/* -*- 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 "oox/drawingml/fillproperties.hxx" #include #include #include #include #include #include #include #include #include #include #include #include "oox/helper/graphichelper.hxx" #include "oox/drawingml/drawingmltypes.hxx" #include "oox/drawingml/shapepropertymap.hxx" #include "oox/token/tokens.hxx" using namespace ::com::sun::star; using namespace ::com::sun::star::drawing; using namespace ::com::sun::star::graphic; using ::rtl::OUString; using ::com::sun::star::uno::Reference; using ::com::sun::star::uno::Exception; using ::com::sun::star::uno::UNO_QUERY; using ::com::sun::star::uno::UNO_QUERY_THROW; using ::com::sun::star::geometry::IntegerRectangle2D; namespace oox { namespace drawingml { // ============================================================================ namespace { BitmapMode lclGetBitmapMode( sal_Int32 nToken ) { OSL_ASSERT((nToken & sal_Int32(0xFFFF0000))==0); switch( nToken ) { case XML_tile: return BitmapMode_REPEAT; case XML_stretch: return BitmapMode_STRETCH; } return BitmapMode_NO_REPEAT; } RectanglePoint lclGetRectanglePoint( sal_Int32 nToken ) { OSL_ASSERT((nToken & sal_Int32(0xFFFF0000))==0); switch( nToken ) { case XML_tl: return RectanglePoint_LEFT_TOP; case XML_t: return RectanglePoint_MIDDLE_TOP; case XML_tr: return RectanglePoint_RIGHT_TOP; case XML_l: return RectanglePoint_LEFT_MIDDLE; case XML_ctr: return RectanglePoint_MIDDLE_MIDDLE; case XML_r: return RectanglePoint_RIGHT_MIDDLE; case XML_bl: return RectanglePoint_LEFT_BOTTOM; case XML_b: return RectanglePoint_MIDDLE_BOTTOM; case XML_br: return RectanglePoint_RIGHT_BOTTOM; } return RectanglePoint_LEFT_TOP; } const awt::Size lclGetOriginalSize( const GraphicHelper& rGraphicHelper, const Reference< XGraphic >& rxGraphic ) { awt::Size aSizeHmm( 0, 0 ); try { Reference< beans::XPropertySet > xGraphicPropertySet( rxGraphic, UNO_QUERY_THROW ); if( xGraphicPropertySet->getPropertyValue( CREATE_OUSTRING( "Size100thMM" ) ) >>= aSizeHmm ) { if( !aSizeHmm.Width && !aSizeHmm.Height ) { // MAPMODE_PIXEL USED :-( awt::Size aSourceSizePixel( 0, 0 ); if( xGraphicPropertySet->getPropertyValue( CREATE_OUSTRING( "SizePixel" ) ) >>= aSourceSizePixel ) aSizeHmm = rGraphicHelper.convertScreenPixelToHmm( aSourceSizePixel ); } } } catch( Exception& ) { } return aSizeHmm; } } // namespace // ============================================================================ void GradientFillProperties::assignUsed( const GradientFillProperties& rSourceProps ) { if( !rSourceProps.maGradientStops.empty() ) maGradientStops = rSourceProps.maGradientStops; moFillToRect.assignIfUsed( rSourceProps.moFillToRect ); moTileRect.assignIfUsed( rSourceProps.moTileRect ); moGradientPath.assignIfUsed( rSourceProps.moGradientPath ); moShadeAngle.assignIfUsed( rSourceProps.moShadeAngle ); moShadeFlip.assignIfUsed( rSourceProps.moShadeFlip ); moShadeScaled.assignIfUsed( rSourceProps.moShadeScaled ); moRotateWithShape.assignIfUsed( rSourceProps.moRotateWithShape ); } // ============================================================================ void PatternFillProperties::assignUsed( const PatternFillProperties& rSourceProps ) { maPattFgColor.assignIfUsed( rSourceProps.maPattFgColor ); maPattBgColor.assignIfUsed( rSourceProps.maPattBgColor ); moPattPreset.assignIfUsed( rSourceProps.moPattPreset ); } // ============================================================================ void BlipFillProperties::assignUsed( const BlipFillProperties& rSourceProps ) { if( rSourceProps.mxGraphic.is() ) mxGraphic = rSourceProps.mxGraphic; moBitmapMode.assignIfUsed( rSourceProps.moBitmapMode ); moFillRect.assignIfUsed( rSourceProps.moFillRect ); moTileOffsetX.assignIfUsed( rSourceProps.moTileOffsetX ); moTileOffsetY.assignIfUsed( rSourceProps.moTileOffsetY ); moTileScaleX.assignIfUsed( rSourceProps.moTileScaleX ); moTileScaleY.assignIfUsed( rSourceProps.moTileScaleY ); moTileAlign.assignIfUsed( rSourceProps.moTileAlign ); moTileFlip.assignIfUsed( rSourceProps.moTileFlip ); moRotateWithShape.assignIfUsed( rSourceProps.moRotateWithShape ); moColorEffect.assignIfUsed( rSourceProps.moColorEffect ); moBrightness.assignIfUsed( rSourceProps.moBrightness ); moContrast.assignIfUsed( rSourceProps.moContrast ); maColorChangeFrom.assignIfUsed( rSourceProps.maColorChangeFrom ); maColorChangeTo.assignIfUsed( rSourceProps.maColorChangeTo ); maDuotoneColors[0].assignIfUsed( rSourceProps.maDuotoneColors[0] ); maDuotoneColors[1].assignIfUsed( rSourceProps.maDuotoneColors[1] ); } // ============================================================================ void FillProperties::assignUsed( const FillProperties& rSourceProps ) { moFillType.assignIfUsed( rSourceProps.moFillType ); maFillColor.assignIfUsed( rSourceProps.maFillColor ); maGradientProps.assignUsed( rSourceProps.maGradientProps ); maPatternProps.assignUsed( rSourceProps.maPatternProps ); maBlipProps.assignUsed( rSourceProps.maBlipProps ); } Color FillProperties::getBestSolidColor() const { Color aSolidColor; if( moFillType.has() ) switch( moFillType.get() ) { case XML_solidFill: aSolidColor = maFillColor; break; case XML_gradFill: if( !maGradientProps.maGradientStops.empty() ) aSolidColor = maGradientProps.maGradientStops.begin()->second; break; case XML_pattFill: aSolidColor = maPatternProps.maPattBgColor.isUsed() ? maPatternProps.maPattBgColor : maPatternProps.maPattFgColor; break; } return aSolidColor; } /// Maps the hatch token to drawing::Hatch. static drawing::Hatch createHatch( sal_Int32 nHatchToken, sal_Int32 nColor ) { drawing::Hatch aHatch; aHatch.Color = nColor; // best-effort mapping; we do not support all the styles in core switch ( nHatchToken ) { case XML_pct5: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 250; aHatch.Angle = 450; break; case XML_pct10: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 200; aHatch.Angle = 450; break; case XML_pct20: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_pct25: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 200; aHatch.Angle = 450; break; case XML_pct30: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 175; aHatch.Angle = 450; break; case XML_pct40: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_pct50: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 125; aHatch.Angle = 450; break; case XML_pct60: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_pct70: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 125; aHatch.Angle = 450; break; case XML_pct75: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 100; aHatch.Angle = 450; break; case XML_pct80: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 75; aHatch.Angle = 450; break; case XML_pct90: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 50; aHatch.Angle = 450; break; case XML_horz: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 100; aHatch.Angle = 0; break; case XML_vert: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 100; aHatch.Angle = 900; break; case XML_ltHorz: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 0; break; case XML_ltVert: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 900; break; case XML_dkHorz: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 25; aHatch.Angle = 0; break; case XML_dkVert: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 25; aHatch.Angle = 900; break; case XML_narHorz: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 50; aHatch.Angle = 0; break; case XML_narVert: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 50; aHatch.Angle = 900; break; case XML_dashHorz: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 0; break; case XML_dashVert: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 900; break; case XML_cross: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 100; aHatch.Angle = 0; break; case XML_dnDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 100; aHatch.Angle = 1350; break; case XML_upDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 100; aHatch.Angle = 450; break; case XML_ltDnDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 1350; break; case XML_ltUpDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_dkDnDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 50; aHatch.Angle = 1350; break; case XML_dkUpDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 50; aHatch.Angle = 450; break; case XML_wdDnDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 200; aHatch.Angle = 1350; break; case XML_wdUpDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 200; aHatch.Angle = 450; break; case XML_dashDnDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 1350; break; case XML_dashUpDiag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_diagCross: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 100; aHatch.Angle = 450; break; case XML_smCheck: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 50; aHatch.Angle = 450; break; case XML_lgCheck: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 100; aHatch.Angle = 450; break; case XML_smGrid: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 150; aHatch.Angle = 0; break; case XML_lgGrid: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 250; aHatch.Angle = 0; break; case XML_dotGrid: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 400; aHatch.Angle = 0; break; case XML_smConfetti: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 200; aHatch.Angle = 600; break; case XML_lgConfetti: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 100; aHatch.Angle = 600; break; case XML_horzBrick: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 300; aHatch.Angle = 0; break; case XML_diagBrick: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 300; aHatch.Angle = 450; break; case XML_solidDmnd: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_openDmnd: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 200; aHatch.Angle = 450; break; case XML_dotDmnd: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 300; aHatch.Angle = 450; break; case XML_plaid: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 200; aHatch.Angle = 900; break; case XML_sphere: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 100; aHatch.Angle = 0; break; case XML_weave: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 150; aHatch.Angle = 450; break; case XML_divot: aHatch.Style = drawing::HatchStyle_TRIPLE; aHatch.Distance = 400; aHatch.Angle = 450; break; case XML_shingle: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 200; aHatch.Angle = 1350; break; case XML_wave: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 100; aHatch.Angle = 0; break; case XML_trellis: aHatch.Style = drawing::HatchStyle_DOUBLE; aHatch.Distance = 75; aHatch.Angle = 450; break; case XML_zigZag: aHatch.Style = drawing::HatchStyle_SINGLE; aHatch.Distance = 75; aHatch.Angle = 0; break; } return aHatch; } void FillProperties::pushToPropMap( ShapePropertyMap& rPropMap, const GraphicHelper& rGraphicHelper, sal_Int32 nShapeRotation, sal_Int32 nPhClr, bool bFlipH, bool bFlipV ) const { if( moFillType.has() ) { FillStyle eFillStyle = FillStyle_NONE; OSL_ASSERT((moFillType.get() & sal_Int32(0xFFFF0000))==0); switch( moFillType.get() ) { case XML_noFill: eFillStyle = FillStyle_NONE; break; case XML_solidFill: if( maFillColor.isUsed() ) { rPropMap.setProperty( SHAPEPROP_FillColor, maFillColor.getColor( rGraphicHelper, nPhClr ) ); if( maFillColor.hasTransparency() ) rPropMap.setProperty( SHAPEPROP_FillTransparency, maFillColor.getTransparency() ); eFillStyle = FillStyle_SOLID; } break; case XML_gradFill: // do not create gradient struct if property is not supported... if( rPropMap.supportsProperty( SHAPEPROP_FillGradient ) ) { sal_Int32 nEndTrans = 0; sal_Int32 nStartTrans = 0; awt::Gradient aGradient; aGradient.Angle = 900; aGradient.StartIntensity = 100; aGradient.EndIntensity = 100; size_t nColorCount = maGradientProps.maGradientStops.size(); if( nColorCount > 1 ) { aGradient.StartColor = maGradientProps.maGradientStops.begin()->second.getColor( rGraphicHelper, nPhClr ); aGradient.EndColor = maGradientProps.maGradientStops.rbegin()->second.getColor( rGraphicHelper, nPhClr ); if( maGradientProps.maGradientStops.rbegin()->second.hasTransparency() ) nEndTrans = maGradientProps.maGradientStops.rbegin()->second.getTransparency()*255/100; if( maGradientProps.maGradientStops.begin()->second.hasTransparency() ) nStartTrans = maGradientProps.maGradientStops.begin()->second.getTransparency()*255/100; } // Adjust for flips if ( bFlipH ) nShapeRotation = 180*60000 - nShapeRotation; if ( bFlipV ) nShapeRotation = -nShapeRotation; // "rotate with shape" not set, or set to false -> do not rotate if ( !maGradientProps.moRotateWithShape.get( false ) ) nShapeRotation = 0; sal_Int32 nDmlAngle = 0; if( maGradientProps.moGradientPath.has() ) { aGradient.Style = (maGradientProps.moGradientPath.get() == XML_circle) ? awt::GradientStyle_ELLIPTICAL : awt::GradientStyle_RECT; // position of gradient center (limited to [30%;70%], otherwise gradient is too hidden) IntegerRectangle2D aFillToRect = maGradientProps.moFillToRect.get( IntegerRectangle2D( 0, 0, MAX_PERCENT, MAX_PERCENT ) ); sal_Int32 nCenterX = (MAX_PERCENT + aFillToRect.X1 - aFillToRect.X2) / 2; aGradient.XOffset = getLimitedValue< sal_Int16, sal_Int32 >( nCenterX / PER_PERCENT, 30, 70 ); sal_Int32 nCenterY = (MAX_PERCENT + aFillToRect.Y1 - aFillToRect.Y2) / 2; aGradient.YOffset = getLimitedValue< sal_Int16, sal_Int32 >( nCenterY / PER_PERCENT, 30, 70 ); ::std::swap( aGradient.StartColor, aGradient.EndColor ); ::std::swap( nStartTrans, nEndTrans ); nDmlAngle = nShapeRotation; } else { /* Try to detect a VML axial gradient. This type of gradient is simulated by a 3-point linear gradient. Even if its a multi-color linear gradient, its probably better to assume axial gradient, when there are 3 or more points. */ bool bAxial = (nColorCount >= 3); aGradient.Style = bAxial ? awt::GradientStyle_AXIAL : awt::GradientStyle_LINEAR; nDmlAngle = maGradientProps.moShadeAngle.get( 0 ) - nShapeRotation; // convert DrawingML angle (in 1/60000 degrees) to API angle (in 1/10 degrees) aGradient.Angle = static_cast< sal_Int16 >( (4500 - (nDmlAngle / (PER_DEGREE / 10))) % 3600 ); if( bAxial ) { GradientFillProperties::GradientStopMap::const_iterator aIt = maGradientProps.maGradientStops.begin(); // Try to find the axial median for(size_t i=0;isecond.hasColor() kind would be better than Color != API_RGB_WHITE if( aGradient.StartColor == aGradient.EndColor && ( !aIt->second.hasTransparency() || aIt->second.getColor( rGraphicHelper, nPhClr ) != API_RGB_WHITE ) ) { aGradient.StartColor = aIt->second.getColor( rGraphicHelper, nPhClr ); } if( nStartTrans == nEndTrans && aIt->second.hasTransparency() ) nStartTrans = aIt->second.getTransparency()*255/100; } } // push gradient or named gradient to property map if( rPropMap.setProperty( SHAPEPROP_FillGradient, aGradient ) ) eFillStyle = FillStyle_GRADIENT; // push gradient transparency to property map if( nStartTrans != 0 || nEndTrans != 0 ) { awt::Gradient aGrad(aGradient); uno::Any aVal; aGrad.EndColor = (sal_Int32)( nEndTrans | nEndTrans << 8 | nEndTrans << 16 ); aGrad.StartColor = (sal_Int32)( nStartTrans | nStartTrans << 8 | nStartTrans << 16 ); aVal <<= aGrad; rPropMap.setProperty( SHAPEPROP_GradientTransparency, aGrad ); } } break; case XML_blipFill: // do not start complex graphic transformation if property is not supported... if( maBlipProps.mxGraphic.is() && rPropMap.supportsProperty( SHAPEPROP_FillBitmapUrl ) ) { Reference< XGraphic > xGraphic = maBlipProps.mxGraphic; if( maBlipProps.maDuotoneColors[0].isUsed() && maBlipProps.maDuotoneColors[1].isUsed() ) { sal_Int32 nColor1 = maBlipProps.maDuotoneColors[0].getColor( rGraphicHelper, nPhClr ); sal_Int32 nColor2 = maBlipProps.maDuotoneColors[1].getColor( rGraphicHelper, nPhClr ); try { Reference< XGraphicTransformer > xTransformer( maBlipProps.mxGraphic, UNO_QUERY_THROW ); xGraphic = xTransformer->applyDuotone( maBlipProps.mxGraphic, nColor1, nColor2 ); } catch( Exception& ) { } } // TODO: "rotate with shape" is not possible with our current core OUString aGraphicUrl = rGraphicHelper.createGraphicObject( xGraphic ); // push bitmap or named bitmap to property map if( !aGraphicUrl.isEmpty() && rPropMap.setProperty( SHAPEPROP_FillBitmapUrl, aGraphicUrl ) ) eFillStyle = FillStyle_BITMAP; // set other bitmap properties, if bitmap has been inserted into the map if( eFillStyle == FillStyle_BITMAP ) { // bitmap mode (single, repeat, stretch) BitmapMode eBitmapMode = lclGetBitmapMode( maBlipProps.moBitmapMode.get( XML_TOKEN_INVALID ) ); rPropMap.setProperty( SHAPEPROP_FillBitmapMode, eBitmapMode ); // additional settings for repeated bitmap if( eBitmapMode == BitmapMode_REPEAT ) { // anchor position inside bitmap RectanglePoint eRectPoint = lclGetRectanglePoint( maBlipProps.moTileAlign.get( XML_tl ) ); rPropMap.setProperty( SHAPEPROP_FillBitmapRectanglePoint, eRectPoint ); awt::Size aOriginalSize = lclGetOriginalSize( rGraphicHelper, maBlipProps.mxGraphic ); if( (aOriginalSize.Width > 0) && (aOriginalSize.Height > 0) ) { // size of one bitmap tile (given as 1/1000 percent of bitmap size), convert to 1/100 mm double fScaleX = maBlipProps.moTileScaleX.get( MAX_PERCENT ) / static_cast< double >( MAX_PERCENT ); sal_Int32 nFillBmpSizeX = getLimitedValue< sal_Int32, double >( aOriginalSize.Width * fScaleX, 1, SAL_MAX_INT32 ); rPropMap.setProperty( SHAPEPROP_FillBitmapSizeX, nFillBmpSizeX ); double fScaleY = maBlipProps.moTileScaleY.get( MAX_PERCENT ) / static_cast< double >( MAX_PERCENT ); sal_Int32 nFillBmpSizeY = getLimitedValue< sal_Int32, double >( aOriginalSize.Height * fScaleY, 1, SAL_MAX_INT32 ); rPropMap.setProperty( SHAPEPROP_FillBitmapSizeY, nFillBmpSizeY ); // offset of the first bitmap tile (given as EMUs), convert to percent sal_Int16 nTileOffsetX = getDoubleIntervalValue< sal_Int16 >( maBlipProps.moTileOffsetX.get( 0 ) / 3.6 / aOriginalSize.Width, 0, 100 ); rPropMap.setProperty( SHAPEPROP_FillBitmapOffsetX, nTileOffsetX ); sal_Int16 nTileOffsetY = getDoubleIntervalValue< sal_Int16 >( maBlipProps.moTileOffsetY.get( 0 ) / 3.6 / aOriginalSize.Height, 0, 100 ); rPropMap.setProperty( SHAPEPROP_FillBitmapOffsetY, nTileOffsetY ); } } } } break; case XML_pattFill: { if( rPropMap.supportsProperty( SHAPEPROP_FillHatch ) ) { Color aColor( maPatternProps.maPattFgColor ); if( aColor.isUsed() && maPatternProps.moPattPreset.has() ) { // we do not support hatches that have background // color too, so all this is some best-effort approach eFillStyle = FillStyle_HATCH; rPropMap.setProperty( SHAPEPROP_FillHatch, createHatch( maPatternProps.moPattPreset.get(), aColor.getColor( rGraphicHelper, nPhClr ) ) ); } else if ( maPatternProps.maPattBgColor.isUsed() ) { aColor = maPatternProps.maPattBgColor; rPropMap.setProperty( SHAPEPROP_FillColor, aColor.getColor( rGraphicHelper, nPhClr ) ); if( aColor.hasTransparency() ) rPropMap.setProperty( SHAPEPROP_FillTransparency, aColor.getTransparency() ); eFillStyle = FillStyle_SOLID; } } } break; case XML_grpFill: // todo eFillStyle = FillStyle_NONE; break; } // set final fill style property rPropMap.setProperty( SHAPEPROP_FillStyle, eFillStyle ); } } // ============================================================================ void GraphicProperties::pushToPropMap( PropertyMap& rPropMap, const GraphicHelper& rGraphicHelper, sal_Int32 nPhClr ) const { if( maBlipProps.mxGraphic.is() ) { // created transformed graphic Reference< XGraphic > xGraphic = maBlipProps.mxGraphic; if( maBlipProps.maColorChangeFrom.isUsed() && maBlipProps.maColorChangeTo.isUsed() ) { sal_Int32 nFromColor = maBlipProps.maColorChangeFrom.getColor( rGraphicHelper, nPhClr ); sal_Int32 nToColor = maBlipProps.maColorChangeTo.getColor( rGraphicHelper, nPhClr ); if ( (nFromColor != nToColor) || maBlipProps.maColorChangeTo.hasTransparency() ) try { sal_Int16 nToTransparence = maBlipProps.maColorChangeTo.getTransparency(); sal_Int8 nToAlpha = static_cast< sal_Int8 >( (100 - nToTransparence) / 39.062 ); // ?!? correct ?!? Reference< XGraphicTransformer > xTransformer( maBlipProps.mxGraphic, UNO_QUERY_THROW ); xGraphic = xTransformer->colorChange( maBlipProps.mxGraphic, nFromColor, 9, nToColor, nToAlpha ); } catch( Exception& ) { } } rPropMap[ PROP_Graphic ] <<= xGraphic; // do we still need to set GraphicURL as well? (TODO) OUString aGraphicUrl = rGraphicHelper.createGraphicObject( xGraphic ); if( !aGraphicUrl.isEmpty() ) rPropMap[ PROP_GraphicURL ] <<= aGraphicUrl; // cropping if ( maBlipProps.moClipRect.has() ) { geometry::IntegerRectangle2D oClipRect( maBlipProps.moClipRect.get() ); awt::Size aOriginalSize( rGraphicHelper.getOriginalSize( xGraphic ) ); if ( aOriginalSize.Width && aOriginalSize.Height ) { text::GraphicCrop aGraphCrop( 0, 0, 0, 0 ); if ( oClipRect.X1 ) aGraphCrop.Left = static_cast< sal_Int32 >( ( static_cast< double >( aOriginalSize.Width ) * oClipRect.X1 ) / 100000 ); if ( oClipRect.Y1 ) aGraphCrop.Top = static_cast< sal_Int32 >( ( static_cast< double >( aOriginalSize.Height ) * oClipRect.Y1 ) / 100000 ); if ( oClipRect.X2 ) aGraphCrop.Right = static_cast< sal_Int32 >( ( static_cast< double >( aOriginalSize.Width ) * oClipRect.X2 ) / 100000 ); if ( oClipRect.Y2 ) aGraphCrop.Bottom = static_cast< sal_Int32 >( ( static_cast< double >( aOriginalSize.Height ) * oClipRect.Y2 ) / 100000 ); rPropMap[ PROP_GraphicCrop ] <<= aGraphCrop; } } } // color effect ColorMode eColorMode = ColorMode_STANDARD; switch( maBlipProps.moColorEffect.get( XML_TOKEN_INVALID ) ) { case XML_biLevel: eColorMode = ColorMode_MONO; break; case XML_grayscl: eColorMode = ColorMode_GREYS; break; } rPropMap[ PROP_GraphicColorMode ] <<= eColorMode; // brightness and contrast sal_Int16 nBrightness = getLimitedValue< sal_Int16, sal_Int32 >( maBlipProps.moBrightness.get( 0 ) / PER_PERCENT, -100, 100 ); if( nBrightness != 0 ) rPropMap[ PROP_AdjustLuminance ] <<= nBrightness; sal_Int16 nContrast = getLimitedValue< sal_Int16, sal_Int32 >( maBlipProps.moContrast.get( 0 ) / PER_PERCENT, -100, 100 ); if( nContrast != 0 ) rPropMap[ PROP_AdjustContrast ] <<= nContrast; // Media content if( !maAudio.msEmbed.isEmpty() ) rPropMap[ PROP_MediaURL ] <<= maAudio.msEmbed; } // ============================================================================ } // namespace drawingml } // namespace oox /* vim:set shiftwidth=4 softtabstop=4 expandtab: */