/* -*- 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 #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 "presetooxhandleadjustmentrelations.hxx" #include using namespace ::com::sun::star; static void lcl_ShapeSegmentFromBinary( drawing::EnhancedCustomShapeSegment& rSegInfo, sal_uInt16 nSDat ) { switch( nSDat >> 8 ) { case 0x00 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::LINETO; rSegInfo.Count = nSDat & 0xff; if ( !rSegInfo.Count ) rSegInfo.Count = 1; break; case 0x20 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::CURVETO; rSegInfo.Count = nSDat & 0xff; if ( !rSegInfo.Count ) rSegInfo.Count = 1; break; case 0x40 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::MOVETO; rSegInfo.Count = nSDat & 0xff; if ( !rSegInfo.Count ) rSegInfo.Count = 1; break; case 0x60 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::CLOSESUBPATH; rSegInfo.Count = 0; break; case 0x80 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ENDSUBPATH; rSegInfo.Count = 0; break; case 0xa1 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ANGLEELLIPSETO; rSegInfo.Count = ( nSDat & 0xff ) / 3; break; case 0xa2 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ANGLEELLIPSE; rSegInfo.Count = ( nSDat & 0xff ) / 3; break; case 0xa3 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ARCTO; rSegInfo.Count = ( nSDat & 0xff ) >> 2; break; case 0xa4 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ARC; rSegInfo.Count = ( nSDat & 0xff ) >> 2; break; case 0xa5 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::CLOCKWISEARCTO; rSegInfo.Count = ( nSDat & 0xff ) >> 2; break; case 0xa6 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::CLOCKWISEARC; rSegInfo.Count = ( nSDat & 0xff ) >> 2; break; case 0xa7 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ELLIPTICALQUADRANTX; rSegInfo.Count = nSDat & 0xff; break; case 0xa8 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::ELLIPTICALQUADRANTY; rSegInfo.Count = nSDat & 0xff; break; case 0xaa : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::NOFILL; rSegInfo.Count = 0; break; case 0xab : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::NOSTROKE; rSegInfo.Count = 0; break; default: case 0xf8 : rSegInfo.Command = drawing::EnhancedCustomShapeSegmentCommand::UNKNOWN; rSegInfo.Count = nSDat; break; } } static MSO_SPT ImpGetCustomShapeType( const SdrObjCustomShape& rCustoShape ) { MSO_SPT eRetValue = mso_sptNil; OUString aEngine( rCustoShape.GetMergedItem( SDRATTR_CUSTOMSHAPE_ENGINE ).GetValue() ); if ( aEngine.isEmpty() || aEngine == "com.sun.star.drawing.EnhancedCustomShapeEngine" ) { OUString sShapeType; const SdrCustomShapeGeometryItem& rGeometryItem( rCustoShape.GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); const uno::Any* pAny = rGeometryItem.GetPropertyValueByName( u"Type"_ustr ); if ( pAny && ( *pAny >>= sShapeType ) ) eRetValue = EnhancedCustomShapeTypeNames::Get( sShapeType ); } return eRetValue; }; static bool ImpVerticalSwitch( const SdrObjCustomShape& rCustoShape ) { bool bRet = false; MSO_SPT eShapeType( ImpGetCustomShapeType( rCustoShape ) ); switch( eShapeType ) { case mso_sptAccentBorderCallout90 : // 2 ortho case mso_sptBorderCallout1 : // 2 diag case mso_sptBorderCallout2 : // 3 { bRet = true; } break; default: break; } return bRet; } // #i37011# create a clone with all attributes changed to shadow attributes // and translation executed, too. static rtl::Reference ImpCreateShadowObjectClone(const SdrObject& rOriginal, const SfxItemSet& rOriginalSet) { rtl::Reference pRetval; const bool bShadow(rOriginalSet.Get(SDRATTR_SHADOW).GetValue()); if(bShadow) { // create a shadow representing object const sal_Int32 nXDist(rOriginalSet.Get(SDRATTR_SHADOWXDIST).GetValue()); const sal_Int32 nYDist(rOriginalSet.Get(SDRATTR_SHADOWYDIST).GetValue()); const ::Color aShadowColor(rOriginalSet.Get(SDRATTR_SHADOWCOLOR).GetColorValue()); const sal_uInt16 nShadowTransparence(rOriginalSet.Get(SDRATTR_SHADOWTRANSPARENCE).GetValue()); pRetval = rOriginal.CloneSdrObject(rOriginal.getSdrModelFromSdrObject()); DBG_ASSERT(pRetval, "ImpCreateShadowObjectClone: Could not clone object (!)"); // look for used stuff SdrObjListIter aIterator(rOriginal); bool bLineUsed(false); bool bAllFillUsed(false); bool bSolidFillUsed(false); bool bGradientFillUsed(false); bool bHatchFillUsed(false); bool bBitmapFillUsed(false); while(aIterator.IsMore()) { SdrObject* pObj = aIterator.Next(); drawing::FillStyle eFillStyle = pObj->GetMergedItem(XATTR_FILLSTYLE).GetValue(); if(!bLineUsed) { drawing::LineStyle eLineStyle = pObj->GetMergedItem(XATTR_LINESTYLE).GetValue(); if(drawing::LineStyle_NONE != eLineStyle) { bLineUsed = true; } } if(!bAllFillUsed) { if(!bSolidFillUsed && drawing::FillStyle_SOLID == eFillStyle) { bSolidFillUsed = true; bAllFillUsed = (bSolidFillUsed && bGradientFillUsed && bHatchFillUsed && bBitmapFillUsed); } if(!bGradientFillUsed && drawing::FillStyle_GRADIENT == eFillStyle) { bGradientFillUsed = true; bAllFillUsed = (bSolidFillUsed && bGradientFillUsed && bHatchFillUsed && bBitmapFillUsed); } if(!bHatchFillUsed && drawing::FillStyle_HATCH == eFillStyle) { bHatchFillUsed = true; bAllFillUsed = (bSolidFillUsed && bGradientFillUsed && bHatchFillUsed && bBitmapFillUsed); } if(!bBitmapFillUsed && drawing::FillStyle_BITMAP == eFillStyle) { bBitmapFillUsed = true; bAllFillUsed = (bSolidFillUsed && bGradientFillUsed && bHatchFillUsed && bBitmapFillUsed); } } } // translate to shadow coordinates pRetval->NbcMove(Size(nXDist, nYDist)); // set items as needed SfxItemSet aTempSet(rOriginalSet); // if a SvxWritingModeItem (Top->Bottom) is set the text object // is creating a paraobject, but paraobjects can not be created without model. So // we are preventing the crash by setting the writing mode always left to right, // this is not bad since our shadow geometry does not contain text. aTempSet.Put(SvxWritingModeItem(text::WritingMode_LR_TB, SDRATTR_TEXTDIRECTION)); // no shadow aTempSet.Put(makeSdrShadowItem(false)); aTempSet.Put(makeSdrShadowXDistItem(0)); aTempSet.Put(makeSdrShadowYDistItem(0)); // line color and transparency like shadow if(bLineUsed) { aTempSet.Put(XLineColorItem(OUString(), aShadowColor)); aTempSet.Put(XLineTransparenceItem(nShadowTransparence)); } // fill color and transparency like shadow if(bSolidFillUsed) { aTempSet.Put(XFillColorItem(OUString(), aShadowColor)); aTempSet.Put(XFillTransparenceItem(nShadowTransparence)); } // gradient and transparency like shadow if(bGradientFillUsed) { basegfx::BGradient aGradient(rOriginalSet.Get(XATTR_FILLGRADIENT).GetGradientValue()); sal_uInt8 nStartLuminance(Color(aGradient.GetColorStops().front().getStopColor()).GetLuminance()); sal_uInt8 nEndLuminance(Color(aGradient.GetColorStops().back().getStopColor()).GetLuminance()); if(aGradient.GetStartIntens() != 100) { nStartLuminance = static_cast(nStartLuminance * (static_cast(aGradient.GetStartIntens()) / 100.0)); } if(aGradient.GetEndIntens() != 100) { nEndLuminance = static_cast(nEndLuminance * (static_cast(aGradient.GetEndIntens()) / 100.0)); } ::Color aStartColor( static_cast((nStartLuminance * aShadowColor.GetRed()) / 256), static_cast((nStartLuminance * aShadowColor.GetGreen()) / 256), static_cast((nStartLuminance * aShadowColor.GetBlue()) / 256)); ::Color aEndColor( static_cast((nEndLuminance * aShadowColor.GetRed()) / 256), static_cast((nEndLuminance * aShadowColor.GetGreen()) / 256), static_cast((nEndLuminance * aShadowColor.GetBlue()) / 256)); aGradient.SetColorStops( basegfx::BColorStops( aStartColor.getBColor(), aEndColor.getBColor())); aTempSet.Put(XFillGradientItem(aGradient)); aTempSet.Put(XFillTransparenceItem(nShadowTransparence)); } // hatch and transparency like shadow if(bHatchFillUsed) { XHatch aHatch(rOriginalSet.Get(XATTR_FILLHATCH).GetHatchValue()); aHatch.SetColor(aShadowColor); aTempSet.Put(XFillHatchItem(aHatch)); aTempSet.Put(XFillTransparenceItem(nShadowTransparence)); } // bitmap and transparency like shadow if(bBitmapFillUsed) { GraphicObject aGraphicObject(rOriginalSet.Get(XATTR_FILLBITMAP).GetGraphicObject()); BitmapEx aBitmapEx(aGraphicObject.GetGraphic().GetBitmapEx()); if(!aBitmapEx.IsEmpty()) { ScopedVclPtr pVirDev(VclPtr::Create()); pVirDev->SetOutputSizePixel(aBitmapEx.GetSizePixel()); BitmapFilter::Filter(aBitmapEx, BitmapShadowFilter(aShadowColor)); pVirDev->DrawBitmapEx(Point(), aBitmapEx); aGraphicObject.SetGraphic(Graphic(pVirDev->GetBitmapEx(Point(0,0), aBitmapEx.GetSizePixel()))); } aTempSet.Put(XFillBitmapItem(aGraphicObject)); aTempSet.Put(XFillTransparenceItem(nShadowTransparence)); } // set attributes and paint shadow object pRetval->SetMergedItemSet( aTempSet ); } return pRetval; } uno::Reference const & SdrObjCustomShape::GetCustomShapeEngine() const { if (mxCustomShapeEngine.is()) return mxCustomShapeEngine; uno::Reference aXShape = GetXShapeForSdrObject(const_cast(this)); if ( !aXShape ) return mxCustomShapeEngine; const uno::Reference& xContext( ::comphelper::getProcessComponentContext() ); OUString aEngine(GetMergedItem( SDRATTR_CUSTOMSHAPE_ENGINE ).GetValue()); static constexpr OUStringLiteral sEnhancedCustomShapeEngine = u"com.sun.star.drawing.EnhancedCustomShapeEngine"; if ( aEngine.isEmpty() ) aEngine = sEnhancedCustomShapeEngine; { static constexpr OUString sCustomShape = u"CustomShape"_ustr; uno::Sequence aPropValues{ comphelper::makePropertyValue(sCustomShape, aXShape) }; uno::Sequence aArgument{ uno::Any(aPropValues) }; try { uno::Reference xInterface(xContext->getServiceManager()->createInstanceWithArgumentsAndContext(aEngine, aArgument, xContext)); if (xInterface.is()) mxCustomShapeEngine.set(xInterface, uno::UNO_QUERY); } catch (const loader::CannotActivateFactoryException&) { } } return mxCustomShapeEngine; } const SdrObject* SdrObjCustomShape::GetSdrObjectFromCustomShape() const { if ( !mXRenderedCustomShape.is() ) { uno::Reference xCustomShapeEngine( GetCustomShapeEngine() ); if ( xCustomShapeEngine.is() ) const_cast(this)->mXRenderedCustomShape = xCustomShapeEngine->render(); } SdrObject* pRenderedCustomShape = mXRenderedCustomShape.is() ? SdrObject::getSdrObjectFromXShape( mXRenderedCustomShape ) : nullptr; return pRenderedCustomShape; } // #i37011# Shadow geometry creation const SdrObject* SdrObjCustomShape::GetSdrObjectShadowFromCustomShape() const { if(!mpLastShadowGeometry) { const SdrObject* pSdrObject = GetSdrObjectFromCustomShape(); if(pSdrObject) { const SfxItemSet& rOriginalSet = GetObjectItemSet(); const bool bShadow(rOriginalSet.Get( SDRATTR_SHADOW ).GetValue()); if(bShadow) { // create a clone with all attributes changed to shadow attributes // and translation executed, too. const_cast(this)->mpLastShadowGeometry = ImpCreateShadowObjectClone(*pSdrObject, rOriginalSet); } } } return mpLastShadowGeometry.get(); } bool SdrObjCustomShape::IsTextPath() const { static constexpr OUString sTextPath( u"TextPath"_ustr ); bool bTextPathOn = false; const SdrCustomShapeGeometryItem& rGeometryItem = GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); const uno::Any* pAny = rGeometryItem.GetPropertyValueByName( sTextPath, sTextPath ); if ( pAny ) *pAny >>= bTextPathOn; return bTextPathOn; } bool SdrObjCustomShape::UseNoFillStyle() const { bool bRet = false; OUString sShapeType; static constexpr OUString sType( u"Type"_ustr ); const SdrCustomShapeGeometryItem& rGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); const uno::Any* pAny = rGeometryItem.GetPropertyValueByName( sType ); if ( pAny ) *pAny >>= sShapeType; bRet = !IsCustomShapeFilledByDefault( EnhancedCustomShapeTypeNames::Get( sType ) ); return bRet; } bool SdrObjCustomShape::IsMirroredX() const { bool bMirroredX = false; const SdrCustomShapeGeometryItem & rGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); const uno::Any* pAny = rGeometryItem.GetPropertyValueByName( u"MirroredX"_ustr ); if ( pAny ) *pAny >>= bMirroredX; return bMirroredX; } bool SdrObjCustomShape::IsMirroredY() const { bool bMirroredY = false; const SdrCustomShapeGeometryItem & rGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); const uno::Any* pAny = rGeometryItem.GetPropertyValueByName( u"MirroredY"_ustr ); if ( pAny ) *pAny >>= bMirroredY; return bMirroredY; } void SdrObjCustomShape::SetMirroredX( const bool bMirrorX ) { SdrCustomShapeGeometryItem aGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); beans::PropertyValue aPropVal; aPropVal.Name = "MirroredX"; aPropVal.Value <<= bMirrorX; aGeometryItem.SetPropertyValue( aPropVal ); SetMergedItem( aGeometryItem ); } void SdrObjCustomShape::SetMirroredY( const bool bMirrorY ) { SdrCustomShapeGeometryItem aGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); beans::PropertyValue aPropVal; aPropVal.Name = "MirroredY"; aPropVal.Value <<= bMirrorY; aGeometryItem.SetPropertyValue( aPropVal ); SetMergedItem( aGeometryItem ); } double SdrObjCustomShape::GetExtraTextRotation( const bool bPreRotation ) const { double fExtraTextRotateAngle = 0.0; if (bPreRotation) { // textPreRotateAngle might be set by macro or diagram (SmartArt) import const uno::Any* pAny; const SdrCustomShapeGeometryItem& rGeometryItem = GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); pAny = rGeometryItem.GetPropertyValueByName(u"TextPreRotateAngle"_ustr); if ( pAny ) *pAny >>= fExtraTextRotateAngle; // As long as the edit engine is not able to render these text directions we // emulate them by setting a suitable text pre-rotation. const SvxFrameDirectionItem& rDirectionItem = GetMergedItem(SDRATTR_WRITINGMODE2); if (rDirectionItem.GetValue() == SvxFrameDirection::Vertical_RL_TB90) fExtraTextRotateAngle -= 90; else if (rDirectionItem.GetValue() == SvxFrameDirection::Vertical_LR_BT) fExtraTextRotateAngle -=270; } else { const uno::Any* pAny; const SdrCustomShapeGeometryItem& rGeometryItem = GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); pAny = rGeometryItem.GetPropertyValueByName(u"TextRotateAngle"_ustr); if ( pAny ) *pAny >>= fExtraTextRotateAngle; } return fExtraTextRotateAngle; } bool SdrObjCustomShape::GetTextBounds( tools::Rectangle& rTextBound ) const { bool bRet = false; uno::Reference xCustomShapeEngine( GetCustomShapeEngine() ); if ( xCustomShapeEngine.is() ) { awt::Rectangle aR( xCustomShapeEngine->getTextBounds() ); if ( aR.Width > 1 && aR.Height > 1 ) { rTextBound = tools::Rectangle( Point( aR.X, aR.Y ), Size( aR.Width, aR.Height ) ); bRet = true; } } return bRet; } basegfx::B2DPolyPolygon SdrObjCustomShape::GetLineGeometry( const bool bBezierAllowed ) const { basegfx::B2DPolyPolygon aRetval; uno::Reference xCustomShapeEngine( GetCustomShapeEngine() ); if ( xCustomShapeEngine.is() ) { drawing::PolyPolygonBezierCoords aBezierCoords = xCustomShapeEngine->getLineGeometry(); try { aRetval = basegfx::utils::UnoPolyPolygonBezierCoordsToB2DPolyPolygon( aBezierCoords ); if ( !bBezierAllowed && aRetval.areControlPointsUsed()) { aRetval = basegfx::utils::adaptiveSubdivideByAngle(aRetval); } } catch ( const lang::IllegalArgumentException & ) { } } return aRetval; } std::vector< SdrCustomShapeInteraction > SdrObjCustomShape::GetInteractionHandles() const { std::vector< SdrCustomShapeInteraction > aRet; try { uno::Reference xCustomShapeEngine( GetCustomShapeEngine() ); if ( xCustomShapeEngine.is() ) { int i; uno::Sequence> xInteractionHandles( xCustomShapeEngine->getInteraction() ); for ( i = 0; i < xInteractionHandles.getLength(); i++ ) { if ( xInteractionHandles[ i ].is() ) { SdrCustomShapeInteraction aSdrCustomShapeInteraction; aSdrCustomShapeInteraction.xInteraction = xInteractionHandles[ i ]; aSdrCustomShapeInteraction.aPosition = xInteractionHandles[ i ]->getPosition(); CustomShapeHandleModes nMode = CustomShapeHandleModes::NONE; switch( ImpGetCustomShapeType( *this ) ) { case mso_sptAccentBorderCallout90 : // 2 ortho { if (i == 0) nMode |= CustomShapeHandleModes::RESIZE_FIXED | CustomShapeHandleModes::CREATE_FIXED; else if (i == 1) nMode |= CustomShapeHandleModes::RESIZE_ABSOLUTE_X | CustomShapeHandleModes::RESIZE_ABSOLUTE_Y | CustomShapeHandleModes::MOVE_SHAPE | CustomShapeHandleModes::ORTHO4; } break; case mso_sptChevron : case mso_sptHomePlate : nMode |= CustomShapeHandleModes::RESIZE_ABSOLUTE_NEGX; break; case mso_sptWedgeRectCallout : case mso_sptWedgeRRectCallout : case mso_sptCloudCallout : case mso_sptWedgeEllipseCallout : { if (i == 0) nMode |= CustomShapeHandleModes::RESIZE_FIXED; } break; case mso_sptBorderCallout1 : // 2 diag { if (i == 0) nMode |= CustomShapeHandleModes::RESIZE_FIXED | CustomShapeHandleModes::CREATE_FIXED; else if (i == 1) nMode |= CustomShapeHandleModes::RESIZE_ABSOLUTE_X | CustomShapeHandleModes::RESIZE_ABSOLUTE_Y | CustomShapeHandleModes::MOVE_SHAPE; } break; case mso_sptBorderCallout2 : // 3 { if (i == 0) nMode |= CustomShapeHandleModes::RESIZE_FIXED | CustomShapeHandleModes::CREATE_FIXED; else if (i == 2) nMode |= CustomShapeHandleModes::RESIZE_ABSOLUTE_X | CustomShapeHandleModes::RESIZE_ABSOLUTE_Y | CustomShapeHandleModes::MOVE_SHAPE; } break; case mso_sptCallout90 : case mso_sptAccentCallout90 : case mso_sptBorderCallout90 : case mso_sptCallout1 : case mso_sptCallout2 : case mso_sptCallout3 : case mso_sptAccentCallout1 : case mso_sptAccentCallout2 : case mso_sptAccentCallout3 : case mso_sptBorderCallout3 : case mso_sptAccentBorderCallout1 : case mso_sptAccentBorderCallout2 : case mso_sptAccentBorderCallout3 : { if (i == 0) nMode |= CustomShapeHandleModes::RESIZE_FIXED | CustomShapeHandleModes::CREATE_FIXED; } break; default: break; } aSdrCustomShapeInteraction.nMode = nMode; aRet.push_back( aSdrCustomShapeInteraction ); } } } } catch( const uno::RuntimeException& ) { } return aRet; } // BaseProperties section #define DEFAULT_MINIMUM_SIGNED_COMPARE (sal_Int32(0x80000000)) #define DEFAULT_MAXIMUM_SIGNED_COMPARE (sal_Int32(0x7fffffff)) static sal_Int32 GetNumberOfProperties ( const SvxMSDffHandle* pData ) { sal_Int32 nPropertiesNeeded=1; // position is always needed SvxMSDffHandleFlags nFlags = pData->nFlags; if ( nFlags & SvxMSDffHandleFlags::MIRRORED_X ) nPropertiesNeeded++; if ( nFlags & SvxMSDffHandleFlags::MIRRORED_Y ) nPropertiesNeeded++; if ( nFlags & SvxMSDffHandleFlags::SWITCHED ) nPropertiesNeeded++; if ( nFlags & SvxMSDffHandleFlags::POLAR ) { nPropertiesNeeded++; if ( nFlags & SvxMSDffHandleFlags::RADIUS_RANGE ) { if ( pData->nRangeXMin != DEFAULT_MINIMUM_SIGNED_COMPARE ) nPropertiesNeeded++; if ( pData->nRangeXMax != DEFAULT_MAXIMUM_SIGNED_COMPARE ) nPropertiesNeeded++; } } else if ( nFlags & SvxMSDffHandleFlags::RANGE ) { if ( pData->nRangeXMin != DEFAULT_MINIMUM_SIGNED_COMPARE ) nPropertiesNeeded++; if ( pData->nRangeXMax != DEFAULT_MAXIMUM_SIGNED_COMPARE ) nPropertiesNeeded++; if ( pData->nRangeYMin != DEFAULT_MINIMUM_SIGNED_COMPARE ) nPropertiesNeeded++; if ( pData->nRangeYMax != DEFAULT_MAXIMUM_SIGNED_COMPARE ) nPropertiesNeeded++; } return nPropertiesNeeded; } static void lcl_ShapePropertiesFromDFF( const SvxMSDffHandle* pData, beans::PropertyValues& rPropValues ) { SvxMSDffHandleFlags nFlags = pData->nFlags; sal_Int32 n=0; auto pPropValues = rPropValues.getArray(); // POSITION { drawing::EnhancedCustomShapeParameterPair aPosition; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aPosition.First, pData->nPositionX, true, true ); EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aPosition.Second, pData->nPositionY, true, false ); pPropValues[ n ].Name = "Position"; pPropValues[ n++ ].Value <<= aPosition; } if ( nFlags & SvxMSDffHandleFlags::MIRRORED_X ) { pPropValues[ n ].Name = "MirroredX"; pPropValues[ n++ ].Value <<= true; } if ( nFlags & SvxMSDffHandleFlags::MIRRORED_Y ) { pPropValues[ n ].Name = "MirroredY"; pPropValues[ n++ ].Value <<= true; } if ( nFlags & SvxMSDffHandleFlags::SWITCHED ) { pPropValues[ n ].Name = "Switched"; pPropValues[ n++ ].Value <<= true; } if ( nFlags & SvxMSDffHandleFlags::POLAR ) { drawing::EnhancedCustomShapeParameterPair aCenter; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aCenter.First, pData->nCenterX, bool( nFlags & SvxMSDffHandleFlags::CENTER_X_IS_SPECIAL ), true ); EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aCenter.Second, pData->nCenterY, bool( nFlags & SvxMSDffHandleFlags::CENTER_Y_IS_SPECIAL ), false ); pPropValues[ n ].Name = "Polar"; pPropValues[ n++ ].Value <<= aCenter; if ( nFlags & SvxMSDffHandleFlags::RADIUS_RANGE ) { if ( pData->nRangeXMin != DEFAULT_MINIMUM_SIGNED_COMPARE ) { drawing::EnhancedCustomShapeParameter aRadiusRangeMinimum; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aRadiusRangeMinimum, pData->nRangeXMin, bool( nFlags & SvxMSDffHandleFlags::RANGE_X_MIN_IS_SPECIAL ), true ); pPropValues[ n ].Name = "RadiusRangeMinimum"; pPropValues[ n++ ].Value <<= aRadiusRangeMinimum; } if ( pData->nRangeXMax != DEFAULT_MAXIMUM_SIGNED_COMPARE ) { drawing::EnhancedCustomShapeParameter aRadiusRangeMaximum; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aRadiusRangeMaximum, pData->nRangeXMax, bool( nFlags & SvxMSDffHandleFlags::RANGE_X_MAX_IS_SPECIAL ), false ); pPropValues[ n ].Name = "RadiusRangeMaximum"; pPropValues[ n++ ].Value <<= aRadiusRangeMaximum; } } } else if ( nFlags & SvxMSDffHandleFlags::RANGE ) { if ( pData->nRangeXMin != DEFAULT_MINIMUM_SIGNED_COMPARE ) { drawing::EnhancedCustomShapeParameter aRangeXMinimum; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aRangeXMinimum, pData->nRangeXMin, bool( nFlags & SvxMSDffHandleFlags::RANGE_X_MIN_IS_SPECIAL ), true ); pPropValues[ n ].Name = "RangeXMinimum"; pPropValues[ n++ ].Value <<= aRangeXMinimum; } if ( pData->nRangeXMax != DEFAULT_MAXIMUM_SIGNED_COMPARE ) { drawing::EnhancedCustomShapeParameter aRangeXMaximum; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aRangeXMaximum, pData->nRangeXMax, bool( nFlags & SvxMSDffHandleFlags::RANGE_X_MAX_IS_SPECIAL ), false ); pPropValues[ n ].Name = "RangeXMaximum"; pPropValues[ n++ ].Value <<= aRangeXMaximum; } if ( pData->nRangeYMin != DEFAULT_MINIMUM_SIGNED_COMPARE ) { drawing::EnhancedCustomShapeParameter aRangeYMinimum; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aRangeYMinimum, pData->nRangeYMin, bool( nFlags & SvxMSDffHandleFlags::RANGE_Y_MIN_IS_SPECIAL ), true ); pPropValues[ n ].Name = "RangeYMinimum"; pPropValues[ n++ ].Value <<= aRangeYMinimum; } if ( pData->nRangeYMax != DEFAULT_MAXIMUM_SIGNED_COMPARE ) { drawing::EnhancedCustomShapeParameter aRangeYMaximum; EnhancedCustomShape2d::SetEnhancedCustomShapeHandleParameter( aRangeYMaximum, pData->nRangeYMax, bool( nFlags & SvxMSDffHandleFlags::RANGE_Y_MAX_IS_SPECIAL ), false ); pPropValues[ n ].Name = "RangeYMaximum"; pPropValues[ n++ ].Value <<= aRangeYMaximum; } } } std::unique_ptr SdrObjCustomShape::CreateObjectSpecificProperties() { return std::make_unique(*this); } SdrObjCustomShape::SdrObjCustomShape(SdrModel& rSdrModel) : SdrTextObj(rSdrModel) , m_fObjectRotation(0.0) , mbAdjustingTextFrameWidthAndHeight(false) { m_bClosedObj = true; // custom shapes may be filled mbTextFrame = true; } SdrObjCustomShape::SdrObjCustomShape(SdrModel& rSdrModel, SdrObjCustomShape const & rSource) : SdrTextObj(rSdrModel, rSource) , m_fObjectRotation(0.0) , mbAdjustingTextFrameWidthAndHeight(false) { m_bClosedObj = true; // custom shapes may be filled mbTextFrame = true; m_fObjectRotation = rSource.m_fObjectRotation; mbAdjustingTextFrameWidthAndHeight = rSource.mbAdjustingTextFrameWidthAndHeight; assert(!mbAdjustingTextFrameWidthAndHeight); InvalidateRenderGeometry(); } SdrObjCustomShape::~SdrObjCustomShape() { // delete buffered display geometry InvalidateRenderGeometry(); } void SdrObjCustomShape::MergeDefaultAttributes( const OUString* pType ) { beans::PropertyValue aPropVal; OUString sShapeType; static constexpr OUString sType( u"Type"_ustr ); SdrCustomShapeGeometryItem aGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); if ( pType && !pType->isEmpty() ) { sal_Int32 nType = pType->toInt32(); if ( nType ) sShapeType = EnhancedCustomShapeTypeNames::Get( static_cast< MSO_SPT >( nType ) ); else sShapeType = *pType; aPropVal.Name = sType; aPropVal.Value <<= sShapeType; aGeometryItem.SetPropertyValue( aPropVal ); } else { uno::Any *pAny = aGeometryItem.GetPropertyValueByName( sType ); if ( pAny ) *pAny >>= sShapeType; } MSO_SPT eSpType = EnhancedCustomShapeTypeNames::Get( sShapeType ); const sal_Int32* pDefData = nullptr; const mso_CustomShape* pDefCustomShape = GetCustomShapeContent( eSpType ); if ( pDefCustomShape ) pDefData = pDefCustomShape->pDefData; uno::Sequence seqAdjustmentValues; // AdjustmentValues static constexpr OUString sAdjustmentValues( u"AdjustmentValues"_ustr ); const uno::Any* pAny = aGeometryItem.GetPropertyValueByName( sAdjustmentValues ); if ( pAny ) *pAny >>= seqAdjustmentValues; if ( pDefCustomShape && pDefData ) // now check if we have to default some adjustment values { // first check if there are adjustment values are to be appended sal_Int32 i, nAdjustmentValues = seqAdjustmentValues.getLength(); sal_Int32 nAdjustmentDefaults = *pDefData++; if ( nAdjustmentDefaults > nAdjustmentValues ) seqAdjustmentValues.realloc( nAdjustmentDefaults ); auto pseqAdjustmentValues = seqAdjustmentValues.getArray(); for ( i = nAdjustmentValues; i < nAdjustmentDefaults; i++ ) { pseqAdjustmentValues[ i ].Value <<= pDefData[ i ]; pseqAdjustmentValues[ i ].State = beans::PropertyState_DIRECT_VALUE; } // check if there are defaulted adjustment values that should be filled the hard coded defaults (pDefValue) sal_Int32 nCount = std::min(nAdjustmentValues, nAdjustmentDefaults); for ( i = 0; i < nCount; i++ ) { if ( seqAdjustmentValues[ i ].State != beans::PropertyState_DIRECT_VALUE ) { pseqAdjustmentValues[ i ].Value <<= pDefData[ i ]; pseqAdjustmentValues[ i ].State = beans::PropertyState_DIRECT_VALUE; } } } aPropVal.Name = sAdjustmentValues; aPropVal.Value <<= seqAdjustmentValues; aGeometryItem.SetPropertyValue( aPropVal ); // Coordsize static constexpr OUString sViewBox( u"ViewBox"_ustr ); const uno::Any* pViewBox = aGeometryItem.GetPropertyValueByName( sViewBox ); awt::Rectangle aViewBox; if ( !pViewBox || !(*pViewBox >>= aViewBox ) ) { if ( pDefCustomShape ) { aViewBox.X = 0; aViewBox.Y = 0; aViewBox.Width = pDefCustomShape->nCoordWidth; aViewBox.Height= pDefCustomShape->nCoordHeight; aPropVal.Name = sViewBox; aPropVal.Value <<= aViewBox; aGeometryItem.SetPropertyValue( aPropVal ); } } static constexpr OUString sPath( u"Path"_ustr ); // Path/Coordinates static constexpr OUString sCoordinates( u"Coordinates"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sPath, sCoordinates ); if (!pAny && pDefCustomShape && !pDefCustomShape->pVertices.empty()) { sal_Int32 i, nCount = pDefCustomShape->pVertices.size(); uno::Sequence seqCoordinates( nCount ); auto pseqCoordinates = seqCoordinates.getArray(); for ( i = 0; i < nCount; i++ ) { EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqCoordinates[ i ].First, pDefCustomShape->pVertices[ i ].nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqCoordinates[ i ].Second, pDefCustomShape->pVertices[ i ].nValB ); } aPropVal.Name = sCoordinates; aPropVal.Value <<= seqCoordinates; aGeometryItem.SetPropertyValue( sPath, aPropVal ); } // Path/GluePoints static constexpr OUString sGluePoints( u"GluePoints"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sPath, sGluePoints ); if (!pAny && pDefCustomShape && !pDefCustomShape->pGluePoints.empty()) { sal_Int32 i, nCount = pDefCustomShape->pGluePoints.size(); uno::Sequence seqGluePoints( nCount ); auto pseqGluePoints = seqGluePoints.getArray(); for ( i = 0; i < nCount; i++ ) { EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqGluePoints[ i ].First, pDefCustomShape->pGluePoints[ i ].nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqGluePoints[ i ].Second, pDefCustomShape->pGluePoints[ i ].nValB ); } aPropVal.Name = sGluePoints; aPropVal.Value <<= seqGluePoints; aGeometryItem.SetPropertyValue( sPath, aPropVal ); } // Path/Segments static constexpr OUString sSegments( u"Segments"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sPath, sSegments ); if ( !pAny && pDefCustomShape && pDefCustomShape->nElements && pDefCustomShape->pElements ) { sal_Int32 i, nCount = pDefCustomShape->nElements; uno::Sequence seqSegments( nCount ); auto pseqSegments = seqSegments.getArray(); for ( i = 0; i < nCount; i++ ) { drawing::EnhancedCustomShapeSegment& rSegInfo = pseqSegments[ i ]; sal_uInt16 nSDat = pDefCustomShape->pElements[ i ]; lcl_ShapeSegmentFromBinary( rSegInfo, nSDat ); } aPropVal.Name = sSegments; aPropVal.Value <<= seqSegments; aGeometryItem.SetPropertyValue( sPath, aPropVal ); } // Path/StretchX static constexpr OUString sStretchX( u"StretchX"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sPath, sStretchX ); if ( !pAny && pDefCustomShape ) { sal_Int32 nXRef = pDefCustomShape->nXRef; if ( nXRef != DEFAULT_MINIMUM_SIGNED_COMPARE ) { aPropVal.Name = sStretchX; aPropVal.Value <<= nXRef; aGeometryItem.SetPropertyValue( sPath, aPropVal ); } } // Path/StretchY static constexpr OUString sStretchY( u"StretchY"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sPath, sStretchY ); if ( !pAny && pDefCustomShape ) { sal_Int32 nYRef = pDefCustomShape->nYRef; if ( nYRef != DEFAULT_MINIMUM_SIGNED_COMPARE ) { aPropVal.Name = sStretchY; aPropVal.Value <<= nYRef; aGeometryItem.SetPropertyValue( sPath, aPropVal ); } } // Path/TextFrames static constexpr OUString sTextFrames( u"TextFrames"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sPath, sTextFrames ); if (!pAny && pDefCustomShape && !pDefCustomShape->pTextRect.empty()) { sal_Int32 i, nCount = pDefCustomShape->pTextRect.size(); uno::Sequence seqTextFrames( nCount ); auto pseqTextFrames = seqTextFrames.getArray(); for (i = 0; i < nCount; i++) { const SvxMSDffTextRectangles* pRectangles = &pDefCustomShape->pTextRect[i]; EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames[ i ].TopLeft.First, pRectangles->nPairA.nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames[ i ].TopLeft.Second, pRectangles->nPairA.nValB ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames[ i ].BottomRight.First, pRectangles->nPairB.nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames[ i ].BottomRight.Second, pRectangles->nPairB.nValB ); } aPropVal.Name = sTextFrames; aPropVal.Value <<= seqTextFrames; aGeometryItem.SetPropertyValue( sPath, aPropVal ); } // Equations static constexpr OUString sEquations( u"Equations"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sEquations ); if (!pAny && pDefCustomShape && !pDefCustomShape->pCalculation.empty() ) { sal_Int32 i, nCount = pDefCustomShape->pCalculation.size(); uno::Sequence< OUString > seqEquations( nCount ); auto pseqEquations = seqEquations.getArray(); for (i = 0; i < nCount; i++) { const SvxMSDffCalculationData* pData = &pDefCustomShape->pCalculation[i]; pseqEquations[ i ] = EnhancedCustomShape2d::GetEquation( pData->nFlags, pData->nVal[ 0 ], pData->nVal[ 1 ], pData->nVal[ 2 ] ); } aPropVal.Name = sEquations; aPropVal.Value <<= seqEquations; aGeometryItem.SetPropertyValue( aPropVal ); } // Handles static constexpr OUString sHandles( u"Handles"_ustr ); pAny = aGeometryItem.GetPropertyValueByName( sHandles ); if (!pAny && pDefCustomShape && !pDefCustomShape->pHandles.empty()) { sal_Int32 i, nCount = pDefCustomShape->pHandles.size(); uno::Sequence seqHandles( nCount ); auto pseqHandles = seqHandles.getArray(); for (i = 0; i < nCount; i++) { const SvxMSDffHandle* pData = &pDefCustomShape->pHandles[i]; sal_Int32 nPropertiesNeeded; beans::PropertyValues& rPropValues = pseqHandles[ i ]; nPropertiesNeeded = GetNumberOfProperties( pData ); rPropValues.realloc( nPropertiesNeeded ); lcl_ShapePropertiesFromDFF( pData, rPropValues ); } aPropVal.Name = sHandles; aPropVal.Value <<= seqHandles; aGeometryItem.SetPropertyValue( aPropVal ); } else if (pAny && sShapeType.startsWith("ooxml-") && sShapeType != "ooxml-non-primitive") { // ODF is not able to store the ooxml way of connecting handle to an adjustment // value by name, e.g. attribute RefX="adj". So the information is lost, when exporting // a pptx to odp, for example. This part reconstructs this information for the // ooxml preset shapes from their definition. uno::Sequence seqHandles; *pAny >>= seqHandles; auto seqHandlesRange = asNonConstRange(seqHandles); bool bChanged(false); for (sal_Int32 i = 0; i < seqHandles.getLength(); i++) { comphelper::SequenceAsHashMap aHandleProps(seqHandles[i]); OUString sFirstRefType; sal_Int32 nFirstAdjRef; OUString sSecondRefType; sal_Int32 nSecondAdjRef; PresetOOXHandleAdj::GetOOXHandleAdjRelation(sShapeType, i, sFirstRefType, nFirstAdjRef, sSecondRefType, nSecondAdjRef); if (sFirstRefType != "na" && 0 <= nFirstAdjRef && nFirstAdjRef < seqAdjustmentValues.getLength()) { bChanged |= aHandleProps.createItemIfMissing(sFirstRefType, nFirstAdjRef); } if (sSecondRefType != "na" && 0 <= nSecondAdjRef && nSecondAdjRef < seqAdjustmentValues.getLength()) { bChanged |= aHandleProps.createItemIfMissing(sSecondRefType, nSecondAdjRef); } aHandleProps >> seqHandlesRange[i]; } if (bChanged) { aPropVal.Name = sHandles; aPropVal.Value <<= seqHandles; aGeometryItem.SetPropertyValue(aPropVal); } } SetMergedItem( aGeometryItem ); } bool SdrObjCustomShape::IsDefaultGeometry( const DefaultType eDefaultType ) const { bool bIsDefaultGeometry = false; OUString sShapeType; const SdrCustomShapeGeometryItem & rGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); const uno::Any *pAny = rGeometryItem.GetPropertyValueByName( u"Type"_ustr ); if ( pAny ) *pAny >>= sShapeType; MSO_SPT eSpType = EnhancedCustomShapeTypeNames::Get( sShapeType ); const mso_CustomShape* pDefCustomShape = GetCustomShapeContent( eSpType ); static constexpr OUString sPath( u"Path"_ustr ); switch( eDefaultType ) { case DefaultType::Viewbox : { const uno::Any* pViewBox = rGeometryItem.GetPropertyValueByName( u"ViewBox"_ustr ); awt::Rectangle aViewBox; if (pViewBox && (*pViewBox >>= aViewBox) && pDefCustomShape) { if ( ( aViewBox.Width == pDefCustomShape->nCoordWidth ) && ( aViewBox.Height == pDefCustomShape->nCoordHeight ) ) bIsDefaultGeometry = true; } } break; case DefaultType::Path : { pAny = rGeometryItem.GetPropertyValueByName( sPath, u"Coordinates"_ustr ); if (pAny && pDefCustomShape && !pDefCustomShape->pVertices.empty()) { uno::Sequence seqCoordinates1; if ( *pAny >>= seqCoordinates1 ) { sal_Int32 i, nCount = pDefCustomShape->pVertices.size(); uno::Sequence seqCoordinates2( nCount ); auto pseqCoordinates2 = seqCoordinates2.getArray(); for ( i = 0; i < nCount; i++ ) { EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqCoordinates2[ i ].First, pDefCustomShape->pVertices[ i ].nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqCoordinates2[ i ].Second, pDefCustomShape->pVertices[ i ].nValB ); } if ( seqCoordinates1 == seqCoordinates2 ) bIsDefaultGeometry = true; } } else if (pDefCustomShape && pDefCustomShape->pVertices.empty()) bIsDefaultGeometry = true; } break; case DefaultType::Gluepoints : { pAny = rGeometryItem.GetPropertyValueByName( sPath, u"GluePoints"_ustr ); if (pAny && pDefCustomShape && !pDefCustomShape->pGluePoints.empty()) { uno::Sequence seqGluePoints1; if ( *pAny >>= seqGluePoints1 ) { sal_Int32 i, nCount = pDefCustomShape->pGluePoints.size(); uno::Sequence seqGluePoints2( nCount ); auto pseqGluePoints2 = seqGluePoints2.getArray(); for ( i = 0; i < nCount; i++ ) { EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqGluePoints2[ i ].First, pDefCustomShape->pGluePoints[ i ].nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqGluePoints2[ i ].Second, pDefCustomShape->pGluePoints[ i ].nValB ); } if ( seqGluePoints1 == seqGluePoints2 ) bIsDefaultGeometry = true; } } else if (pDefCustomShape && pDefCustomShape->pGluePoints.empty()) bIsDefaultGeometry = true; } break; case DefaultType::Segments : { // Path/Segments pAny = rGeometryItem.GetPropertyValueByName( sPath, u"Segments"_ustr ); if ( pAny ) { uno::Sequence seqSegments1; if ( *pAny >>= seqSegments1 ) { if ( pDefCustomShape && pDefCustomShape->nElements && pDefCustomShape->pElements ) { sal_Int32 i, nCount = pDefCustomShape->nElements; if ( nCount ) { uno::Sequence seqSegments2( nCount ); auto pseqSegments2 = seqSegments2.getArray(); for ( i = 0; i < nCount; i++ ) { drawing::EnhancedCustomShapeSegment& rSegInfo = pseqSegments2[ i ]; sal_uInt16 nSDat = pDefCustomShape->pElements[ i ]; lcl_ShapeSegmentFromBinary( rSegInfo, nSDat ); } if ( seqSegments1 == seqSegments2 ) bIsDefaultGeometry = true; } } else { // check if it's the default segment description ( M L Z N ) if ( seqSegments1.getLength() == 4 ) { if ( ( seqSegments1[ 0 ].Command == drawing::EnhancedCustomShapeSegmentCommand::MOVETO ) && ( seqSegments1[ 1 ].Command == drawing::EnhancedCustomShapeSegmentCommand::LINETO ) && ( seqSegments1[ 2 ].Command == drawing::EnhancedCustomShapeSegmentCommand::CLOSESUBPATH ) && ( seqSegments1[ 3 ].Command == drawing::EnhancedCustomShapeSegmentCommand::ENDSUBPATH ) ) bIsDefaultGeometry = true; } } } } else if ( pDefCustomShape && ( ( pDefCustomShape->nElements == 0 ) || ( pDefCustomShape->pElements == nullptr ) ) ) bIsDefaultGeometry = true; } break; case DefaultType::StretchX : { pAny = rGeometryItem.GetPropertyValueByName( sPath, u"StretchX"_ustr ); if ( pAny && pDefCustomShape ) { sal_Int32 nStretchX = 0; if ( *pAny >>= nStretchX ) { if ( pDefCustomShape->nXRef == nStretchX ) bIsDefaultGeometry = true; } } else if ( pDefCustomShape && ( pDefCustomShape->nXRef == DEFAULT_MINIMUM_SIGNED_COMPARE ) ) bIsDefaultGeometry = true; } break; case DefaultType::StretchY : { pAny = rGeometryItem.GetPropertyValueByName( sPath, u"StretchY"_ustr ); if ( pAny && pDefCustomShape ) { sal_Int32 nStretchY = 0; if ( *pAny >>= nStretchY ) { if ( pDefCustomShape->nYRef == nStretchY ) bIsDefaultGeometry = true; } } else if ( pDefCustomShape && ( pDefCustomShape->nYRef == DEFAULT_MINIMUM_SIGNED_COMPARE ) ) bIsDefaultGeometry = true; } break; case DefaultType::Equations : { pAny = rGeometryItem.GetPropertyValueByName( u"Equations"_ustr ); if (pAny && pDefCustomShape && !pDefCustomShape->pCalculation.empty()) { uno::Sequence seqEquations1; if ( *pAny >>= seqEquations1 ) { sal_Int32 i, nCount = pDefCustomShape->pCalculation.size(); uno::Sequence seqEquations2( nCount ); auto pseqEquations2 = seqEquations2.getArray(); for (i = 0; i < nCount; i++) { const SvxMSDffCalculationData* pData = &pDefCustomShape->pCalculation[i]; pseqEquations2[ i ] = EnhancedCustomShape2d::GetEquation( pData->nFlags, pData->nVal[ 0 ], pData->nVal[ 1 ], pData->nVal[ 2 ] ); } if ( seqEquations1 == seqEquations2 ) bIsDefaultGeometry = true; } } else if (pDefCustomShape && pDefCustomShape->pCalculation.empty()) bIsDefaultGeometry = true; } break; case DefaultType::TextFrames : { pAny = rGeometryItem.GetPropertyValueByName( sPath, u"TextFrames"_ustr ); if (pAny && pDefCustomShape && !pDefCustomShape->pTextRect.empty()) { uno::Sequence seqTextFrames1; if ( *pAny >>= seqTextFrames1 ) { sal_Int32 i, nCount = pDefCustomShape->pTextRect.size(); uno::Sequence seqTextFrames2( nCount ); auto pseqTextFrames2 = seqTextFrames2.getArray(); for (i = 0; i < nCount; i++) { const SvxMSDffTextRectangles* pRectangles = &pDefCustomShape->pTextRect[i]; EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames2[ i ].TopLeft.First, pRectangles->nPairA.nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames2[ i ].TopLeft.Second, pRectangles->nPairA.nValB ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames2[ i ].BottomRight.First, pRectangles->nPairB.nValA ); EnhancedCustomShape2d::SetEnhancedCustomShapeParameter( pseqTextFrames2[ i ].BottomRight.Second, pRectangles->nPairB.nValB ); } if ( seqTextFrames1 == seqTextFrames2 ) bIsDefaultGeometry = true; } } else if (pDefCustomShape && pDefCustomShape->pTextRect.empty()) bIsDefaultGeometry = true; } break; } return bIsDefaultGeometry; } void SdrObjCustomShape::TakeObjInfo(SdrObjTransformInfoRec& rInfo) const { rInfo.bResizeFreeAllowed=m_fObjectRotation == 0.0; rInfo.bResizePropAllowed=true; rInfo.bRotateFreeAllowed=true; rInfo.bRotate90Allowed =true; rInfo.bMirrorFreeAllowed=true; rInfo.bMirror45Allowed =true; rInfo.bMirror90Allowed =true; rInfo.bTransparenceAllowed = false; rInfo.bShearAllowed =true; rInfo.bEdgeRadiusAllowed=false; rInfo.bNoContortion =true; // #i37011# if ( !mXRenderedCustomShape.is() ) return; const SdrObject* pRenderedCustomShape = SdrObject::getSdrObjectFromXShape( mXRenderedCustomShape ); if ( !pRenderedCustomShape ) return; // #i37262# // Iterate self over the contained objects, since there are combinations of // polygon and curve objects. In that case, aInfo.bCanConvToPath and // aInfo.bCanConvToPoly would be false. What is needed here is an or, not an and. SdrObjListIter aIterator(*pRenderedCustomShape); while(aIterator.IsMore()) { SdrObject* pCandidate = aIterator.Next(); SdrObjTransformInfoRec aInfo; pCandidate->TakeObjInfo(aInfo); // set path and poly conversion if one is possible since // this object will first be broken const bool bCanConvToPathOrPoly(aInfo.bCanConvToPath || aInfo.bCanConvToPoly); if(rInfo.bCanConvToPath != bCanConvToPathOrPoly) { rInfo.bCanConvToPath = bCanConvToPathOrPoly; } if(rInfo.bCanConvToPoly != bCanConvToPathOrPoly) { rInfo.bCanConvToPoly = bCanConvToPathOrPoly; } if(rInfo.bCanConvToContour != aInfo.bCanConvToContour) { rInfo.bCanConvToContour = aInfo.bCanConvToContour; } if(rInfo.bShearAllowed != aInfo.bShearAllowed) { rInfo.bShearAllowed = aInfo.bShearAllowed; } } } SdrObjKind SdrObjCustomShape::GetObjIdentifier() const { return SdrObjKind::CustomShape; } // #115391# This implementation is based on the TextFrame size of the CustomShape and the // state of the ResizeShapeToFitText flag to correctly set TextMinFrameWidth/Height void SdrObjCustomShape::AdaptTextMinSize() { if (getSdrModelFromSdrObject().IsCreatingDataObj() || getSdrModelFromSdrObject().IsPasteResize()) return; // check if we need to change anything before creating an SfxItemSet, because that is expensive const bool bResizeShapeToFitText(GetObjectItem(SDRATTR_TEXT_AUTOGROWHEIGHT).GetValue()); tools::Rectangle aTextBound(getRectangle()); bool bChanged(false); if(bResizeShapeToFitText) bChanged = true; else if(GetTextBounds(aTextBound)) bChanged = true; if (!bChanged) return; SfxItemSetFixed // contains SDRATTR_TEXT_MAXFRAMEWIDTH aSet(*GetObjectItemSet().GetPool()); if(bResizeShapeToFitText) { // always reset MinWidthHeight to zero to only rely on text size and frame size // to allow resizing being completely dependent on text size only aSet.Put(makeSdrTextMinFrameWidthItem(0)); aSet.Put(makeSdrTextMinFrameHeightItem(0)); } else { // recreate from CustomShape-specific TextBounds const tools::Long nHDist(GetTextLeftDistance() + GetTextRightDistance()); const tools::Long nVDist(GetTextUpperDistance() + GetTextLowerDistance()); const tools::Long nTWdt(std::max(tools::Long(0), static_cast(aTextBound.GetWidth() - 1 - nHDist))); const tools::Long nTHgt(std::max(tools::Long(0), static_cast(aTextBound.GetHeight() - 1 - nVDist))); aSet.Put(makeSdrTextMinFrameWidthItem(nTWdt)); aSet.Put(makeSdrTextMinFrameHeightItem(nTHgt)); } SetObjectItemSet(aSet); } void SdrObjCustomShape::NbcSetSnapRect(const tools::Rectangle& rRectangle) { tools::Rectangle aRectangle(rRectangle); ImpJustifyRect(aRectangle); setRectangle(aRectangle); InvalidateRenderGeometry(); AdaptTextMinSize(); ImpCheckShear(); SetBoundAndSnapRectsDirty(); SetChanged(); } void SdrObjCustomShape::SetSnapRect( const tools::Rectangle& rRect ) { tools::Rectangle aBoundRect0; if ( m_pUserCall ) aBoundRect0 = GetLastBoundRect(); NbcSetSnapRect( rRect ); BroadcastObjectChange(); SendUserCall(SdrUserCallType::Resize,aBoundRect0); } void SdrObjCustomShape::NbcSetLogicRect(const tools::Rectangle& rRectangle, bool bAdaptTextMinSize) { tools::Rectangle aRectangle(rRectangle); ImpJustifyRect(aRectangle); setRectangle(aRectangle); InvalidateRenderGeometry(); if (bAdaptTextMinSize) AdaptTextMinSize(); SetBoundAndSnapRectsDirty(); SetChanged(); } void SdrObjCustomShape::SetLogicRect( const tools::Rectangle& rRect ) { tools::Rectangle aBoundRect0; if ( m_pUserCall ) aBoundRect0 = GetLastBoundRect(); NbcSetLogicRect(rRect); BroadcastObjectChange(); SendUserCall(SdrUserCallType::Resize,aBoundRect0); } void SdrObjCustomShape::Move( const Size& rSiz ) { if ( rSiz.Width() || rSiz.Height() ) { tools::Rectangle aBoundRect0; if ( m_pUserCall ) aBoundRect0 = GetLastBoundRect(); NbcMove(rSiz); SetChanged(); BroadcastObjectChange(); SendUserCall(SdrUserCallType::MoveOnly,aBoundRect0); } } void SdrObjCustomShape::NbcMove( const Size& rSiz ) { SdrTextObj::NbcMove( rSiz ); if ( mXRenderedCustomShape.is() ) { SdrObject* pRenderedCustomShape = SdrObject::getSdrObjectFromXShape(mXRenderedCustomShape); if ( pRenderedCustomShape ) { // #i97149# the visualisation shape needs to be informed // about change, too pRenderedCustomShape->ActionChanged(); pRenderedCustomShape->NbcMove( rSiz ); } } // #i37011# adapt geometry shadow if(mpLastShadowGeometry) { mpLastShadowGeometry->NbcMove( rSiz ); } } void SdrObjCustomShape::NbcResize( const Point& rRef, const Fraction& rxFact, const Fraction& ryFact ) { // taking care of handles that should not been changed tools::Rectangle aOld(getRectangle()); std::vector< SdrCustomShapeInteraction > aInteractionHandles( GetInteractionHandles() ); SdrTextObj::NbcResize( rRef, rxFact, ryFact ); if ( ( rxFact.GetNumerator() != rxFact.GetDenominator() ) || ( ryFact.GetNumerator()!= ryFact.GetDenominator() ) ) { if ( ( ( rxFact.GetNumerator() < 0 ) && ( rxFact.GetDenominator() > 0 ) ) || ( ( rxFact.GetNumerator() > 0 ) && ( rxFact.GetDenominator() < 0 ) ) ) { SetMirroredX( !IsMirroredX() ); } if ( ( ( ryFact.GetNumerator() < 0 ) && ( ryFact.GetDenominator() > 0 ) ) || ( ( ryFact.GetNumerator() > 0 ) && ( ryFact.GetDenominator() < 0 ) ) ) { SetMirroredY( !IsMirroredY() ); } } for (const auto& rInteraction : aInteractionHandles) { try { if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_FIXED ) rInteraction.xInteraction->setControllerPosition( rInteraction.aPosition ); if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_X ) { sal_Int32 nX = ( rInteraction.aPosition.X - aOld.Left() ) + getRectangle().Left(); rInteraction.xInteraction->setControllerPosition(awt::Point(nX, rInteraction.xInteraction->getPosition().Y)); } else if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_NEGX ) { sal_Int32 nX = getRectangle().Right() - (aOld.Right() - rInteraction.aPosition.X); rInteraction.xInteraction->setControllerPosition(awt::Point(nX, rInteraction.xInteraction->getPosition().Y)); } if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_Y ) { sal_Int32 nY = ( rInteraction.aPosition.Y - aOld.Top() ) + getRectangle().Top(); rInteraction.xInteraction->setControllerPosition(awt::Point(rInteraction.xInteraction->getPosition().X, nY)); } } catch ( const uno::RuntimeException& ) { } } // updating fObjectRotation Degree100 nTextObjRotation = maGeo.m_nRotationAngle; double fAngle = toDegrees(nTextObjRotation); if (IsMirroredX()) { if (IsMirroredY()) m_fObjectRotation = fAngle - 180.0; else m_fObjectRotation = -fAngle; } else { if (IsMirroredY()) m_fObjectRotation = 180.0 - fAngle; else m_fObjectRotation = fAngle; } while (m_fObjectRotation < 0) m_fObjectRotation += 360.0; while (m_fObjectRotation >= 360.0) m_fObjectRotation -= 360.0; InvalidateRenderGeometry(); } void SdrObjCustomShape::NbcRotate( const Point& rRef, Degree100 nAngle, double sn, double cs ) { bool bMirroredX = IsMirroredX(); bool bMirroredY = IsMirroredY(); m_fObjectRotation = fmod( m_fObjectRotation, 360.0 ); if ( m_fObjectRotation < 0 ) m_fObjectRotation = 360 + m_fObjectRotation; // the rotation angle for ashapes is stored in fObjectRotation, this rotation // has to be applied to the text object (which is internally using maGeo.nAngle). SdrTextObj::NbcRotate( getRectangle().TopLeft(), -maGeo.m_nRotationAngle, // retrieving the unrotated text object -maGeo.mfSinRotationAngle, maGeo.mfCosRotationAngle ); maGeo.m_nRotationAngle = 0_deg100; // resetting aGeo data maGeo.RecalcSinCos(); Degree100 nW(static_cast( m_fObjectRotation * 100 )); // applying our object rotation if ( bMirroredX ) nW = 36000_deg100 - nW; if ( bMirroredY ) nW = 18000_deg100 - nW; nW = nW % 36000_deg100; if ( nW < 0_deg100 ) nW = 36000_deg100 + nW; SdrTextObj::NbcRotate( getRectangle().TopLeft(), nW, // applying text rotation sin( toRadians(nW) ), cos( toRadians(nW) ) ); int nSwap = 0; if ( bMirroredX ) nSwap ^= 1; if ( bMirroredY ) nSwap ^= 1; double fAngle = toDegrees(nAngle); // updating to our new object rotation m_fObjectRotation = fmod( nSwap ? m_fObjectRotation - fAngle : m_fObjectRotation + fAngle, 360.0 ); if ( m_fObjectRotation < 0 ) m_fObjectRotation = 360 + m_fObjectRotation; SdrTextObj::NbcRotate( rRef, nAngle, sn, cs ); // applying text rotation InvalidateRenderGeometry(); } void SdrObjCustomShape::NbcMirror( const Point& rRef1, const Point& rRef2 ) { // TTTT: Fix for old mirroring, can be removed again in aw080 // storing horizontal and vertical flipping without modifying the rotate angle // decompose other flipping to rotation and MirrorX. tools::Long ndx = rRef2.X()-rRef1.X(); tools::Long ndy = rRef2.Y()-rRef1.Y(); if(!ndx) // MirroredX { SetMirroredX(!IsMirroredX()); SdrTextObj::NbcMirror( rRef1, rRef2 ); } else { if(!ndy) // MirroredY { SetMirroredY(!IsMirroredY()); SdrTextObj::NbcMirror( rRef1, rRef2 ); } else // neither horizontal nor vertical { SetMirroredX(!IsMirroredX()); // call parent SdrTextObj::NbcMirror( rRef1, rRef2 ); // update fObjectRotation Degree100 nTextObjRotation = maGeo.m_nRotationAngle; double fAngle = toDegrees(nTextObjRotation); bool bSingleFlip = (IsMirroredX()!= IsMirroredY()); m_fObjectRotation = fmod( bSingleFlip ? -fAngle : fAngle, 360.0 ); if ( m_fObjectRotation < 0 ) { m_fObjectRotation = 360.0 + m_fObjectRotation; } } } InvalidateRenderGeometry(); } void SdrObjCustomShape::Shear( const Point& rRef, Degree100 nAngle, double tn, bool bVShear ) { SdrTextObj::Shear( rRef, nAngle, tn, bVShear ); InvalidateRenderGeometry(); } void SdrObjCustomShape::NbcShear( const Point& rRef, Degree100 nAngle, double tn, bool bVShear ) { // TTTT: Fix for old mirroring, can be removed again in aw080 SdrTextObj::NbcShear(rRef,nAngle,tn,bVShear); // updating fObjectRotation Degree100 nTextObjRotation = maGeo.m_nRotationAngle; double fAngle = toDegrees(nTextObjRotation); if (IsMirroredX()) { if (IsMirroredY()) m_fObjectRotation = fAngle - 180.0; else m_fObjectRotation = -fAngle; } else { if (IsMirroredY()) m_fObjectRotation = 180.0 - fAngle; else m_fObjectRotation = fAngle; } while (m_fObjectRotation < 0) m_fObjectRotation += 360.0; while (m_fObjectRotation >= 360.0) m_fObjectRotation -= 360.0; InvalidateRenderGeometry(); } SdrGluePoint SdrObjCustomShape::GetVertexGluePoint(sal_uInt16 nPosNum) const { sal_Int32 nWdt = ImpGetLineWdt(); // #i25616# // #i25616# if(!LineIsOutsideGeometry()) { nWdt++; nWdt /= 2; } Point aPt; tools::Rectangle aRectangle = getRectangle(); switch (nPosNum) { case 0: aPt = aRectangle.TopCenter(); aPt.AdjustY( -nWdt ); break; case 1: aPt = aRectangle.RightCenter(); aPt.AdjustX(nWdt ); break; case 2: aPt = aRectangle.BottomCenter(); aPt.AdjustY(nWdt ); break; case 3: aPt = aRectangle.LeftCenter(); aPt.AdjustX( -nWdt ); break; } if (maGeo.m_nShearAngle != 0_deg100) ShearPoint(aPt, aRectangle.TopLeft(), maGeo.mfTanShearAngle); if (maGeo.m_nRotationAngle != 0_deg100) RotatePoint(aPt, aRectangle.TopLeft(), maGeo.mfSinRotationAngle, maGeo.mfCosRotationAngle); aPt-=GetSnapRect().Center(); SdrGluePoint aGP(aPt); aGP.SetPercent(false); return aGP; } // #i38892# void SdrObjCustomShape::ImpCheckCustomGluePointsAreAdded() { const SdrObject* pSdrObject = GetSdrObjectFromCustomShape(); if(!pSdrObject) return; const SdrGluePointList* pSource = pSdrObject->GetGluePointList(); if(!(pSource && pSource->GetCount())) return; if(!SdrTextObj::GetGluePointList()) { SdrTextObj::ForceGluePointList(); } const SdrGluePointList* pList = SdrTextObj::GetGluePointList(); if(!pList) return; SdrGluePointList aNewList; sal_uInt16 a; for(a = 0; a < pSource->GetCount(); a++) { SdrGluePoint aCopy((*pSource)[a]); aCopy.SetUserDefined(false); aNewList.Insert(aCopy); } bool bMirroredX = IsMirroredX(); bool bMirroredY = IsMirroredY(); Degree100 nShearAngle = maGeo.m_nShearAngle; double fTan = maGeo.mfTanShearAngle; if (maGeo.m_nRotationAngle || nShearAngle || bMirroredX || bMirroredY) { tools::Polygon aPoly(getRectangle()); if( nShearAngle ) { sal_uInt16 nPointCount=aPoly.GetSize(); for (sal_uInt16 i=0; i(maGeo.m_nRotationAngle) ); tools::Rectangle aBoundRect( aPoly.GetBoundRect() ); sal_Int32 nXDiff = aBoundRect.Left() - getRectangle().Left(); sal_Int32 nYDiff = aBoundRect.Top() - getRectangle().Top(); if (nShearAngle && bMirroredX != bMirroredY) { nShearAngle = -nShearAngle; fTan = -fTan; } Point aRef( getRectangle().GetWidth() / 2, getRectangle().GetHeight() / 2 ); for ( a = 0; a < aNewList.GetCount(); a++ ) { SdrGluePoint& rPoint = aNewList[ a ]; Point aGlue( rPoint.GetPos() ); if ( nShearAngle ) ShearPoint( aGlue, aRef, fTan ); RotatePoint(aGlue, aRef, sin(basegfx::deg2rad(m_fObjectRotation)), cos(basegfx::deg2rad(m_fObjectRotation))); if ( bMirroredX ) aGlue.setX( getRectangle().GetWidth() - aGlue.X() ); if ( bMirroredY ) aGlue.setY( getRectangle().GetHeight() - aGlue.Y() ); aGlue.AdjustX( -nXDiff ); aGlue.AdjustY( -nYDiff ); rPoint.SetPos( aGlue ); } } for(a = 0; a < pList->GetCount(); a++) { const SdrGluePoint& rCandidate = (*pList)[a]; if(rCandidate.IsUserDefined()) { aNewList.Insert(rCandidate); } } // copy new list to local. This is NOT very convenient behavior, the local // GluePointList should not be set, but we delivered by using GetGluePointList(), // maybe on demand. Since the local object is changed here, this is assumed to // be a result of GetGluePointList and thus the list is copied if(m_pPlusData) { m_pPlusData->SetGluePoints(aNewList); } } // #i38892# const SdrGluePointList* SdrObjCustomShape::GetGluePointList() const { const_cast(this)->ImpCheckCustomGluePointsAreAdded(); return SdrTextObj::GetGluePointList(); } // #i38892# SdrGluePointList* SdrObjCustomShape::ForceGluePointList() { if(SdrTextObj::ForceGluePointList()) { ImpCheckCustomGluePointsAreAdded(); return SdrTextObj::ForceGluePointList(); } else { return nullptr; } } sal_uInt32 SdrObjCustomShape::GetHdlCount() const { const sal_uInt32 nBasicHdlCount(SdrTextObj::GetHdlCount()); return ( GetInteractionHandles().size() + nBasicHdlCount ); } void SdrObjCustomShape::AddToHdlList(SdrHdlList& rHdlList) const { SdrTextObj::AddToHdlList(rHdlList); int nCustomShapeHdlNum = 0; for (SdrCustomShapeInteraction const & rInteraction : GetInteractionHandles()) { if ( rInteraction.xInteraction.is() ) { try { awt::Point aPosition( rInteraction.xInteraction->getPosition() ); std::unique_ptr pH(new SdrHdl( Point( aPosition.X, aPosition.Y ), SdrHdlKind::CustomShape1 )); pH->SetPointNum( nCustomShapeHdlNum ); pH->SetObj( const_cast(this) ); rHdlList.AddHdl(std::move(pH)); } catch ( const uno::RuntimeException& ) { } } ++nCustomShapeHdlNum; } } bool SdrObjCustomShape::hasSpecialDrag() const { return true; } bool SdrObjCustomShape::beginSpecialDrag(SdrDragStat& rDrag) const { const SdrHdl* pHdl = rDrag.GetHdl(); if(pHdl && SdrHdlKind::CustomShape1 == pHdl->GetKind()) { rDrag.SetEndDragChangesAttributes(true); rDrag.SetNoSnap(); } else { const SdrHdl* pHdl2 = rDrag.GetHdl(); const SdrHdlKind eHdl((pHdl2 == nullptr) ? SdrHdlKind::Move : pHdl2->GetKind()); switch( eHdl ) { case SdrHdlKind::UpperLeft : case SdrHdlKind::Upper : case SdrHdlKind::UpperRight : case SdrHdlKind::Left : case SdrHdlKind::Right : case SdrHdlKind::LowerLeft : case SdrHdlKind::Lower : case SdrHdlKind::LowerRight : case SdrHdlKind::Move : { break; } default: { return false; } } } return true; } void SdrObjCustomShape::DragResizeCustomShape( const tools::Rectangle& rNewRect ) { tools::Rectangle aOld(getRectangle()); bool bOldMirroredX( IsMirroredX() ); bool bOldMirroredY( IsMirroredY() ); tools::Rectangle aNewRect( rNewRect ); aNewRect.Normalize(); std::vector< SdrCustomShapeInteraction > aInteractionHandles( GetInteractionHandles() ); GeoStat aGeoStat( GetGeoStat() ); if ( aNewRect.TopLeft() != getRectangle().TopLeft() && ( maGeo.m_nRotationAngle || maGeo.m_nShearAngle ) ) { Point aNewPos( aNewRect.TopLeft() ); if ( maGeo.m_nShearAngle ) ShearPoint( aNewPos, aOld.TopLeft(), aGeoStat.mfTanShearAngle ); if ( maGeo.m_nRotationAngle ) RotatePoint(aNewPos, aOld.TopLeft(), aGeoStat.mfSinRotationAngle, aGeoStat.mfCosRotationAngle ); aNewRect.SetPos( aNewPos ); } if (aNewRect == getRectangle()) return; SetLogicRect( aNewRect ); InvalidateRenderGeometry(); if ( rNewRect.Left() > rNewRect.Right() ) { Point aTop( ( GetSnapRect().Left() + GetSnapRect().Right() ) >> 1, GetSnapRect().Top() ); Point aBottom( aTop.X(), aTop.Y() + 1000 ); NbcMirror( aTop, aBottom ); } if ( rNewRect.Top() > rNewRect.Bottom() ) { Point aLeft( GetSnapRect().Left(), ( GetSnapRect().Top() + GetSnapRect().Bottom() ) >> 1 ); Point aRight( aLeft.X() + 1000, aLeft.Y() ); NbcMirror( aLeft, aRight ); } for (const auto& rInteraction : aInteractionHandles) { try { if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_FIXED ) rInteraction.xInteraction->setControllerPosition( rInteraction.aPosition ); if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_X || rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_NEGX ) { if (rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_NEGX) bOldMirroredX = !bOldMirroredX; sal_Int32 nX; if ( bOldMirroredX ) { nX = ( rInteraction.aPosition.X - aOld.Right() ); if ( rNewRect.Left() > rNewRect.Right() ) nX = getRectangle().Left() - nX; else nX += getRectangle().Right(); } else { nX = ( rInteraction.aPosition.X - aOld.Left() ); if ( rNewRect.Left() > rNewRect.Right() ) nX = getRectangle().Right() - nX; else nX += getRectangle().Left(); } rInteraction.xInteraction->setControllerPosition(awt::Point(nX, rInteraction.xInteraction->getPosition().Y)); } if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_ABSOLUTE_Y ) { sal_Int32 nY; if ( bOldMirroredY ) { nY = ( rInteraction.aPosition.Y - aOld.Bottom() ); if ( rNewRect.Top() > rNewRect.Bottom() ) nY = getRectangle().Top() - nY; else nY += getRectangle().Bottom(); } else { nY = ( rInteraction.aPosition.Y - aOld.Top() ); if ( rNewRect.Top() > rNewRect.Bottom() ) nY = getRectangle().Bottom() - nY; else nY += getRectangle().Top(); } rInteraction.xInteraction->setControllerPosition(awt::Point(rInteraction.xInteraction->getPosition().X, nY)); } } catch ( const uno::RuntimeException& ) { } } } void SdrObjCustomShape::DragMoveCustomShapeHdl( const Point& rDestination, const sal_uInt16 nCustomShapeHdlNum, bool bMoveCalloutRectangle ) { std::vector< SdrCustomShapeInteraction > aInteractionHandles( GetInteractionHandles() ); if ( nCustomShapeHdlNum >= aInteractionHandles.size() ) return; SdrCustomShapeInteraction aInteractionHandle( aInteractionHandles[ nCustomShapeHdlNum ] ); if ( !aInteractionHandle.xInteraction.is() ) return; try { awt::Point aPt( rDestination.X(), rDestination.Y() ); if ( aInteractionHandle.nMode & CustomShapeHandleModes::MOVE_SHAPE && bMoveCalloutRectangle ) { sal_Int32 nXDiff = aPt.X - aInteractionHandle.aPosition.X; sal_Int32 nYDiff = aPt.Y - aInteractionHandle.aPosition.Y; moveRectangle(nXDiff, nYDiff); moveOutRectangle(nXDiff, nYDiff); maSnapRect.Move( nXDiff, nYDiff ); SetBoundAndSnapRectsDirty(/*bNotMyself*/true); InvalidateRenderGeometry(); for (const auto& rInteraction : aInteractionHandles) { if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_FIXED ) { if ( rInteraction.xInteraction.is() ) rInteraction.xInteraction->setControllerPosition( rInteraction.aPosition ); } } } aInteractionHandle.xInteraction->setControllerPosition( aPt ); } catch ( const uno::RuntimeException& ) { } } bool SdrObjCustomShape::applySpecialDrag(SdrDragStat& rDrag) { const SdrHdl* pHdl = rDrag.GetHdl(); const SdrHdlKind eHdl((pHdl == nullptr) ? SdrHdlKind::Move : pHdl->GetKind()); switch(eHdl) { case SdrHdlKind::CustomShape1 : { rDrag.SetEndDragChangesGeoAndAttributes(true); DragMoveCustomShapeHdl( rDrag.GetNow(), static_cast(pHdl->GetPointNum()), !rDrag.GetDragMethod()->IsShiftPressed() ); SetBoundAndSnapRectsDirty(); InvalidateRenderGeometry(); SetChanged(); break; } case SdrHdlKind::UpperLeft : case SdrHdlKind::Upper : case SdrHdlKind::UpperRight : case SdrHdlKind::Left : case SdrHdlKind::Right : case SdrHdlKind::LowerLeft : case SdrHdlKind::Lower : case SdrHdlKind::LowerRight : { DragResizeCustomShape( ImpDragCalcRect(rDrag) ); break; } case SdrHdlKind::Move : { Move(Size(rDrag.GetDX(), rDrag.GetDY())); break; } default: break; } return true; } void SdrObjCustomShape::DragCreateObject( SdrDragStat& rStat ) { tools::Rectangle aRect1; rStat.TakeCreateRect( aRect1 ); std::vector< SdrCustomShapeInteraction > aInteractionHandles( GetInteractionHandles() ); constexpr sal_uInt32 nDefaultObjectSizeWidth = 3000; // default width from SDOptions ? constexpr sal_uInt32 nDefaultObjectSizeHeight= 3000; if ( ImpVerticalSwitch( *this ) ) { SetMirroredX( aRect1.Left() > aRect1.Right() ); aRect1 = tools::Rectangle( rStat.GetNow(), Size( nDefaultObjectSizeWidth, nDefaultObjectSizeHeight ) ); // subtracting the horizontal difference of the latest handle from shape position if ( !aInteractionHandles.empty() ) { sal_Int32 nHandlePos = aInteractionHandles[ aInteractionHandles.size() - 1 ].xInteraction->getPosition().X; aRect1.Move(getRectangle().Left() - nHandlePos, 0); } } ImpJustifyRect( aRect1 ); rStat.SetActionRect( aRect1 ); setRectangle(aRect1); SetBoundAndSnapRectsDirty(); for (const auto& rInteraction : aInteractionHandles) { try { if ( rInteraction.nMode & CustomShapeHandleModes::CREATE_FIXED ) rInteraction.xInteraction->setControllerPosition( awt::Point( rStat.GetStart().X(), rStat.GetStart().Y() ) ); } catch ( const uno::RuntimeException& ) { } } SetBoundRectDirty(); m_bSnapRectDirty=true; } bool SdrObjCustomShape::MovCreate(SdrDragStat& rStat) { SdrView* pView = rStat.GetView(); // #i37448# if( pView && pView->IsSolidDragging() ) { InvalidateRenderGeometry(); } DragCreateObject( rStat ); SetBoundAndSnapRectsDirty(); return true; } bool SdrObjCustomShape::EndCreate( SdrDragStat& rStat, SdrCreateCmd eCmd ) { DragCreateObject( rStat ); AdaptTextMinSize(); SetBoundAndSnapRectsDirty(); return ( eCmd == SdrCreateCmd::ForceEnd || rStat.GetPointCount() >= 2 ); } basegfx::B2DPolyPolygon SdrObjCustomShape::TakeCreatePoly(const SdrDragStat& /*rDrag*/) const { return GetLineGeometry( false ); } // in context with the SdrObjCustomShape the SdrTextAutoGrowHeightItem == true -> Resize Shape to fit text, // the SdrTextAutoGrowWidthItem == true -> Word wrap text in Shape bool SdrObjCustomShape::IsAutoGrowHeight() const { const SfxItemSet& rSet = GetMergedItemSet(); bool bIsAutoGrowHeight = rSet.Get(SDRATTR_TEXT_AUTOGROWHEIGHT).GetValue(); if ( bIsAutoGrowHeight && IsVerticalWriting() ) bIsAutoGrowHeight = !rSet.Get(SDRATTR_TEXT_WORDWRAP).GetValue(); return bIsAutoGrowHeight; } bool SdrObjCustomShape::IsAutoGrowWidth() const { const SfxItemSet& rSet = GetMergedItemSet(); bool bIsAutoGrowWidth = rSet.Get(SDRATTR_TEXT_AUTOGROWHEIGHT).GetValue(); if ( bIsAutoGrowWidth && !IsVerticalWriting() ) bIsAutoGrowWidth = !rSet.Get(SDRATTR_TEXT_WORDWRAP).GetValue(); return bIsAutoGrowWidth; } /* The following method is identical to the SdrTextObj::SetVerticalWriting method, the only difference is that the SdrAutoGrowWidthItem and SdrAutoGrowHeightItem are not exchanged if the vertical writing mode has been changed */ void SdrObjCustomShape::SetVerticalWriting( bool bVertical ) { ForceOutlinerParaObject(); OutlinerParaObject* pOutlinerParaObject = GetOutlinerParaObject(); DBG_ASSERT( pOutlinerParaObject, "SdrTextObj::SetVerticalWriting() without OutlinerParaObject!" ); if( !pOutlinerParaObject || (pOutlinerParaObject->IsEffectivelyVertical() == bVertical) ) return; // get item settings const SfxItemSet& rSet = GetObjectItemSet(); // Also exchange horizontal and vertical adjust items SdrTextHorzAdjust eHorz = rSet.Get(SDRATTR_TEXT_HORZADJUST).GetValue(); SdrTextVertAdjust eVert = rSet.Get(SDRATTR_TEXT_VERTADJUST).GetValue(); // rescue object size, SetSnapRect below expects logic rect, // not snap rect. tools::Rectangle aObjectRect = GetLogicRect(); // prepare ItemSet to set exchanged width and height items SfxItemSetFixed aNewSet(*rSet.GetPool()); aNewSet.Put(rSet); // Exchange horizontal and vertical adjusts switch(eVert) { case SDRTEXTVERTADJUST_TOP: aNewSet.Put(SdrTextHorzAdjustItem(SDRTEXTHORZADJUST_RIGHT)); break; case SDRTEXTVERTADJUST_CENTER: aNewSet.Put(SdrTextHorzAdjustItem(SDRTEXTHORZADJUST_CENTER)); break; case SDRTEXTVERTADJUST_BOTTOM: aNewSet.Put(SdrTextHorzAdjustItem(SDRTEXTHORZADJUST_LEFT)); break; case SDRTEXTVERTADJUST_BLOCK: aNewSet.Put(SdrTextHorzAdjustItem(SDRTEXTHORZADJUST_BLOCK)); break; } switch(eHorz) { case SDRTEXTHORZADJUST_LEFT: aNewSet.Put(SdrTextVertAdjustItem(SDRTEXTVERTADJUST_BOTTOM)); break; case SDRTEXTHORZADJUST_CENTER: aNewSet.Put(SdrTextVertAdjustItem(SDRTEXTVERTADJUST_CENTER)); break; case SDRTEXTHORZADJUST_RIGHT: aNewSet.Put(SdrTextVertAdjustItem(SDRTEXTVERTADJUST_TOP)); break; case SDRTEXTHORZADJUST_BLOCK: aNewSet.Put(SdrTextVertAdjustItem(SDRTEXTVERTADJUST_BLOCK)); break; } pOutlinerParaObject = GetOutlinerParaObject(); if ( pOutlinerParaObject ) pOutlinerParaObject->SetVertical(bVertical); SetObjectItemSet( aNewSet ); // restore object size SetSnapRect(aObjectRect); } void SdrObjCustomShape::SuggestTextFrameSize(Size aSuggestedTextFrameSize) { m_aSuggestedTextFrameSize = aSuggestedTextFrameSize; } bool SdrObjCustomShape::AdjustTextFrameWidthAndHeight(tools::Rectangle& rR, bool bHgt, bool bWdt) const { // Either we have text or the application has native text and suggested its size to us. bool bHasText = HasText() || !m_aSuggestedTextFrameSize.IsEmpty(); if ( bHasText && !rR.IsEmpty() ) { bool bWdtGrow=bWdt && IsAutoGrowWidth(); bool bHgtGrow=bHgt && IsAutoGrowHeight(); if ( bWdtGrow || bHgtGrow ) { tools::Rectangle aR0(rR); tools::Long nHgt=0,nMinHgt=0,nMaxHgt=0; tools::Long nWdt=0,nMinWdt=0,nMaxWdt=0; Size aSiz(rR.GetSize()); aSiz.AdjustWidth( -1 ); aSiz.AdjustHeight( -1 ); Size aMaxSiz(100000,100000); Size aTmpSiz(getSdrModelFromSdrObject().GetMaxObjSize()); if (aTmpSiz.Width()!=0) aMaxSiz.setWidth(aTmpSiz.Width() ); if (aTmpSiz.Height()!=0) aMaxSiz.setHeight(aTmpSiz.Height() ); if (bWdtGrow) { nMinWdt=GetMinTextFrameWidth(); nMaxWdt=GetMaxTextFrameWidth(); if (nMaxWdt==0 || nMaxWdt>aMaxSiz.Width()) nMaxWdt=aMaxSiz.Width(); if (nMinWdt<=0) nMinWdt=1; aSiz.setWidth(nMaxWdt ); } if (bHgtGrow) { nMinHgt=GetMinTextFrameHeight(); nMaxHgt=GetMaxTextFrameHeight(); if (nMaxHgt==0 || nMaxHgt>aMaxSiz.Height()) nMaxHgt=aMaxSiz.Height(); if (nMinHgt<=0) nMinHgt=1; aSiz.setHeight(nMaxHgt ); } tools::Long nHDist=GetTextLeftDistance()+GetTextRightDistance(); tools::Long nVDist=GetTextUpperDistance()+GetTextLowerDistance(); aSiz.AdjustWidth( -nHDist ); aSiz.AdjustHeight( -nVDist ); if ( aSiz.Width() < 2 ) aSiz.setWidth( 2 ); // minimum size=2 if ( aSiz.Height() < 2 ) aSiz.setHeight( 2 ); // minimum size=2 if (HasText()) { if(mpEditingOutliner) { mpEditingOutliner->SetMaxAutoPaperSize( aSiz ); if (bWdtGrow) { Size aSiz2(mpEditingOutliner->CalcTextSize()); nWdt=aSiz2.Width()+1; // a little more tolerance if (bHgtGrow) nHgt=aSiz2.Height()+1; // a little more tolerance } else { nHgt=mpEditingOutliner->GetTextHeight()+1; // a little more tolerance } } else { Outliner& rOutliner=ImpGetDrawOutliner(); rOutliner.SetPaperSize(aSiz); rOutliner.SetUpdateLayout(true); // TODO: add the optimization with bPortionInfoChecked again. OutlinerParaObject* pOutlinerParaObject = GetOutlinerParaObject(); if( pOutlinerParaObject != nullptr ) { rOutliner.SetText(*pOutlinerParaObject); rOutliner.SetFixedCellHeight(GetMergedItem(SDRATTR_TEXT_USEFIXEDCELLHEIGHT).GetValue()); } if ( bWdtGrow ) { Size aSiz2(rOutliner.CalcTextSize()); nWdt=aSiz2.Width()+1; // a little more tolerance if ( bHgtGrow ) nHgt=aSiz2.Height()+1; // a little more tolerance } else { nHgt = rOutliner.GetTextHeight()+1; // a little more tolerance sal_Int16 nColumns = GetMergedItem(SDRATTR_TEXTCOLUMNS_NUMBER).GetValue(); if (bHgtGrow && nColumns > 1) { // Both 'resize shape to fix text' and multiple columns are enabled. The // first means a dynamic height, the second expects a fixed height. // Resolve this conflict by going with the original height. nHgt = rR.getOpenHeight(); } } rOutliner.Clear(); } } else { nHgt = m_aSuggestedTextFrameSize.Height(); nWdt = m_aSuggestedTextFrameSize.Width(); } if ( nWdt < nMinWdt ) nWdt = nMinWdt; if ( nWdt > nMaxWdt ) nWdt = nMaxWdt; nWdt += nHDist; if ( nWdt < 1 ) nWdt = 1; // nHDist may also be negative if ( nHgt < nMinHgt ) nHgt = nMinHgt; if ( nHgt > nMaxHgt ) nHgt = nMaxHgt; nHgt+=nVDist; if ( nHgt < 1 ) nHgt = 1; // nVDist may also be negative tools::Long nWdtGrow = nWdt-(rR.Right()-rR.Left()); tools::Long nHgtGrow = nHgt-(rR.Bottom()-rR.Top()); if ( nWdtGrow == 0 ) bWdtGrow = false; if ( nHgtGrow == 0 ) bHgtGrow=false; if ( bWdtGrow || bHgtGrow || !m_aSuggestedTextFrameSize.IsEmpty()) { if ( bWdtGrow || m_aSuggestedTextFrameSize.Width() ) { SdrTextHorzAdjust eHAdj=GetTextHorizontalAdjust(); if (m_aSuggestedTextFrameSize.Width()) { rR.SetRight(rR.Left() + m_aSuggestedTextFrameSize.Width()); } else if ( eHAdj == SDRTEXTHORZADJUST_LEFT ) rR.AdjustRight(nWdtGrow ); else if ( eHAdj == SDRTEXTHORZADJUST_RIGHT ) rR.AdjustLeft( -nWdtGrow ); else { tools::Long nWdtGrow2=nWdtGrow/2; rR.AdjustLeft( -nWdtGrow2 ); rR.SetRight(rR.Left()+nWdt ); } } if ( bHgtGrow || m_aSuggestedTextFrameSize.Height() ) { SdrTextVertAdjust eVAdj=GetTextVerticalAdjust(); if (m_aSuggestedTextFrameSize.Height()) { rR.SetBottom(rR.Top() + m_aSuggestedTextFrameSize.Height()); } else if ( eVAdj == SDRTEXTVERTADJUST_TOP ) rR.AdjustBottom(nHgtGrow ); else if ( eVAdj == SDRTEXTVERTADJUST_BOTTOM ) rR.AdjustTop( -nHgtGrow ); else { tools::Long nHgtGrow2=nHgtGrow/2; rR.AdjustTop( -nHgtGrow2 ); rR.SetBottom(rR.Top()+nHgt ); } } if ( maGeo.m_nRotationAngle ) { Point aD1(rR.TopLeft()); aD1-=aR0.TopLeft(); Point aD2(aD1); RotatePoint(aD2,Point(), maGeo.mfSinRotationAngle, maGeo.mfCosRotationAngle); aD2-=aD1; rR.Move(aD2.X(),aD2.Y()); } return true; } } } return false; } tools::Rectangle SdrObjCustomShape::ImpCalculateTextFrame( const bool bHgt, const bool bWdt ) { tools::Rectangle aReturnValue; tools::Rectangle aOldTextRect(getRectangle()); // <- initial text rectangle tools::Rectangle aNewTextRect(getRectangle()); // <- new text rectangle returned from the custom shape renderer, GetTextBounds( aNewTextRect ); // it depends to the current logical shape size tools::Rectangle aAdjustedTextRect( aNewTextRect ); // <- new text rectangle is being tested by AdjustTextFrameWidthAndHeight to ensure if ( AdjustTextFrameWidthAndHeight( aAdjustedTextRect, bHgt, bWdt ) ) // that the new text rectangle is matching the current text size from the outliner { if (aAdjustedTextRect != aNewTextRect && aOldTextRect != aAdjustedTextRect && aNewTextRect.GetWidth() && aNewTextRect.GetHeight()) { aReturnValue = getRectangle(); double fXScale = static_cast(aOldTextRect.GetWidth()) / static_cast(aNewTextRect.GetWidth()); double fYScale = static_cast(aOldTextRect.GetHeight()) / static_cast(aNewTextRect.GetHeight()); double fRightDiff = static_cast( aAdjustedTextRect.Right() - aNewTextRect.Right() ) * fXScale; double fLeftDiff = static_cast( aAdjustedTextRect.Left() - aNewTextRect.Left() ) * fXScale; double fTopDiff = static_cast( aAdjustedTextRect.Top() - aNewTextRect.Top() ) * fYScale; double fBottomDiff= static_cast( aAdjustedTextRect.Bottom()- aNewTextRect.Bottom()) * fYScale; aReturnValue.AdjustLeft(static_cast(fLeftDiff) ); aReturnValue.AdjustRight(static_cast(fRightDiff) ); aReturnValue.AdjustTop(static_cast(fTopDiff) ); aReturnValue.AdjustBottom(static_cast(fBottomDiff) ); } } return aReturnValue; } bool SdrObjCustomShape::NbcAdjustTextFrameWidthAndHeight(bool bHgt, bool bWdt) { tools::Rectangle aNewTextRect = ImpCalculateTextFrame(bHgt, bWdt); const bool bRet = !aNewTextRect.IsEmpty() && aNewTextRect != getRectangle(); if (bRet && !mbAdjustingTextFrameWidthAndHeight) { mbAdjustingTextFrameWidthAndHeight = true; // taking care of handles that should not been changed std::vector< SdrCustomShapeInteraction > aInteractionHandles( GetInteractionHandles() ); setRectangle(aNewTextRect); SetBoundAndSnapRectsDirty(); SetChanged(); for (const auto& rInteraction : aInteractionHandles) { try { if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_FIXED ) rInteraction.xInteraction->setControllerPosition( rInteraction.aPosition ); } catch ( const uno::RuntimeException& ) { } } InvalidateRenderGeometry(); mbAdjustingTextFrameWidthAndHeight = false; } return bRet; } bool SdrObjCustomShape::AdjustTextFrameWidthAndHeight() { tools::Rectangle aNewTextRect = ImpCalculateTextFrame( true/*bHgt*/, true/*bWdt*/ ); bool bRet = !aNewTextRect.IsEmpty() && ( aNewTextRect != getRectangle()); if ( bRet ) { tools::Rectangle aBoundRect0; if ( m_pUserCall ) aBoundRect0 = GetCurrentBoundRect(); // taking care of handles that should not been changed std::vector< SdrCustomShapeInteraction > aInteractionHandles( GetInteractionHandles() ); setRectangle(aNewTextRect); SetBoundAndSnapRectsDirty(); for (const auto& rInteraction : aInteractionHandles) { try { if ( rInteraction.nMode & CustomShapeHandleModes::RESIZE_FIXED ) rInteraction.xInteraction->setControllerPosition( rInteraction.aPosition ); } catch ( const uno::RuntimeException& ) { } } InvalidateRenderGeometry(); SetChanged(); BroadcastObjectChange(); SendUserCall(SdrUserCallType::Resize,aBoundRect0); } return bRet; } void SdrObjCustomShape::TakeTextEditArea(Size* pPaperMin, Size* pPaperMax, tools::Rectangle* pViewInit, tools::Rectangle* pViewMin) const { tools::Rectangle aViewInit; TakeTextAnchorRect( aViewInit ); if (maGeo.m_nRotationAngle) { Point aCenter(aViewInit.Center()); aCenter-=aViewInit.TopLeft(); Point aCenter0(aCenter); RotatePoint(aCenter, Point(), maGeo.mfSinRotationAngle, maGeo.mfCosRotationAngle); aCenter-=aCenter0; aViewInit.Move(aCenter.X(),aCenter.Y()); } Size aAnkSiz(aViewInit.GetSize()); aAnkSiz.AdjustWidth( -1 ); aAnkSiz.AdjustHeight( -1 ); // because GetSize() adds 1 Size aMaxSiz(1000000,1000000); { Size aTmpSiz(getSdrModelFromSdrObject().GetMaxObjSize()); if (aTmpSiz.Width()!=0) aMaxSiz.setWidth(aTmpSiz.Width() ); if (aTmpSiz.Height()!=0) aMaxSiz.setHeight(aTmpSiz.Height() ); } SdrTextHorzAdjust eHAdj(GetTextHorizontalAdjust()); SdrTextVertAdjust eVAdj(GetTextVerticalAdjust()); tools::Long nMinWdt = GetMinTextFrameWidth(); tools::Long nMinHgt = GetMinTextFrameHeight(); tools::Long nMaxWdt = GetMaxTextFrameWidth(); tools::Long nMaxHgt = GetMaxTextFrameHeight(); if (nMinWdt<1) nMinWdt=1; if (nMinHgt<1) nMinHgt=1; if ( nMaxWdt == 0 || nMaxWdt > aMaxSiz.Width() ) nMaxWdt = aMaxSiz.Width(); if ( nMaxHgt == 0 || nMaxHgt > aMaxSiz.Height() ) nMaxHgt=aMaxSiz.Height(); if (GetMergedItem(SDRATTR_TEXT_WORDWRAP).GetValue()) { if ( IsVerticalWriting() ) { nMaxHgt = aAnkSiz.Height(); nMinHgt = nMaxHgt; } else { nMaxWdt = aAnkSiz.Width(); nMinWdt = nMaxWdt; } } Size aPaperMax(nMaxWdt, nMaxHgt); Size aPaperMin(nMinWdt, nMinHgt); if ( pViewMin ) { *pViewMin = aViewInit; tools::Long nXFree = aAnkSiz.Width() - aPaperMin.Width(); if ( eHAdj == SDRTEXTHORZADJUST_LEFT ) pViewMin->AdjustRight( -nXFree ); else if ( eHAdj == SDRTEXTHORZADJUST_RIGHT ) pViewMin->AdjustLeft(nXFree ); else { pViewMin->AdjustLeft(nXFree / 2 ); pViewMin->SetRight( pViewMin->Left() + aPaperMin.Width() ); } tools::Long nYFree = aAnkSiz.Height() - aPaperMin.Height(); if ( eVAdj == SDRTEXTVERTADJUST_TOP ) pViewMin->AdjustBottom( -nYFree ); else if ( eVAdj == SDRTEXTVERTADJUST_BOTTOM ) pViewMin->AdjustTop(nYFree ); else { pViewMin->AdjustTop(nYFree / 2 ); pViewMin->SetBottom( pViewMin->Top() + aPaperMin.Height() ); } } if( IsVerticalWriting() ) aPaperMin.setWidth( 0 ); else aPaperMin.setHeight( 0 ); if( eHAdj != SDRTEXTHORZADJUST_BLOCK ) aPaperMin.setWidth(0 ); // For complete vertical adjust support, set paper min height to 0, here. if(SDRTEXTVERTADJUST_BLOCK != eVAdj ) aPaperMin.setHeight( 0 ); if (pPaperMin!=nullptr) *pPaperMin=aPaperMin; if (pPaperMax!=nullptr) *pPaperMax=aPaperMax; if (pViewInit!=nullptr) *pViewInit=aViewInit; } void SdrObjCustomShape::EndTextEdit( SdrOutliner& rOutl ) { SdrTextObj::EndTextEdit( rOutl ); InvalidateRenderGeometry(); } void SdrObjCustomShape::TakeTextAnchorRect( tools::Rectangle& rAnchorRect ) const { if ( GetTextBounds( rAnchorRect ) ) { Point aRotateRef( maSnapRect.Center() ); const double fExtraTextRotation(GetExtraTextRotation()); AdjustRectToTextDistance(rAnchorRect, fExtraTextRotation); if ( rAnchorRect.GetWidth() < 2 ) rAnchorRect.SetRight( rAnchorRect.Left() + 1 ); // minimal width is 2 if ( rAnchorRect.GetHeight() < 2 ) rAnchorRect.SetBottom( rAnchorRect.Top() + 1 ); // minimal height is 2 if (maGeo.m_nRotationAngle) { Point aP( rAnchorRect.TopLeft() ); RotatePoint(aP, aRotateRef, maGeo.mfSinRotationAngle, maGeo.mfCosRotationAngle); rAnchorRect.SetPos( aP ); } } else SdrTextObj::TakeTextAnchorRect( rAnchorRect ); } void SdrObjCustomShape::TakeTextRect( SdrOutliner& rOutliner, tools::Rectangle& rTextRect, bool bNoEditText, tools::Rectangle* pAnchorRect, bool /*bLineWidth*/) const { tools::Rectangle aAnkRect; // Rect in which we anchor TakeTextAnchorRect(aAnkRect); SdrTextVertAdjust eVAdj=GetTextVerticalAdjust(); SdrTextHorzAdjust eHAdj=GetTextHorizontalAdjust(); EEControlBits nStat0=rOutliner.GetControlWord(); Size aNullSize; rOutliner.SetControlWord(nStat0|EEControlBits::AUTOPAGESIZE); rOutliner.SetMinAutoPaperSize(aNullSize); sal_Int32 nMaxAutoPaperWidth = 1000000; sal_Int32 nMaxAutoPaperHeight= 1000000; tools::Long nAnkWdt=aAnkRect.GetWidth(); tools::Long nAnkHgt=aAnkRect.GetHeight(); if (GetMergedItem(SDRATTR_TEXT_WORDWRAP).GetValue()) { if ( IsVerticalWriting() ) nMaxAutoPaperHeight = nAnkHgt; else nMaxAutoPaperWidth = nAnkWdt; } if(SDRTEXTHORZADJUST_BLOCK == eHAdj && !IsVerticalWriting()) { rOutliner.SetMinAutoPaperSize(Size(nAnkWdt, 0)); } if(SDRTEXTVERTADJUST_BLOCK == eVAdj && IsVerticalWriting()) { rOutliner.SetMinAutoPaperSize(Size(0, nAnkHgt)); } rOutliner.SetMaxAutoPaperSize( Size( nMaxAutoPaperWidth, nMaxAutoPaperHeight ) ); rOutliner.SetPaperSize( aNullSize ); // put text into the Outliner - if necessary the use the text from the EditOutliner std::optional pPara; if (GetOutlinerParaObject()) pPara = *GetOutlinerParaObject(); if (mpEditingOutliner && !bNoEditText) pPara=mpEditingOutliner->CreateParaObject(); if (pPara) { bool bHitTest(&getSdrModelFromSdrObject().GetHitTestOutliner() == &rOutliner); const SdrTextObj* pTestObj = rOutliner.GetTextObj(); if( !pTestObj || !bHitTest || pTestObj != this || pTestObj->GetOutlinerParaObject() != GetOutlinerParaObject() ) { if( bHitTest ) rOutliner.SetTextObj( this ); rOutliner.SetUpdateLayout(true); rOutliner.SetText(*pPara); } } else { rOutliner.SetTextObj( nullptr ); } rOutliner.SetUpdateLayout(true); rOutliner.SetControlWord(nStat0); SdrText* pText = getActiveText(); if( pText ) pText->CheckPortionInfo( rOutliner ); Point aTextPos(aAnkRect.TopLeft()); Size aTextSiz(rOutliner.GetPaperSize()); // GetPaperSize() has a little added tolerance, no? // For draw objects containing text correct horizontal/vertical alignment if text is bigger // than the object itself. Without that correction, the text would always be // formatted to the left edge (or top edge when vertical) of the draw object. if( !IsTextFrame() ) { if(aAnkRect.GetWidth() < aTextSiz.Width() && !IsVerticalWriting()) { // Horizontal case here. Correct only if eHAdj == SDRTEXTHORZADJUST_BLOCK, // else the alignment is wanted. if(SDRTEXTHORZADJUST_BLOCK == eHAdj) { SvxAdjust eAdjust = GetObjectItemSet().Get(EE_PARA_JUST).GetAdjust(); switch (eAdjust) { case SvxAdjust::Left: eHAdj = SDRTEXTHORZADJUST_LEFT; break; case SvxAdjust::Right: eHAdj = SDRTEXTHORZADJUST_RIGHT; break; case SvxAdjust::Center: eHAdj = SDRTEXTHORZADJUST_CENTER; break; default: break; } } } if(aAnkRect.GetHeight() < aTextSiz.Height() && IsVerticalWriting()) { // Vertical case here. Correct only if eHAdj == SDRTEXTVERTADJUST_BLOCK, // else the alignment is wanted. if(SDRTEXTVERTADJUST_BLOCK == eVAdj) { eVAdj = SDRTEXTVERTADJUST_CENTER; } } } if (eHAdj==SDRTEXTHORZADJUST_CENTER || eHAdj==SDRTEXTHORZADJUST_RIGHT) { tools::Long nFreeWdt=aAnkRect.GetWidth()-aTextSiz.Width(); if (eHAdj==SDRTEXTHORZADJUST_CENTER) aTextPos.AdjustX(nFreeWdt/2 ); if (eHAdj==SDRTEXTHORZADJUST_RIGHT) aTextPos.AdjustX(nFreeWdt ); } if (eVAdj==SDRTEXTVERTADJUST_CENTER || eVAdj==SDRTEXTVERTADJUST_BOTTOM) { tools::Long nFreeHgt=aAnkRect.GetHeight()-aTextSiz.Height(); if (eVAdj==SDRTEXTVERTADJUST_CENTER) aTextPos.AdjustY(nFreeHgt/2 ); if (eVAdj==SDRTEXTVERTADJUST_BOTTOM) aTextPos.AdjustY(nFreeHgt ); } if (maGeo.m_nRotationAngle != 0_deg100) RotatePoint(aTextPos,aAnkRect.TopLeft(), maGeo.mfSinRotationAngle, maGeo.mfCosRotationAngle); if (pAnchorRect) *pAnchorRect=aAnkRect; // using rTextRect together with ContourFrame doesn't always work correctly rTextRect=tools::Rectangle(aTextPos,aTextSiz); } void SdrObjCustomShape::NbcSetOutlinerParaObject(std::optional pTextObject, bool bAdjustTextFrameWidthAndHeight) { SdrTextObj::NbcSetOutlinerParaObject( std::move(pTextObject), bAdjustTextFrameWidthAndHeight ); SetBoundRectDirty(); SetBoundAndSnapRectsDirty(true); InvalidateRenderGeometry(); } rtl::Reference SdrObjCustomShape::CloneSdrObject(SdrModel& rTargetModel) const { return new SdrObjCustomShape(rTargetModel, *this); } OUString SdrObjCustomShape::TakeObjNameSingul() const { OUString sName(SvxResId(STR_ObjNameSingulCUSTOMSHAPE)); OUString aNm(GetName()); if (!aNm.isEmpty()) sName += " '" + aNm + "'"; return sName; } OUString SdrObjCustomShape::TakeObjNamePlural() const { return SvxResId(STR_ObjNamePluralCUSTOMSHAPE); } basegfx::B2DPolyPolygon SdrObjCustomShape::TakeXorPoly() const { return GetLineGeometry( false ); } basegfx::B2DPolyPolygon SdrObjCustomShape::TakeContour() const { const SdrObject* pSdrObject = GetSdrObjectFromCustomShape(); if ( pSdrObject ) return pSdrObject->TakeContour(); return basegfx::B2DPolyPolygon(); } rtl::Reference SdrObjCustomShape::DoConvertToPolyObj(bool bBezier, bool bAddText) const { // #i37011# rtl::Reference pRetval; SdrObject* pRenderedCustomShape = nullptr; if ( !mXRenderedCustomShape.is() ) { // force CustomShape GetSdrObjectFromCustomShape(); } if ( mXRenderedCustomShape.is() ) { pRenderedCustomShape = SdrObject::getSdrObjectFromXShape(mXRenderedCustomShape); } if ( pRenderedCustomShape ) { // Clone to same SdrModel rtl::Reference pCandidate(pRenderedCustomShape->CloneSdrObject(pRenderedCustomShape->getSdrModelFromSdrObject())); DBG_ASSERT(pCandidate, "SdrObjCustomShape::DoConvertToPolyObj: Could not clone SdrObject (!)"); pRetval = pCandidate->DoConvertToPolyObj(bBezier, bAddText); pCandidate.clear(); if(pRetval) { const bool bShadow(GetMergedItem(SDRATTR_SHADOW).GetValue()); if(bShadow) { pRetval->SetMergedItem(makeSdrShadowItem(true)); } } if(bAddText && HasText() && !IsTextPath()) { pRetval = ImpConvertAddText(std::move(pRetval), bBezier); } } return pRetval; } void SdrObjCustomShape::InternalSetStyleSheet( SfxStyleSheet* pNewStyleSheet, bool bDontRemoveHardAttr, bool bBroadcast, bool bAdjustTextFrameWidthAndHeight ) { // #i40944# InvalidateRenderGeometry(); SdrObject::InternalSetStyleSheet( pNewStyleSheet, bDontRemoveHardAttr, bBroadcast, bAdjustTextFrameWidthAndHeight ); } void SdrObjCustomShape::handlePageChange(SdrPage* pOldPage, SdrPage* pNewPage) { // call parent SdrTextObj::handlePageChange(pOldPage, pNewPage); if(nullptr != pNewPage) { // invalidating rectangles by SetRectsDirty is not sufficient, // AdjustTextFrameWidthAndHeight() also has to be made, both // actions are done by NbcSetSnapRect tools::Rectangle aRectangle(getRectangle()); //creating temporary rectangle #i61108# NbcSetSnapRect(aRectangle); } } std::unique_ptr SdrObjCustomShape::NewGeoData() const { return std::make_unique(); } void SdrObjCustomShape::SaveGeoData(SdrObjGeoData& rGeo) const { SdrTextObj::SaveGeoData( rGeo ); SdrAShapeObjGeoData& rAGeo=static_cast(rGeo); rAGeo.fObjectRotation = m_fObjectRotation; rAGeo.bMirroredX = IsMirroredX(); rAGeo.bMirroredY = IsMirroredY(); const uno::Any* pAny = GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ).GetPropertyValueByName( u"AdjustmentValues"_ustr ); if ( pAny ) *pAny >>= rAGeo.aAdjustmentSeq; } void SdrObjCustomShape::RestoreGeoData(const SdrObjGeoData& rGeo) { SdrTextObj::RestoreGeoData( rGeo ); const SdrAShapeObjGeoData& rAGeo=static_cast(rGeo); m_fObjectRotation = rAGeo.fObjectRotation; SetMirroredX( rAGeo.bMirroredX ); SetMirroredY( rAGeo.bMirroredY ); SdrCustomShapeGeometryItem rGeometryItem = GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); beans::PropertyValue aPropVal; aPropVal.Name = "AdjustmentValues"; aPropVal.Value <<= rAGeo.aAdjustmentSeq; rGeometryItem.SetPropertyValue( aPropVal ); SetMergedItem( rGeometryItem ); InvalidateRenderGeometry(); } void SdrObjCustomShape::AdjustToMaxRect(const tools::Rectangle& rMaxRect, bool bShrinkOnly /* = false */) { SAL_INFO_IF(bShrinkOnly, "svx", "Case bShrinkOnly == true is not implemented yet."); if (rMaxRect.IsEmpty() || rMaxRect == GetSnapRect()) return; // Get a matrix, that would produce the existing shape, when applied to a unit square basegfx::B2DPolyPolygon aPolyPolygon; //not used, but formal needed basegfx::B2DHomMatrix aMatrix; TRGetBaseGeometry(aMatrix, aPolyPolygon); // Using TRSetBaseGeometry(aMatrix, aPolyPolygon) would regenerate the current shape. But // applying aMatrix to a unit square will not generate the current shape. Scaling, // rotation and translation are correct, but shear angle has wrong sign. So break up // matrix and create a mathematically correct new one. basegfx::B2DTuple aScale; basegfx::B2DTuple aTranslate; double fRotate, fShearX; aMatrix.decompose(aScale, aTranslate, fRotate, fShearX); basegfx::B2DHomMatrix aMathMatrix; aMathMatrix = basegfx::utils::createScaleShearXRotateTranslateB2DHomMatrix( aScale, basegfx::fTools::equalZero(fShearX) ? 0.0 : -fShearX, basegfx::fTools::equalZero(fRotate) ? 0.0 : fRotate, aTranslate); // Calculate scaling factors from size of the transformed unit polygon as ersatz for the not // usable current snap rectangle. basegfx::B2DPolygon aB2DPolygon(basegfx::utils::createUnitPolygon()); aB2DPolygon.transform(aMathMatrix); basegfx::B2DRange aB2DRange(aB2DPolygon.getB2DRange()); double fPolygonWidth = aB2DRange.getWidth(); if (fPolygonWidth == 0) fPolygonWidth = 1; double fPolygonHeight = aB2DRange.getHeight(); if (fPolygonHeight == 0) fPolygonHeight = 1; const double aFactorX = static_cast(rMaxRect.GetWidth()) / fPolygonWidth; const double aFactorY = static_cast(rMaxRect.GetHeight()) / fPolygonHeight; // Generate matrix, that would produce the desired rMaxRect when applied to unit square aMathMatrix.scale(aFactorX, aFactorY); aB2DPolygon = basegfx::utils::createUnitPolygon(); aB2DPolygon.transform(aMathMatrix); aB2DRange = aB2DPolygon.getB2DRange(); const double fPolygonLeft = aB2DRange.getMinX(); const double fPolygonTop = aB2DRange.getMinY(); aMathMatrix.translate(rMaxRect.Left() - fPolygonLeft, rMaxRect.Top() - fPolygonTop); // Create a Matrix from aMathMatrix, which is usable with TRSetBaseGeometry aMathMatrix.decompose(aScale, aTranslate, fRotate, fShearX); aMatrix = basegfx::utils::createScaleShearXRotateTranslateB2DHomMatrix( aScale, basegfx::fTools::equalZero(fShearX) ? 0.0 : -fShearX, basegfx::fTools::equalZero(fRotate) ? 0.0 : fRotate, aTranslate); // Now use TRSetBaseGeometry to actually perform scale, shear, rotate and translate // on the shape. That considers gluepoints, interaction handles and text area, and includes // setting rectangles dirty and broadcast. TRSetBaseGeometry(aMatrix, aPolyPolygon); } void SdrObjCustomShape::TRSetBaseGeometry(const basegfx::B2DHomMatrix& rMatrix, const basegfx::B2DPolyPolygon& /*rPolyPolygon*/) { // The shape might have already flipping in its enhanced geometry. LibreOffice applies // such after all transformations. We remove it, but remember it to apply them later. bool bIsMirroredX = IsMirroredX(); bool bIsMirroredY = IsMirroredY(); if (bIsMirroredX || bIsMirroredY) { Point aCurrentCenter = GetSnapRect().Center(); if (bIsMirroredX) // mirror on the y-axis { Mirror(aCurrentCenter, Point(aCurrentCenter.X(), aCurrentCenter.Y() + 1000)); } if (bIsMirroredY) // mirror on the x-axis { Mirror(aCurrentCenter, Point(aCurrentCenter.X() + 1000, aCurrentCenter.Y())); } } // break up matrix basegfx::B2DTuple aScale; basegfx::B2DTuple aTranslate; double fRotate, fShearX; rMatrix.decompose(aScale, aTranslate, fRotate, fShearX); // reset object shear and rotations m_fObjectRotation = 0.0; maGeo.m_nRotationAngle = 0_deg100; maGeo.RecalcSinCos(); maGeo.m_nShearAngle = 0_deg100; maGeo.RecalcTan(); // if anchor is used, make position relative to it if(getSdrModelFromSdrObject().IsWriter()) { if(GetAnchorPos().X() || GetAnchorPos().Y()) { aTranslate += basegfx::B2DTuple(GetAnchorPos().X(), GetAnchorPos().Y()); } } // scale Size aSize(basegfx::fround(fabs(aScale.getX())), basegfx::fround(fabs(aScale.getY()))); // fdo#47434 We need a valid rectangle here if( !aSize.Height() ) aSize.setHeight( 1 ); if( !aSize.Width() ) aSize.setWidth( 1 ); tools::Rectangle aBaseRect(Point(), aSize); SetLogicRect(aBaseRect); // Apply flipping from Matrix, which is a transformation relative to origin if (aScale.getX() < 0.0) Mirror(Point(0, 0), Point(0, 1000)); // mirror on the y-axis if (aScale.getY() < 0.0) Mirror(Point(0, 0), Point(1000, 0)); // mirror on the x-axis // shear? if(!basegfx::fTools::equalZero(fShearX)) { GeoStat aGeoStat; // #i123181# The fix for #121932# here was wrong, the trunk version does not correct the // mirrored shear values, neither at the object level, nor on the API or XML level. Taking // back the mirroring of the shear angle aGeoStat.m_nShearAngle = Degree100(basegfx::fround(basegfx::rad2deg<100>(atan(fShearX)))); aGeoStat.RecalcTan(); Shear(Point(), aGeoStat.m_nShearAngle, aGeoStat.mfTanShearAngle, false); } // rotation? if(!basegfx::fTools::equalZero(fRotate)) { GeoStat aGeoStat; // #i78696# // fRotate is mathematically correct, but aGeoStat.nRotationAngle is // mirrored -> mirror value here aGeoStat.m_nRotationAngle = NormAngle36000(Degree100(basegfx::fround(-basegfx::rad2deg<100>(fRotate)))); aGeoStat.RecalcSinCos(); Rotate(Point(), aGeoStat.m_nRotationAngle, aGeoStat.mfSinRotationAngle, aGeoStat.mfCosRotationAngle); } // translate? if(!aTranslate.equalZero()) { Move(Size(basegfx::fround(aTranslate.getX()), basegfx::fround(aTranslate.getY()))); } // Apply flipping from enhanced geometry at center of the shape. if (!(bIsMirroredX || bIsMirroredY)) return; // create mathematically matrix for the applied transformations // aScale was in most cases built from a rectangle including edge // and is therefore mathematically too large by 1 if (aScale.getX() > 2.0 && aScale.getY() > 2.0) aScale -= basegfx::B2DTuple(1.0, 1.0); basegfx::B2DHomMatrix aMathMat = basegfx::utils::createScaleShearXRotateTranslateB2DHomMatrix( aScale, -fShearX, basegfx::fTools::equalZero(fRotate) ? 0.0 : fRotate, aTranslate); // Use matrix to get current center basegfx::B2DPoint aCenter(0.5,0.5); aCenter = aMathMat * aCenter; double fCenterX = aCenter.getX(); double fCenterY = aCenter.getY(); if (bIsMirroredX) // vertical axis Mirror(Point(basegfx::fround(fCenterX), basegfx::fround(fCenterY)), Point(basegfx::fround(fCenterX), basegfx::fround(fCenterY + 1000.0))); if (bIsMirroredY) // horizontal axis Mirror(Point(basegfx::fround(fCenterX), basegfx::fround(fCenterY)), Point(basegfx::fround(fCenterX + 1000.0), basegfx::fround(fCenterY))); } // taking fObjectRotation instead of aGeo.nAngle bool SdrObjCustomShape::TRGetBaseGeometry(basegfx::B2DHomMatrix& rMatrix, basegfx::B2DPolyPolygon& /*rPolyPolygon*/) const { // get turn and shear double fRotate = basegfx::deg2rad(m_fObjectRotation); double fShearX = toRadians(maGeo.m_nShearAngle); // get aRectangle, this is the unrotated snaprect tools::Rectangle aRectangle(getRectangle()); bool bMirroredX = IsMirroredX(); bool bMirroredY = IsMirroredY(); if ( bMirroredX || bMirroredY ) { // we have to retrieve the unmirrored rect GeoStat aNewGeo(maGeo); if ( bMirroredX ) { fShearX = -fShearX; tools::Polygon aPol = Rect2Poly(getRectangle(), aNewGeo); tools::Rectangle aBoundRect( aPol.GetBoundRect() ); Point aRef1( ( aBoundRect.Left() + aBoundRect.Right() ) >> 1, aBoundRect.Top() ); Point aRef2( aRef1.X(), aRef1.Y() + 1000 ); sal_uInt16 i; sal_uInt16 nPointCount=aPol.GetSize(); for (i=0; i> 1 ); Point aRef2( aRef1.X() + 1000, aRef1.Y() ); sal_uInt16 i; sal_uInt16 nPointCount=aPol.GetSize(); for (i=0; i SdrObjCustomShape::CreateObjectSpecificViewContact() { return std::make_unique(*this); } // #i33136# bool SdrObjCustomShape::doConstructOrthogonal(std::u16string_view rName) { bool bRetval(false); if(o3tl::equalsIgnoreAsciiCase(rName, u"quadrat")) { bRetval = true; } else if(o3tl::equalsIgnoreAsciiCase(rName, u"round-quadrat")) { bRetval = true; } else if(o3tl::equalsIgnoreAsciiCase(rName, u"circle")) { bRetval = true; } else if(o3tl::equalsIgnoreAsciiCase(rName, u"circle-pie")) { bRetval = true; } else if(o3tl::equalsIgnoreAsciiCase(rName, u"ring")) { bRetval = true; } return bRetval; } // #i37011# centralize throw-away of render geometry void SdrObjCustomShape::InvalidateRenderGeometry() { mXRenderedCustomShape = nullptr; mpLastShadowGeometry = nullptr; } void SdrObjCustomShape::setUnoShape(const uno::Reference& rxUnoShape) { SdrTextObj::setUnoShape(rxUnoShape); // The shape engine is created with _current_ shape. This means we // _must_ reset it when the shape changes. mxCustomShapeEngine.clear(); } OUString SdrObjCustomShape::GetCustomShapeName() const { OUString sShapeName; OUString aEngine( GetMergedItem( SDRATTR_CUSTOMSHAPE_ENGINE ).GetValue() ); if ( aEngine.isEmpty() || aEngine == "com.sun.star.drawing.EnhancedCustomShapeEngine" ) { OUString sShapeType; const SdrCustomShapeGeometryItem& rGeometryItem( GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ) ); const uno::Any* pAny = rGeometryItem.GetPropertyValueByName( u"Type"_ustr ); if ( pAny && ( *pAny >>= sShapeType ) ) sShapeName = EnhancedCustomShapeTypeNames::GetAccName( sShapeType ); } return sShapeName; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */