const tools::Rectangle aBoundRect(GetCurrentBoundRect()); const MapMode aMap(getSdrModelFromSdrObject().GetScaleUnit()); pOut->EnableOutput(false); pOut->SetMapMode(aMap); aRetval.Record(pOut); SingleObjectPainter(*pOut); aRetval.Stop(); aRetval.WindStart(); aRetval.Move(-aBoundRect.Left(), -aBoundRect.Top()); aRetval.SetPrefMapMode(aMap); aRetval.SetPrefSize(aBoundRect.GetSize()); } return aRetval; } GDIMetaFile SdrGrafObj::GetMetaFile(GraphicType &rGraphicType) const { if (isEmbeddedVectorGraphicData()) { // Embedded Vector Graphic Data // There is currently no helper to create SdrObjects from primitives (even if I'm thinking // about writing one for some time). To get the roundtrip to SdrObjects it is necessary to // use the old converter path over the MetaFile mechanism. Create Metafile from Svg // primitives here pretty directly rGraphicType = GraphicType::GdiMetafile; return getMetafileFromEmbeddedVectorGraphicData(); } else if (GraphicType::GdiMetafile == rGraphicType) { return GetTransformedGraphic(SdrGrafObjTransformsAttrs::MIRROR).GetGDIMetaFile(); } return GDIMetaFile(); } rtl::Reference SdrGrafObj::DoConvertToPolyObj(bool bBezier, bool bAddText ) const { rtl::Reference pRetval; GraphicType aGraphicType(GetGraphicType()); GDIMetaFile aMtf(GetMetaFile(aGraphicType)); switch(aGraphicType) { case GraphicType::GdiMetafile: { // Sort into group and return ONLY those objects that can be created from the MetaFile. ImpSdrGDIMetaFileImport aFilter( getSdrModelFromSdrObject(), GetLayer(), getRectangle()); rtl::Reference pGrp = new SdrObjGroup(getSdrModelFromSdrObject()); if(aFilter.DoImport(aMtf, *pGrp->GetSubList(), 0)) { { // copy transformation GeoStat aGeoStat(GetGeoStat()); if(aGeoStat.m_nShearAngle) { aGeoStat.RecalcTan(); pGrp->NbcShear(getRectangle().TopLeft(), aGeoStat.m_nShearAngle, aGeoStat.mfTanShearAngle, false); } if(aGeoStat.m_nRotationAngle) { aGeoStat.RecalcSinCos(); pGrp->NbcRotate(getRectangle().TopLeft(), aGeoStat.m_nRotationAngle, aGeoStat.mfSinRotationAngle, aGeoStat.mfCosRotationAngle); } } pRetval = pGrp; pGrp->NbcSetLayer(GetLayer()); if(bAddText) { pRetval = ImpConvertAddText(pRetval, bBezier); } // convert all children if( pRetval ) { pRetval = pRetval->DoConvertToPolyObj(bBezier, bAddText); if( pRetval ) { // flatten subgroups. As we call // DoConvertToPolyObj() on the resulting group // objects, subgroups can exist (e.g. text is // a group object for every line). SdrObjList* pList = pRetval->GetSubList(); if( pList ) pList->FlattenGroups(); } } } else pGrp.clear(); // #i118485# convert line and fill rtl::Reference pLineFill = SdrRectObj::DoConvertToPolyObj(bBezier, false); if(pLineFill) { if(pRetval) { pGrp = dynamic_cast< SdrObjGroup* >(pRetval.get()); if(!pGrp) { pGrp = new SdrObjGroup(getSdrModelFromSdrObject()); pGrp->NbcSetLayer(GetLayer()); pGrp->GetSubList()->NbcInsertObject(pRetval.get()); } pGrp->GetSubList()->NbcInsertObject(pLineFill.get(), 0); } else { pRetval = pLineFill; } } break; } case GraphicType::Bitmap: { // create basic object and add fill pRetval = SdrRectObj::DoConvertToPolyObj(bBezier, bAddText); // save bitmap as an attribute if(pRetval) { // retrieve bitmap for the fill SfxItemSet aSet(GetObjectItemSet()); aSet.Put(XFillStyleItem(drawing::FillStyle_BITMAP)); const BitmapEx aBitmapEx(GetTransformedGraphic().GetBitmapEx()); aSet.Put(XFillBitmapItem(OUString(), Graphic(aBitmapEx))); aSet.Put(XFillBmpTileItem(false)); pRetval->SetMergedItemSet(aSet); } break; } case GraphicType::NONE: case GraphicType::Default: { pRetval = SdrRectObj::DoConvertToPolyObj(bBezier, bAddText); break; } } return pRetval; } void SdrGrafObj::Notify( SfxBroadcaster& rBC, const SfxHint& rHint ) { SetXPolyDirty(); SdrRectObj::Notify( rBC, rHint ); ImpSetAttrToGrafInfo(); } void SdrGrafObj::SetMirrored( bool _bMirrored ) { bMirrored = _bMirrored; } void SdrGrafObj::ImpSetAttrToGrafInfo() { const SfxItemSet& rSet = GetObjectItemSet(); const sal_uInt16 nTrans = rSet.Get( SDRATTR_GRAFTRANSPARENCE ).GetValue(); const SdrGrafCropItem& rCrop = rSet.Get( SDRATTR_GRAFCROP ); aGrafInfo.SetLuminance( rSet.Get( SDRATTR_GRAFLUMINANCE ).GetValue() ); aGrafInfo.SetContrast( rSet.Get( SDRATTR_GRAFCONTRAST ).GetValue() ); aGrafInfo.SetChannelR( rSet.Get( SDRATTR_GRAFRED ).GetValue() ); aGrafInfo.SetChannelG( rSet.Get( SDRATTR_GRAFGREEN ).GetValue() ); aGrafInfo.SetChannelB( rSet.Get( SDRATTR_GRAFBLUE ).GetValue() ); aGrafInfo.SetGamma( rSet.Get( SDRATTR_GRAFGAMMA ).GetValue() * 0.01 ); aGrafInfo.SetAlpha(255 - basegfx::fround(nTrans * 2.55)); aGrafInfo.SetInvert( rSet.Get( SDRATTR_GRAFINVERT ).GetValue() ); aGrafInfo.SetDrawMode( rSet.Get( SDRATTR_GRAFMODE ).GetValue() ); aGrafInfo.SetCrop( rCrop.GetLeft(), rCrop.GetTop(), rCrop.GetRight(), rCrop.GetBottom() ); SetXPolyDirty(); SetBoundAndSnapRectsDirty(); } void SdrGrafObj::AdjustToMaxRect( const tools::Rectangle& rMaxRect, bool bShrinkOnly ) { Size aSize; Size aMaxSize( rMaxRect.GetSize() ); if (mpGraphicObject->GetPrefMapMode().GetMapUnit() == MapUnit::MapPixel) aSize = Application::GetDefaultDevice()->PixelToLogic(mpGraphicObject->GetPrefSize(), MapMode(MapUnit::Map100thMM)); else aSize = OutputDevice::LogicToLogic( mpGraphicObject->GetPrefSize(), mpGraphicObject->GetPrefMapMode(), MapMode( MapUnit::Map100thMM ) ); if( aSize.IsEmpty() ) return; Point aPos( rMaxRect.TopLeft() ); // if the graphic is too large, fit it to page if ( (!bShrinkOnly || ( aSize.Height() > aMaxSize.Height() ) || ( aSize.Width() > aMaxSize.Width() ) )&& aSize.Height() && aMaxSize.Height() ) { float fGrfWH = static_cast(aSize.Width()) / static_cast(aSize.Height()); float fWinWH = static_cast(aMaxSize.Width()) / static_cast(aMaxSize.Height()); // Scale graphic to page size if ( fGrfWH < fWinWH ) { aSize.setWidth( static_cast(aMaxSize.Height() * fGrfWH) ); aSize.setHeight( aMaxSize.Height() ); } else if ( fGrfWH > 0.F ) { aSize.setWidth( aMaxSize.Width() ); aSize.setHeight( static_cast(aMaxSize.Width() / fGrfWH) ); } aPos = rMaxRect.Center(); } if( bShrinkOnly ) aPos = getRectangle().TopLeft(); aPos.AdjustX( -(aSize.Width() / 2) ); aPos.AdjustY( -(aSize.Height() / 2) ); SetLogicRect( tools::Rectangle( aPos, aSize ) ); } void SdrGrafObj::SetGrafAnimationAllowed(bool bNew) { if(mbGrafAnimationAllowed != bNew) { mbGrafAnimationAllowed = bNew; ActionChanged(); } } uno::Reference SdrGrafObj::getInputStream() const { uno::Reference xStream; if (mpGraphicObject && GetGraphic().IsGfxLink()) { Graphic aGraphic( GetGraphic() ); GfxLink aLink( aGraphic.GetGfxLink() ); sal_uInt32 nSize = aLink.GetDataSize(); const void* pSourceData = static_cast(aLink.GetData()); if( nSize && pSourceData ) { sal_uInt8 * pBuffer = new sal_uInt8[ nSize ]; memcpy( pBuffer, pSourceData, nSize ); SvMemoryStream* pStream = new SvMemoryStream( static_cast(pBuffer), static_cast(nSize), StreamMode::READ ); pStream->ObjectOwnsMemory( true ); xStream.set( new utl::OInputStreamWrapper( pStream, true ) ); } } if (!xStream.is() && !aFileName.isEmpty()) { SvFileStream* pStream = new SvFileStream( aFileName, StreamMode::READ ); xStream.set( new utl::OInputStreamWrapper( pStream ) ); } return xStream; } // moved crop handle creation here; this is the object type using them void SdrGrafObj::addCropHandles(SdrHdlList& rTarget) const { basegfx::B2DHomMatrix aMatrix; basegfx::B2DPolyPolygon aPolyPolygon; // get object transformation TRGetBaseGeometry(aMatrix, aPolyPolygon); // part of object transformation correction, but used later, so defined outside next scope double fShearX(0.0), fRotate(0.0); { // TTTT correct shear, it comes currently mirrored from TRGetBaseGeometry, can be removed with aw080 basegfx::B2DTuple aScale; basegfx::B2DTuple aTranslate; aMatrix.decompose(aScale, aTranslate, fRotate, fShearX); if(!basegfx::fTools::equalZero(fShearX)) { // shearX is used, correct it fShearX = -fShearX; } aMatrix = basegfx::utils::createScaleShearXRotateTranslateB2DHomMatrix( aScale, fShearX, fRotate, aTranslate); } // get crop values const SdrGrafCropItem& rCrop = GetMergedItem(SDRATTR_GRAFCROP); if(rCrop.GetLeft() || rCrop.GetTop() || rCrop.GetRight() ||rCrop.GetBottom()) { // decompose object transformation to have current translate and scale basegfx::B2DVector aScale, aTranslate; double fLclRotate, fLclShearX; aMatrix.decompose(aScale, aTranslate, fLclRotate, fLclShearX); if(!aScale.equalZero()) { // get crop scale const basegfx::B2DVector aCropScaleFactor( GetGraphicObject().calculateCropScaling( aScale.getX(), aScale.getY(), rCrop.GetLeft(), rCrop.GetTop(), rCrop.GetRight(), rCrop.GetBottom())); // apply crop scale const double fCropLeft(rCrop.GetLeft() * aCropScaleFactor.getX()); const double fCropTop(rCrop.GetTop() * aCropScaleFactor.getY()); const double fCropRight(rCrop.GetRight() * aCropScaleFactor.getX()); const double fCropBottom(rCrop.GetBottom() * aCropScaleFactor.getY()); basegfx::B2DHomMatrix aMatrixForCropViewHdl(aMatrix); if(IsMirrored()) { // create corrected new matrix, TTTT can be removed with aw080 // the old mirror only can mirror horizontally; the vertical mirror // is faked by using the horizontal and 180 degree rotation. Since // the object can be rotated differently from 180 degree, this is // not safe to detect. Just correct horizontal mirror (which is // in IsMirrored()) and keep the rotation angle // caution: Do not modify aMatrix, it is used below to calculate // the exact handle positions basegfx::B2DHomMatrix aPreMultiply; // mirrored X, apply aPreMultiply.translate(-0.5, 0.0); aPreMultiply.scale(-1.0, 1.0); aPreMultiply.translate(0.5, 0.0); aMatrixForCropViewHdl = aMatrixForCropViewHdl * aPreMultiply; } rTarget.AddHdl( std::make_unique( aMatrixForCropViewHdl, GetGraphicObject().GetGraphic(), fCropLeft, fCropTop, fCropRight, fCropBottom)); } } basegfx::B2DPoint aPos; aPos = aMatrix * basegfx::B2DPoint(0.0, 0.0); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::UpperLeft, fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(0.5, 0.0); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::Upper, fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(1.0, 0.0); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::UpperRight, fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(0.0, 0.5); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::Left , fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(1.0, 0.5); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::Right, fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(0.0, 1.0); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::LowerLeft, fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(0.5, 1.0); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::Lower, fShearX, fRotate)); aPos = aMatrix * basegfx::B2DPoint(1.0, 1.0); rTarget.AddHdl(std::make_unique(Point(basegfx::fround(aPos.getX()), basegfx::fround(aPos.getY())), SdrHdlKind::LowerRight, fShearX, fRotate)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */