/************************************************************** * * 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 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY * KIND, either express or implied. See the License for the * specific language governing permissions and limitations * under the License. * *************************************************************/ // MARKER(update_precomp.py): autogen include statement, do not remove #include "precompiled_svx.hxx" #include "EnhancedCustomShape3d.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define ITEMVALUE(ItemSet,Id,Cast) ((const Cast&)(ItemSet).Get(Id)).GetValue() using namespace com::sun::star; using namespace com::sun::star::uno; const rtl::OUString sExtrusion( RTL_CONSTASCII_USTRINGPARAM ( "Extrusion" ) ); void GetOrigin( SdrCustomShapeGeometryItem& rItem, double& rOriginX, double& rOriginY ) { ::com::sun::star::drawing::EnhancedCustomShapeParameterPair aOriginParaPair; const rtl::OUString sOrigin( RTL_CONSTASCII_USTRINGPARAM ( "Origin" ) ); Any* pAny = rItem.GetPropertyValueByName( sExtrusion, sOrigin ); if ( ! ( pAny && ( *pAny >>= aOriginParaPair ) && ( aOriginParaPair.First.Value >>= rOriginX ) && ( aOriginParaPair.Second.Value >>= rOriginY ) ) ) { rOriginX = 0.50; rOriginY =-0.50; } } void GetRotateAngle( SdrCustomShapeGeometryItem& rItem, double& rAngleX, double& rAngleY ) { ::com::sun::star::drawing::EnhancedCustomShapeParameterPair aRotateAngleParaPair; const rtl::OUString sRotateAngle( RTL_CONSTASCII_USTRINGPARAM ( "RotateAngle" ) ); Any* pAny = rItem.GetPropertyValueByName( sExtrusion, sRotateAngle ); if ( ! ( pAny && ( *pAny >>= aRotateAngleParaPair ) && ( aRotateAngleParaPair.First.Value >>= rAngleX ) && ( aRotateAngleParaPair.Second.Value >>= rAngleY ) ) ) { rAngleX = 0.0; rAngleY = 0.0; } rAngleX *= F_PI180; rAngleY *= F_PI180; } void GetSkew( SdrCustomShapeGeometryItem& rItem, double& rSkewAmount, double& rSkewAngle ) { ::com::sun::star::drawing::EnhancedCustomShapeParameterPair aSkewParaPair; const rtl::OUString sSkew( RTL_CONSTASCII_USTRINGPARAM ( "Skew" ) ); Any* pAny = rItem.GetPropertyValueByName( sExtrusion, sSkew ); if ( ! ( pAny && ( *pAny >>= aSkewParaPair ) && ( aSkewParaPair.First.Value >>= rSkewAmount ) && ( aSkewParaPair.Second.Value >>= rSkewAngle ) ) ) { rSkewAmount = 50; rSkewAngle = -135; } rSkewAngle *= F_PI180; } void GetExtrusionDepth( SdrCustomShapeGeometryItem& rItem, const double* pMap, double& rBackwardDepth, double& rForwardDepth ) { ::com::sun::star::drawing::EnhancedCustomShapeParameterPair aDepthParaPair; double fDepth = 0, fFraction = 0; const rtl::OUString sDepth( RTL_CONSTASCII_USTRINGPARAM ( "Depth" ) ); Any* pAny = rItem.GetPropertyValueByName( sExtrusion, sDepth ); if ( pAny && ( *pAny >>= aDepthParaPair ) && ( aDepthParaPair.First.Value >>= fDepth ) && ( aDepthParaPair.Second.Value >>= fFraction ) ) { rForwardDepth = fDepth * fFraction; rBackwardDepth = fDepth - rForwardDepth; } else { rBackwardDepth = 1270; rForwardDepth = 0; } if ( pMap ) { double fMap = *pMap; rBackwardDepth *= fMap; rForwardDepth *= fMap; } } double GetDouble( SdrCustomShapeGeometryItem& rItem, const rtl::OUString& rPropertyName, double fDefault, const double* pMap ) { double fRetValue = fDefault; Any* pAny = rItem.GetPropertyValueByName( sExtrusion, rPropertyName ); if ( pAny ) *pAny >>= fRetValue; if ( pMap ) fRetValue *= *pMap; return fRetValue; } drawing::ShadeMode GetShadeMode( SdrCustomShapeGeometryItem& rItem, const drawing::ShadeMode eDefault ) { drawing::ShadeMode eRet( eDefault ); const rtl::OUString sShadeMode( RTL_CONSTASCII_USTRINGPARAM ( "ShadeMode" ) ); Any* pAny = rItem.GetPropertyValueByName( sExtrusion, sShadeMode ); if ( pAny ) *pAny >>= eRet; return eRet; } sal_Int32 GetInt32( SdrCustomShapeGeometryItem& rItem, const rtl::OUString& rPropertyName, const sal_Int32 nDefault ) { sal_Int32 nRetValue = nDefault; Any* pAny = rItem.GetPropertyValueByName( sExtrusion, rPropertyName ); if ( pAny ) *pAny >>= nRetValue; return nRetValue; } sal_Bool GetBool( SdrCustomShapeGeometryItem& rItem, const rtl::OUString& rPropertyName, const sal_Bool bDefault ) { sal_Bool bRetValue = bDefault; const Any* pAny = rItem.GetPropertyValueByName( sExtrusion, rPropertyName ); if ( pAny ) *pAny >>= bRetValue; return bRetValue; } awt::Point GetPoint( SdrCustomShapeGeometryItem& rItem, const rtl::OUString& rPropertyName, const awt::Point& rDefault ) { awt::Point aRetValue( rDefault ); const Any* pAny = rItem.GetPropertyValueByName( sExtrusion, rPropertyName ); if ( pAny ) *pAny >>= aRetValue; return aRetValue; } drawing::Position3D GetPosition3D( SdrCustomShapeGeometryItem& rItem, const rtl::OUString& rPropertyName, const drawing::Position3D& rDefault, const double* pMap ) { drawing::Position3D aRetValue( rDefault ); const Any* pAny = rItem.GetPropertyValueByName( sExtrusion, rPropertyName ); if ( pAny ) *pAny >>= aRetValue; if ( pMap ) { aRetValue.PositionX *= *pMap; aRetValue.PositionY *= *pMap; aRetValue.PositionZ *= *pMap; } return aRetValue; } drawing::Direction3D GetDirection3D( SdrCustomShapeGeometryItem& rItem, const rtl::OUString& rPropertyName, const drawing::Direction3D& rDefault ) { drawing::Direction3D aRetValue( rDefault ); const Any* pAny = rItem.GetPropertyValueByName( sExtrusion, rPropertyName ); if ( pAny ) *pAny >>= aRetValue; return aRetValue; } EnhancedCustomShape3d::Transformation2D::Transformation2D( const SdrObject* pCustomShape, const Rectangle& /*rBoundRect*/, const double *pM ) : aCenter( pCustomShape->GetSnapRect().Center() ) , eProjectionMode( drawing::ProjectionMode_PARALLEL ) , pMap( pM ) { SdrCustomShapeGeometryItem& rGeometryItem = (SdrCustomShapeGeometryItem&)pCustomShape->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); const rtl::OUString sProjectionMode( RTL_CONSTASCII_USTRINGPARAM ( "ProjectionMode" ) ); Any* pAny = rGeometryItem.GetPropertyValueByName( sExtrusion, sProjectionMode ); if ( pAny ) *pAny >>= eProjectionMode; if ( eProjectionMode == drawing::ProjectionMode_PARALLEL ) GetSkew( rGeometryItem, fSkew, fSkewAngle ); else { fZScreen = 0.0; GetOrigin( rGeometryItem, fOriginX, fOriginY ); fOriginX = fOriginX * pCustomShape->GetLogicRect().GetWidth(); fOriginY = fOriginY * pCustomShape->GetLogicRect().GetHeight(); const rtl::OUString sViewPoint( RTL_CONSTASCII_USTRINGPARAM ( "ViewPoint" ) ); drawing::Position3D aViewPointDefault( 3472, -3472, 25000 ); drawing::Position3D aViewPoint( GetPosition3D( rGeometryItem, sViewPoint, aViewPointDefault, pMap ) ); fViewPoint.setX(aViewPoint.PositionX); fViewPoint.setY(aViewPoint.PositionY); fViewPoint.setZ(-aViewPoint.PositionZ); } } basegfx::B3DPolygon EnhancedCustomShape3d::Transformation2D::ApplySkewSettings( const basegfx::B3DPolygon& rPoly3D ) const { basegfx::B3DPolygon aRetval; sal_uInt32 j; for ( j = 0L; j < rPoly3D.count(); j++ ) { const basegfx::B3DPoint aPoint(rPoly3D.getB3DPoint(j)); double fDepth(-( aPoint.getZ() * fSkew ) / 100.0); aRetval.append(basegfx::B3DPoint( aPoint.getX() + (fDepth * cos( fSkewAngle )), aPoint.getY() - (fDepth * sin( fSkewAngle )), aPoint.getZ())); } return aRetval; } Point EnhancedCustomShape3d::Transformation2D::Transform2D( const basegfx::B3DPoint& rPoint3D ) const { Point aPoint2D; if ( eProjectionMode == drawing::ProjectionMode_PARALLEL ) { aPoint2D.X() = (sal_Int32)rPoint3D.getX(); aPoint2D.Y() = (sal_Int32)rPoint3D.getY(); } else { double fX = rPoint3D.getX() - fOriginX; double fY = rPoint3D.getY() - fOriginY; double f = ( fZScreen - fViewPoint.getZ() ) / ( rPoint3D.getZ() - fViewPoint.getZ() ); aPoint2D.X() = (sal_Int32)(( fX - fViewPoint.getX() ) * f + fViewPoint.getX() + fOriginX ); aPoint2D.Y() = (sal_Int32)(( fY - fViewPoint.getY() ) * f + fViewPoint.getY() + fOriginY ); } aPoint2D.Move( aCenter.X(), aCenter.Y() ); return aPoint2D; } sal_Bool EnhancedCustomShape3d::Transformation2D::IsParallel() const { return eProjectionMode == com::sun::star::drawing::ProjectionMode_PARALLEL; } SdrObject* EnhancedCustomShape3d::Create3DObject( const SdrObject* pShape2d, const SdrObject* pCustomShape ) { SdrObject* pRet = NULL; SdrModel* pModel = pCustomShape->GetModel(); SdrCustomShapeGeometryItem& rGeometryItem = (SdrCustomShapeGeometryItem&)pCustomShape->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); double fMap, *pMap = NULL; if ( pModel ) { fMap = 1.0; Fraction aFraction( pModel->GetScaleFraction() ); if ( ( aFraction.GetNumerator() ) != 1 || ( aFraction.GetDenominator() != 1 ) ) { fMap *= aFraction.GetNumerator(); fMap /= aFraction.GetDenominator(); pMap = &fMap; } if ( pModel->GetScaleUnit() != MAP_100TH_MM ) { DBG_ASSERT( pModel->GetScaleUnit() == MAP_TWIP, "EnhancedCustomShape3d::Current MapMode is Unsupported" ); fMap *= 1440.0 / 2540.0; pMap = &fMap; } } if ( GetBool( rGeometryItem, sExtrusion, sal_False ) ) { sal_Bool bIsMirroredX = ((SdrObjCustomShape*)pCustomShape)->IsMirroredX(); sal_Bool bIsMirroredY = ((SdrObjCustomShape*)pCustomShape)->IsMirroredY(); Rectangle aSnapRect( pCustomShape->GetLogicRect() ); long nObjectRotation = pCustomShape->GetRotateAngle(); if ( nObjectRotation ) { double a = ( 36000 - nObjectRotation ) * nPi180; long dx = aSnapRect.Right() - aSnapRect.Left(); long dy = aSnapRect.Bottom()- aSnapRect.Top(); Point aP( aSnapRect.TopLeft() ); RotatePoint( aP, pCustomShape->GetSnapRect().Center(), sin( a ), cos( a ) ); aSnapRect.Left() = aP.X(); aSnapRect.Top() = aP.Y(); aSnapRect.Right() = aSnapRect.Left() + dx; aSnapRect.Bottom() = aSnapRect.Top() + dy; } Point aCenter( aSnapRect.Center() ); SfxItemSet aSet( pCustomShape->GetMergedItemSet() ); //SJ: vertical writing is not required, by removing this item no outliner is created aSet.ClearItem( SDRATTR_TEXTDIRECTION ); // #i105323# For 3D AutoShapes, the shadow attribute has to be applied to each // created visualisation helper model shape individually. The shadow itself // will then be rendered from the 3D renderer correctly for the whole 3D scene // (and thus behind all objects of which the visualisation may be built). So, // dio NOT remove it from the ItemSet here. // aSet.ClearItem(SDRATTR_SHADOW); std::vector< E3dCompoundObject* > aPlaceholderObjectList; double fExtrusionBackward, fExtrusionForward; GetExtrusionDepth( rGeometryItem, pMap, fExtrusionBackward, fExtrusionForward ); double fDepth = fExtrusionBackward - fExtrusionForward; if ( fDepth < 1.0 ) fDepth = 1.0; drawing::ProjectionMode eProjectionMode( drawing::ProjectionMode_PARALLEL ); const rtl::OUString sProjectionMode( RTL_CONSTASCII_USTRINGPARAM ( "ProjectionMode" ) ); Any* pAny = rGeometryItem.GetPropertyValueByName( sExtrusion, sProjectionMode ); if ( pAny ) *pAny >>= eProjectionMode; ProjectionType eProjectionType( eProjectionMode == drawing::ProjectionMode_PARALLEL ? PR_PARALLEL : PR_PERSPECTIVE ); // pShape2d Umwandeln in Szene mit 3D Objekt E3dDefaultAttributes a3DDefaultAttr; a3DDefaultAttr.SetDefaultLatheCharacterMode( sal_True ); a3DDefaultAttr.SetDefaultExtrudeCharacterMode( sal_True ); E3dScene* pScene = new E3dPolyScene( a3DDefaultAttr ); sal_Bool bSceneHasObjects ( sal_False ); sal_Bool bUseTwoFillStyles( sal_False ); drawing::ShadeMode eShadeMode( GetShadeMode( rGeometryItem, drawing::ShadeMode_FLAT ) ); const rtl::OUString sExtrusionColor( RTL_CONSTASCII_USTRINGPARAM ( "Color" ) ); sal_Bool bUseExtrusionColor = GetBool( rGeometryItem, sExtrusionColor, sal_False ); XFillStyle eFillStyle( ITEMVALUE( aSet, XATTR_FILLSTYLE, XFillStyleItem ) ); pScene->GetProperties().SetObjectItem( Svx3DShadeModeItem( 0 ) ); aSet.Put( Svx3DPercentDiagonalItem( 0 ) ); aSet.Put( Svx3DTextureModeItem( 1 ) ); aSet.Put( Svx3DNormalsKindItem( 1 ) ); if ( eShadeMode == drawing::ShadeMode_DRAFT ) { aSet.Put( XLineStyleItem( XLINE_SOLID ) ); aSet.Put( XFillStyleItem ( XFILL_NONE ) ); aSet.Put( Svx3DDoubleSidedItem( sal_True ) ); } else { aSet.Put( XLineStyleItem( XLINE_NONE ) ); if ( eFillStyle == XFILL_NONE ) aSet.Put( XFillStyleItem( XFILL_SOLID ) ); else if ( ( eFillStyle == XFILL_BITMAP ) || ( eFillStyle == XFILL_GRADIENT ) || bUseExtrusionColor ) bUseTwoFillStyles = sal_True; // #116336# // If shapes are mirrored once (mirroring two times correct geometry again) // double-sided at the object and two-sided-lighting at the scene need to be set. if((bIsMirroredX && !bIsMirroredY) || (!bIsMirroredX && bIsMirroredY)) { aSet.Put( Svx3DDoubleSidedItem( sal_True ) ); pScene->GetProperties().SetObjectItem( Svx3DTwoSidedLightingItem( sal_True ) ); } } Rectangle aBoundRect2d; SdrObjListIter aIter( *pShape2d, IM_DEEPWITHGROUPS ); while( aIter.IsMore() ) { const SdrObject* pNext = aIter.Next(); sal_Bool bIsPlaceholderObject = (((XFillStyleItem&)pNext->GetMergedItem( XATTR_FILLSTYLE )).GetValue() == XFILL_NONE ) && (((XLineStyleItem&)pNext->GetMergedItem( XATTR_LINESTYLE )).GetValue() == XLINE_NONE ); basegfx::B2DPolyPolygon aPolyPoly; SfxItemSet aLocalSet(aSet); XFillStyle aLocalFillStyle(eFillStyle); if ( pNext->ISA( SdrPathObj ) ) { const SfxItemSet& rSet = pNext->GetMergedItemSet(); const drawinglayer::attribute::SdrLineAttribute aLine( drawinglayer::primitive2d::createNewSdrLineAttribute(rSet)); bool bNeedToConvertToContour(0.0 <= aLine.getWidth() || 0.0 != aLine.getFullDotDashLen()); if(!bNeedToConvertToContour && !aLine.isDefault()) { const drawinglayer::attribute::SdrLineStartEndAttribute aLineStartEnd( drawinglayer::primitive2d::createNewSdrLineStartEndAttribute(rSet, aLine.getWidth())); if((aLineStartEnd.getStartWidth() && aLineStartEnd.isStartActive()) || (aLineStartEnd.getEndWidth() && aLineStartEnd.isEndActive())) { bNeedToConvertToContour = true; } } if(bNeedToConvertToContour) { SdrObject* pNewObj = pNext->ConvertToContourObj(const_cast< SdrObject* >(pNext)); SdrPathObj* pNewPathObj = dynamic_cast< SdrPathObj* >(pNewObj); if(pNewPathObj) { aPolyPoly = pNewPathObj->GetPathPoly(); if(aPolyPoly.isClosed()) { // correct item properties from line to fill style aLocalSet.Put(XLineWidthItem(0)); aLocalSet.Put(XLineStyleItem(XLINE_NONE)); aLocalSet.Put(XFillColorItem(XubString(), ((const XLineColorItem&)(aLocalSet.Get(XATTR_LINECOLOR))).GetColorValue())); aLocalSet.Put(XFillStyleItem(XFILL_SOLID)); aLocalSet.Put(XFillTransparenceItem(((const XLineTransparenceItem&)(aLocalSet.Get(XATTR_LINETRANSPARENCE))).GetValue())); aLocalFillStyle = XFILL_SOLID; } else { // correct item properties to hairlines aLocalSet.Put(XLineWidthItem(0)); aLocalSet.Put(XLineStyleItem(XLINE_SOLID)); } } SdrObject::Free(pNewObj); } else { aPolyPoly = ((SdrPathObj*)pNext)->GetPathPoly(); } } else { SdrObject* pNewObj = pNext->ConvertToPolyObj( sal_False, sal_False ); SdrPathObj* pPath = PTR_CAST( SdrPathObj, pNewObj ); if ( pPath ) aPolyPoly = pPath->GetPathPoly(); SdrObject::Free( pNewObj ); } if( aPolyPoly.count() ) { if(aPolyPoly.areControlPointsUsed()) { aPolyPoly = basegfx::tools::adaptiveSubdivideByAngle(aPolyPoly); } const basegfx::B2DRange aTempRange(basegfx::tools::getRange(aPolyPoly)); const Rectangle aBoundRect(basegfx::fround(aTempRange.getMinX()), basegfx::fround(aTempRange.getMinY()), basegfx::fround(aTempRange.getMaxX()), basegfx::fround(aTempRange.getMaxY())); aBoundRect2d.Union( aBoundRect ); E3dCompoundObject* p3DObj = new E3dExtrudeObj( a3DDefaultAttr, aPolyPoly, bUseTwoFillStyles ? 10 : fDepth ); p3DObj->NbcSetLayer( pShape2d->GetLayer() ); p3DObj->SetMergedItemSet( aLocalSet ); if ( bIsPlaceholderObject ) aPlaceholderObjectList.push_back( p3DObj ); else if ( bUseTwoFillStyles ) { BitmapEx aFillBmp; sal_Bool bFillBmpTile = ((XFillBmpTileItem&)p3DObj->GetMergedItem( XATTR_FILLBMP_TILE )).GetValue(); if ( bFillBmpTile ) { const XFillBitmapItem& rBmpItm = (XFillBitmapItem&)p3DObj->GetMergedItem(XATTR_FILLBITMAP); aFillBmp = rBmpItm.GetGraphicObject().GetGraphic().GetBitmapEx(); Size aLogicalSize = aFillBmp.GetPrefSize(); if ( aFillBmp.GetPrefMapMode() == MAP_PIXEL ) aLogicalSize = Application::GetDefaultDevice()->PixelToLogic( aLogicalSize, MAP_100TH_MM ); else aLogicalSize = OutputDevice::LogicToLogic( aLogicalSize, aFillBmp.GetPrefMapMode(), MAP_100TH_MM ); aLogicalSize.Width() *= 5; ;// :-( nice scaling, look at engine3d/obj3d.cxx aLogicalSize.Height() *= 5; aFillBmp.SetPrefSize( aLogicalSize ); aFillBmp.SetPrefMapMode( MAP_100TH_MM ); p3DObj->SetMergedItem(XFillBitmapItem(String(), Graphic(aFillBmp))); } else { if ( aSnapRect != aBoundRect ) { const XFillBitmapItem& rBmpItm = (XFillBitmapItem&)p3DObj->GetMergedItem(XATTR_FILLBITMAP); aFillBmp = rBmpItm.GetGraphicObject().GetGraphic().GetBitmapEx(); Size aBmpSize( aFillBmp.GetSizePixel() ); double fXScale = (double)aBoundRect.GetWidth() / (double)aSnapRect.GetWidth(); double fYScale = (double)aBoundRect.GetHeight() / (double)aSnapRect.GetHeight(); Point aPt( (sal_Int32)( (double)( aBoundRect.Left() - aSnapRect.Left() )* (double)aBmpSize.Width() / (double)aSnapRect.GetWidth() ), (sal_Int32)( (double)( aBoundRect.Top() - aSnapRect.Top() ) * (double)aBmpSize.Height() / (double)aSnapRect.GetHeight() ) ); Size aSize( (sal_Int32)( aBmpSize.Width() * fXScale ), (sal_Int32)( aBmpSize.Height() * fYScale ) ); Rectangle aCropRect( aPt, aSize ); aFillBmp.Crop( aCropRect ); p3DObj->SetMergedItem(XFillBitmapItem(String(), Graphic(aFillBmp))); } } pScene->Insert3DObj( p3DObj ); p3DObj = new E3dExtrudeObj( a3DDefaultAttr, aPolyPoly, fDepth ); p3DObj->NbcSetLayer( pShape2d->GetLayer() ); p3DObj->SetMergedItemSet( aLocalSet ); if ( bUseExtrusionColor ) p3DObj->SetMergedItem( XFillColorItem( String(), ((XSecondaryFillColorItem&)pCustomShape->GetMergedItem( XATTR_SECONDARYFILLCOLOR )).GetColorValue() ) ); p3DObj->SetMergedItem( XFillStyleItem( XFILL_SOLID ) ); p3DObj->SetMergedItem( Svx3DCloseFrontItem( sal_False ) ); p3DObj->SetMergedItem( Svx3DCloseBackItem( sal_False ) ); pScene->Insert3DObj( p3DObj ); p3DObj = new E3dExtrudeObj( a3DDefaultAttr, aPolyPoly, 10 ); p3DObj->NbcSetLayer( pShape2d->GetLayer() ); p3DObj->SetMergedItemSet( aLocalSet ); basegfx::B3DHomMatrix aFrontTransform( p3DObj->GetTransform() ); aFrontTransform.translate( 0.0, 0.0, fDepth ); p3DObj->NbcSetTransform( aFrontTransform ); if ( ( aLocalFillStyle == XFILL_BITMAP ) && !aFillBmp.IsEmpty() ) { p3DObj->SetMergedItem(XFillBitmapItem(String(), Graphic(aFillBmp))); } } else if ( aLocalFillStyle == XFILL_NONE ) { XLineColorItem& rLineColor = (XLineColorItem&)p3DObj->GetMergedItem( XATTR_LINECOLOR ); p3DObj->SetMergedItem( XFillColorItem( String(), rLineColor.GetColorValue() ) ); p3DObj->SetMergedItem( Svx3DDoubleSidedItem( sal_True ) ); p3DObj->SetMergedItem( Svx3DCloseFrontItem( sal_False ) ); p3DObj->SetMergedItem( Svx3DCloseBackItem( sal_False ) ); } pScene->Insert3DObj( p3DObj ); bSceneHasObjects = sal_True; } } if ( bSceneHasObjects ) // is the SdrObject properly converted { // then we can change the return value pRet = pScene; // Kameraeinstellungen, Perspektive ... Camera3D& rCamera = (Camera3D&)pScene->GetCamera(); const basegfx::B3DRange& rVolume = pScene->GetBoundVolume(); pScene->NbcSetSnapRect( aSnapRect ); // InitScene replacement double fW = rVolume.getWidth(); double fH = rVolume.getHeight(); rCamera.SetAutoAdjustProjection( sal_False ); rCamera.SetViewWindow( -fW / 2, - fH / 2, fW, fH); basegfx::B3DPoint aLookAt( 0.0, 0.0, 0.0 ); basegfx::B3DPoint aCamPos( 0.0, 0.0, 100.0 ); rCamera.SetDefaults( basegfx::B3DPoint( 0.0, 0.0, 100.0 ), aLookAt, 100.0 ); rCamera.SetPosAndLookAt( aCamPos, aLookAt ); rCamera.SetFocalLength( 1.0 ); rCamera.SetProjection( eProjectionType ); pScene->SetCamera( rCamera ); pScene->SetRectsDirty(); double fOriginX, fOriginY; GetOrigin( rGeometryItem, fOriginX, fOriginY ); fOriginX = fOriginX * aSnapRect.GetWidth(); fOriginY = fOriginY * aSnapRect.GetHeight(); basegfx::B3DHomMatrix aNewTransform( pScene->GetTransform() ); aNewTransform.translate( -aCenter.X(), aCenter.Y(), -pScene->GetBoundVolume().getDepth() ); double fXRotate, fYRotate; GetRotateAngle( rGeometryItem, fXRotate, fYRotate ); double fZRotate = ((SdrObjCustomShape*)pCustomShape)->GetObjectRotation() * F_PI180; if ( fZRotate != 0.0 ) aNewTransform.rotate( 0.0, 0.0, fZRotate ); if ( bIsMirroredX ) aNewTransform.scale( -1.0, 1, 1 ); if ( bIsMirroredY ) aNewTransform.scale( 1, -1.0, 1 ); if( fYRotate != 0.0 ) aNewTransform.rotate( 0.0, -fYRotate, 0.0 ); if( fXRotate != 0.0 ) aNewTransform.rotate( -fXRotate, 0.0, 0.0 ); if ( eProjectionType == PR_PARALLEL ) { double fSkew, fAlpha; GetSkew( rGeometryItem, fSkew, fAlpha ); if ( fSkew != 0.0 ) { double fInvTanBeta( fSkew / 100.0 ); if(fInvTanBeta) { aNewTransform.shearXY( fInvTanBeta * cos(fAlpha), fInvTanBeta * sin(fAlpha)); } } basegfx::B3DPoint _aLookAt( 0.0, 0.0, 0.0 ); basegfx::B3DPoint _aNewCamPos( 0.0, 0.0, 25000.0 ); rCamera.SetPosAndLookAt( _aNewCamPos, _aLookAt ); pScene->SetCamera( rCamera ); } else { aNewTransform.translate( -fOriginX, fOriginY, 0.0 ); // now set correct camera position const rtl::OUString sViewPoint( RTL_CONSTASCII_USTRINGPARAM ( "ViewPoint" ) ); drawing::Position3D aViewPointDefault( 3472, -3472, 25000 ); drawing::Position3D aViewPoint( GetPosition3D( rGeometryItem, sViewPoint, aViewPointDefault, pMap ) ); double fViewPointX = aViewPoint.PositionX; double fViewPointY = aViewPoint.PositionY; double fViewPointZ = aViewPoint.PositionZ; basegfx::B3DPoint _aLookAt( fViewPointX, -fViewPointY, 0.0 ); basegfx::B3DPoint aNewCamPos( fViewPointX, -fViewPointY, fViewPointZ ); rCamera.SetPosAndLookAt( aNewCamPos, _aLookAt ); pScene->SetCamera( rCamera ); } pScene->NbcSetTransform( aNewTransform ); /////////// // light // /////////// const rtl::OUString sBrightness( RTL_CONSTASCII_USTRINGPARAM ( "Brightness" ) ); double fAmbientIntensity = GetDouble( rGeometryItem, sBrightness, 22178.0 / 655.36, NULL ) / 100.0; const rtl::OUString sFirstLightDirection( RTL_CONSTASCII_USTRINGPARAM ( "FirstLightDirection" ) ); drawing::Direction3D aFirstLightDirectionDefault( 50000, 0, 10000 ); drawing::Direction3D aFirstLightDirection( GetDirection3D( rGeometryItem, sFirstLightDirection, aFirstLightDirectionDefault ) ); if ( aFirstLightDirection.DirectionZ == 0.0 ) aFirstLightDirection.DirectionZ = 1.0; const rtl::OUString sFirstLightLevel( RTL_CONSTASCII_USTRINGPARAM ( "FirstLightLevel" ) ); double fLightIntensity = GetDouble( rGeometryItem, sFirstLightLevel, 43712.0 / 655.36, NULL ) / 100.0; const rtl::OUString sFirstLightHarsh( RTL_CONSTASCII_USTRINGPARAM ( "FirstLightHarsh" ) ); /* sal_Bool bFirstLightHarsh = */ GetBool( rGeometryItem, sFirstLightHarsh, sal_False ); const rtl::OUString sSecondLightDirection( RTL_CONSTASCII_USTRINGPARAM ( "SecondLightDirection" ) ); drawing::Direction3D aSecondLightDirectionDefault( -50000, 0, 10000 ); drawing::Direction3D aSecondLightDirection( GetDirection3D( rGeometryItem, sSecondLightDirection, aSecondLightDirectionDefault ) ); if ( aSecondLightDirection.DirectionZ == 0.0 ) aSecondLightDirection.DirectionZ = -1; const rtl::OUString sSecondLightLevel( RTL_CONSTASCII_USTRINGPARAM ( "SecondLightLevel" ) ); double fLight2Intensity = GetDouble( rGeometryItem, sSecondLightLevel, 43712.0 / 655.36, NULL ) / 100.0; const rtl::OUString sSecondLightHarsh( RTL_CONSTASCII_USTRINGPARAM ( "SecondLightHarsh" ) ); const rtl::OUString sLightFace( RTL_CONSTASCII_USTRINGPARAM ( "LightFace" ) ); /* sal_Bool bLight2Harsh = */ GetBool( rGeometryItem, sSecondLightHarsh, sal_False ); /* sal_Bool bLightFace = */ GetBool( rGeometryItem, sLightFace, sal_False ); sal_uInt16 nAmbientColor = (sal_uInt16)( fAmbientIntensity * 255.0 ); if ( nAmbientColor > 255 ) nAmbientColor = 255; Color aGlobalAmbientColor( (sal_uInt8)nAmbientColor, (sal_uInt8)nAmbientColor, (sal_uInt8)nAmbientColor ); pScene->GetProperties().SetObjectItem( Svx3DAmbientcolorItem( aGlobalAmbientColor ) ); sal_uInt8 nSpotLight1 = (sal_uInt8)( fLightIntensity * 255.0 ); basegfx::B3DVector aSpotLight1( aFirstLightDirection.DirectionX, - ( aFirstLightDirection.DirectionY ), -( aFirstLightDirection.DirectionZ ) ); aSpotLight1.normalize(); pScene->GetProperties().SetObjectItem( Svx3DLightOnOff1Item( sal_True ) ); Color aAmbientSpot1Color( nSpotLight1, nSpotLight1, nSpotLight1 ); pScene->GetProperties().SetObjectItem( Svx3DLightcolor1Item( aAmbientSpot1Color ) ); pScene->GetProperties().SetObjectItem( Svx3DLightDirection1Item( aSpotLight1 ) ); sal_uInt8 nSpotLight2 = (sal_uInt8)( fLight2Intensity * 255.0 ); basegfx::B3DVector aSpotLight2( aSecondLightDirection.DirectionX, -aSecondLightDirection.DirectionY, -aSecondLightDirection.DirectionZ ); aSpotLight2.normalize(); pScene->GetProperties().SetObjectItem( Svx3DLightOnOff2Item( sal_True ) ); Color aAmbientSpot2Color( nSpotLight2, nSpotLight2, nSpotLight2 ); pScene->GetProperties().SetObjectItem( Svx3DLightcolor2Item( aAmbientSpot2Color ) ); pScene->GetProperties().SetObjectItem( Svx3DLightDirection2Item( aSpotLight2 ) ); sal_uInt8 nSpotLight3 = 70; basegfx::B3DVector aSpotLight3( 0.0, 0.0, 1.0 ); pScene->GetProperties().SetObjectItem( Svx3DLightOnOff3Item( sal_True ) ); Color aAmbientSpot3Color( nSpotLight3, nSpotLight3, nSpotLight3 ); pScene->GetProperties().SetObjectItem( Svx3DLightcolor3Item( aAmbientSpot3Color ) ); pScene->GetProperties().SetObjectItem( Svx3DLightDirection3Item( aSpotLight3 ) ); const rtl::OUString sSpecularity( RTL_CONSTASCII_USTRINGPARAM ( "Specularity" ) ); const rtl::OUString sDiffusion( RTL_CONSTASCII_USTRINGPARAM ( "Diffusion" ) ); const rtl::OUString sShininess( RTL_CONSTASCII_USTRINGPARAM ( "Shininess" ) ); const rtl::OUString sMetal( RTL_CONSTASCII_USTRINGPARAM ( "Metal" ) ); double fSpecular = GetDouble( rGeometryItem, sSpecularity, 0, NULL ) / 100; sal_Bool bMetal = GetBool( rGeometryItem, sMetal, sal_False ); Color aSpecularCol( 225,225,225 ); if ( bMetal ) { aSpecularCol = Color( 200, 200, 200 ); fSpecular += 0.15; } sal_Int32 nIntensity = (sal_Int32)fSpecular * 100; if ( nIntensity > 100 ) nIntensity = 100; else if ( nIntensity < 0 ) nIntensity = 0; nIntensity = 100 - nIntensity; pScene->GetProperties().SetObjectItem( Svx3DMaterialSpecularItem( aSpecularCol ) ); pScene->GetProperties().SetObjectItem( Svx3DMaterialSpecularIntensityItem( (sal_uInt16)nIntensity ) ); pScene->SetLogicRect( CalculateNewSnapRect( pCustomShape, aSnapRect, aBoundRect2d, pMap ) ); // removing placeholder objects std::vector< E3dCompoundObject* >::iterator aObjectListIter( aPlaceholderObjectList.begin() ); while ( aObjectListIter != aPlaceholderObjectList.end() ) { pScene->Remove3DObj( *aObjectListIter ); delete *aObjectListIter++; } } else delete pScene; } return pRet; } Rectangle EnhancedCustomShape3d::CalculateNewSnapRect( const SdrObject* pCustomShape, const Rectangle& rSnapRect, const Rectangle& rBoundRect, const double* pMap ) { SdrCustomShapeGeometryItem& rGeometryItem = (SdrCustomShapeGeometryItem&)pCustomShape->GetMergedItem( SDRATTR_CUSTOMSHAPE_GEOMETRY ); const Point aCenter( rSnapRect.Center() ); double fExtrusionBackward, fExtrusionForward; GetExtrusionDepth( rGeometryItem, pMap, fExtrusionBackward, fExtrusionForward ); sal_uInt32 i; // creating initial bound volume ( without rotation. skewing.and camera ) basegfx::B3DPolygon aBoundVolume; const Polygon aPolygon( rBoundRect ); for ( i = 0L; i < 4L; i++ ) { aBoundVolume.append(basegfx::B3DPoint(aPolygon[ (sal_uInt16)i ].X() - aCenter.X(), aPolygon[ (sal_uInt16)i ].Y() - aCenter.Y(), fExtrusionForward)); } for ( i = 0L; i < 4L; i++ ) { aBoundVolume.append(basegfx::B3DPoint(aPolygon[ (sal_uInt16)i ].X() - aCenter.X(), aPolygon[ (sal_uInt16)i ].Y() - aCenter.Y(), fExtrusionBackward)); } const rtl::OUString sRotationCenter( RTL_CONSTASCII_USTRINGPARAM ( "RotationCenter" ) ); drawing::Direction3D aRotationCenterDefault( 0, 0, 0 ); // default seems to be wrong, a fractional size of shape has to be used!! drawing::Direction3D aRotationCenter( GetDirection3D( rGeometryItem, sRotationCenter, aRotationCenterDefault ) ); // double XCenterInGUnits = rPropSet.GetPropertyValue( DFF_Prop_c3DRotationCenterX, 0 ); // double YCenterInGUnits = rPropSet.GetPropertyValue( DFF_Prop_c3DRotationCenterY, 0 ); // sal_Int32 nRotationXAxisInProz = rPropSet.GetPropertyValue( DFF_Prop_c3DRotationAxisX, 100 ); // sal_Int32 nRotationYAxisInProz = rPropSet.GetPropertyValue( DFF_Prop_c3DRotationAxisY, 0 ); // sal_Int32 nRotationZAxisInProz = rPropSet.GetPropertyValue( DFF_Prop_c3DRotationAxisZ, 0 ); double fXRotate, fYRotate; GetRotateAngle( rGeometryItem, fXRotate, fYRotate ); double fZRotate = - ((SdrObjCustomShape*)pCustomShape)->GetObjectRotation() * F_PI180; // rotating bound volume basegfx::B3DHomMatrix aMatrix; aMatrix.translate(-aRotationCenter.DirectionX, -aRotationCenter.DirectionY, -aRotationCenter.DirectionZ); if ( fZRotate != 0.0 ) aMatrix.rotate( 0.0, 0.0, fZRotate ); if ( ((SdrObjCustomShape*)pCustomShape)->IsMirroredX() ) aMatrix.scale( -1.0, 1, 1 ); if ( ((SdrObjCustomShape*)pCustomShape)->IsMirroredY() ) aMatrix.scale( 1, -1.0, 1 ); if( fYRotate != 0.0 ) aMatrix.rotate( 0.0, fYRotate, 0.0 ); if( fXRotate != 0.0 ) aMatrix.rotate( -fXRotate, 0.0, 0.0 ); aMatrix.translate(aRotationCenter.DirectionX, aRotationCenter.DirectionY, aRotationCenter.DirectionZ); aBoundVolume.transform(aMatrix); Transformation2D aTransformation2D( pCustomShape, rSnapRect, pMap ); if ( aTransformation2D.IsParallel() ) aBoundVolume = aTransformation2D.ApplySkewSettings( aBoundVolume ); Polygon aTransformed( 8 ); for ( i = 0L; i < 8L; i++ ) aTransformed[ (sal_uInt16)i ] = aTransformation2D.Transform2D( aBoundVolume.getB3DPoint( i ) ); return aTransformed.GetBoundRect(); }