/* -*- 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 namespace { /** * Perform a safe approximation of a polygon from double-precision * coordinates to integer coordinates, to ensure that it has at least 2 * pixels in both X and Y directions. */ tools::Polygon toPolygon( const basegfx::B2DPolygon& rPoly ) { basegfx::B2DRange aRange = rPoly.getB2DRange(); double fW = aRange.getWidth(), fH = aRange.getHeight(); if (0.0 < fW && 0.0 < fH && (fW <= 1.0 || fH <= 1.0)) { // This polygon not empty but is too small to display. Approximate it // with a rectangle large enough to be displayed. double nX = aRange.getMinX(), nY = aRange.getMinY(); double nW = std::max(1.0, rtl::math::round(fW)); double nH = std::max(1.0, rtl::math::round(fH)); tools::Polygon aTarget; aTarget.Insert(0, Point(nX, nY)); aTarget.Insert(1, Point(nX+nW, nY)); aTarget.Insert(2, Point(nX+nW, nY+nH)); aTarget.Insert(3, Point(nX, nY+nH)); aTarget.Insert(4, Point(nX, nY)); return aTarget; } return tools::Polygon(rPoly); } tools::PolyPolygon toPolyPolygon( const basegfx::B2DPolyPolygon& rPolyPoly ) { tools::PolyPolygon aTarget; for (auto const& rB2DPolygon : rPolyPoly) aTarget.Insert(toPolygon(rB2DPolygon)); return aTarget; } } Color OutputDevice::ImplDrawModeToColor( const Color& rColor ) const { Color aColor( rColor ); DrawModeFlags nDrawMode = GetDrawMode(); if( nDrawMode & ( DrawModeFlags::BlackLine | DrawModeFlags::WhiteLine | DrawModeFlags::GrayLine | DrawModeFlags::SettingsLine ) ) { if( !ImplIsColorTransparent( aColor ) ) { if( nDrawMode & DrawModeFlags::BlackLine ) { aColor = COL_BLACK; } else if( nDrawMode & DrawModeFlags::WhiteLine ) { aColor = COL_WHITE; } else if( nDrawMode & DrawModeFlags::GrayLine ) { const sal_uInt8 cLum = aColor.GetLuminance(); aColor = Color( cLum, cLum, cLum ); } else if( nDrawMode & DrawModeFlags::SettingsLine ) { aColor = GetSettings().GetStyleSettings().GetFontColor(); } } } return aColor; } void OutputDevice::ImplPrintTransparent( const Bitmap& rBmp, const Bitmap& rMask, const Point& rDestPt, const Size& rDestSize, const Point& rSrcPtPixel, const Size& rSrcSizePixel ) { Point aDestPt( LogicToPixel( rDestPt ) ); Size aDestSz( LogicToPixel( rDestSize ) ); tools::Rectangle aSrcRect( rSrcPtPixel, rSrcSizePixel ); aSrcRect.Justify(); if( rBmp.IsEmpty() || !aSrcRect.GetWidth() || !aSrcRect.GetHeight() || !aDestSz.Width() || !aDestSz.Height() ) return; Bitmap aPaint( rBmp ), aMask( rMask ); BmpMirrorFlags nMirrFlags = BmpMirrorFlags::NONE; if( aMask.GetBitCount() > 1 ) aMask.Convert( BmpConversion::N1BitThreshold ); // mirrored horizontically if( aDestSz.Width() < 0 ) { aDestSz.setWidth( -aDestSz.Width() ); aDestPt.AdjustX( -( aDestSz.Width() - 1 ) ); nMirrFlags |= BmpMirrorFlags::Horizontal; } // mirrored vertically if( aDestSz.Height() < 0 ) { aDestSz.setHeight( -aDestSz.Height() ); aDestPt.AdjustY( -( aDestSz.Height() - 1 ) ); nMirrFlags |= BmpMirrorFlags::Vertical; } // source cropped? if( aSrcRect != tools::Rectangle( Point(), aPaint.GetSizePixel() ) ) { aPaint.Crop( aSrcRect ); aMask.Crop( aSrcRect ); } // destination mirrored if( nMirrFlags != BmpMirrorFlags::NONE ) { aPaint.Mirror( nMirrFlags ); aMask.Mirror( nMirrFlags ); } // we always want to have a mask if( aMask.IsEmpty() ) { aMask = Bitmap( aSrcRect.GetSize(), 1 ); aMask.Erase( COL_BLACK ); } // do painting const long nSrcWidth = aSrcRect.GetWidth(), nSrcHeight = aSrcRect.GetHeight(); long nX, nY; // , nWorkX, nWorkY, nWorkWidth, nWorkHeight; std::unique_ptr pMapX(new long[ nSrcWidth + 1 ]); std::unique_ptr pMapY(new long[ nSrcHeight + 1 ]); const bool bOldMap = mbMap; mbMap = false; // create forward mapping tables for( nX = 0; nX <= nSrcWidth; nX++ ) pMapX[ nX ] = aDestPt.X() + FRound( static_cast(aDestSz.Width()) * nX / nSrcWidth ); for( nY = 0; nY <= nSrcHeight; nY++ ) pMapY[ nY ] = aDestPt.Y() + FRound( static_cast(aDestSz.Height()) * nY / nSrcHeight ); // walk through all rectangles of mask const vcl::Region aWorkRgn(aMask.CreateRegion(COL_BLACK, tools::Rectangle(Point(), aMask.GetSizePixel()))); RectangleVector aRectangles; aWorkRgn.GetRegionRectangles(aRectangles); for (auto const& rectangle : aRectangles) { const Point aMapPt(pMapX[rectangle.Left()], pMapY[rectangle.Top()]); const Size aMapSz( pMapX[rectangle.Right() + 1] - aMapPt.X(), // pMapX[L + W] -> L + ((R - L) + 1) -> R + 1 pMapY[rectangle.Bottom() + 1] - aMapPt.Y()); // same for Y Bitmap aBandBmp(aPaint); aBandBmp.Crop(rectangle); DrawBitmap(aMapPt, aMapSz, Point(), aBandBmp.GetSizePixel(), aBandBmp); } mbMap = bOldMap; } // Caution: This method is nearly the same as // void OutputDevice::DrawPolyPolygon( const basegfx::B2DPolyPolygon& rB2DPolyPoly ) // so when changes are made here do not forget to make changes there, too void OutputDevice::DrawTransparent( const basegfx::B2DHomMatrix& rObjectTransform, const basegfx::B2DPolyPolygon& rB2DPolyPoly, double fTransparency) { assert(!is_double_buffered_window()); // AW: Do NOT paint empty PolyPolygons if(!rB2DPolyPoly.count()) return; // we need a graphics if( !mpGraphics && !AcquireGraphics() ) return; if( mbInitClipRegion ) InitClipRegion(); if( mbOutputClipped ) return; if( mbInitLineColor ) InitLineColor(); if( mbInitFillColor ) InitFillColor(); if((mnAntialiasing & AntialiasingFlags::EnableB2dDraw) && mpGraphics->supportsOperation(OutDevSupportType::B2DDraw) && (RasterOp::OverPaint == GetRasterOp()) ) { // b2dpolygon support not implemented yet on non-UNX platforms basegfx::B2DPolyPolygon aB2DPolyPolygon(rB2DPolyPoly); // ensure it is closed if(!aB2DPolyPolygon.isClosed()) { // maybe assert, prevents buffering due to making a copy aB2DPolyPolygon.setClosed( true ); } // create ObjectToDevice transformation const basegfx::B2DHomMatrix aFullTransform(ImplGetDeviceTransformation() * rObjectTransform); // TODO: this must not drop transparency for mpAlphaVDev case, but instead use premultiplied // aplha... but that requires using premultiplied alpha also for already drawn data const double fAdjustedTransparency = mpAlphaVDev ? 0 : fTransparency; bool bDrawnOk(true); if( IsFillColor() ) { bDrawnOk = mpGraphics->DrawPolyPolygon( aFullTransform, aB2DPolyPolygon, fAdjustedTransparency, this); } if( bDrawnOk && IsLineColor() ) { const bool bPixelSnapHairline(mnAntialiasing & AntialiasingFlags::PixelSnapHairline); for(auto const& rPolygon : aB2DPolyPolygon) { mpGraphics->DrawPolyLine( aFullTransform, rPolygon, fAdjustedTransparency, 0.0, // tdf#124848 hairline nullptr, // MM01 basegfx::B2DLineJoin::NONE, css::drawing::LineCap_BUTT, basegfx::deg2rad(15.0), // not used with B2DLineJoin::NONE, but the correct default bPixelSnapHairline, this ); } } if( bDrawnOk ) { if( mpMetaFile ) { // tdf#119843 need transformed Polygon here basegfx::B2DPolyPolygon aB2DPolyPoly(rB2DPolyPoly); aB2DPolyPoly.transform(rObjectTransform); mpMetaFile->AddAction( new MetaTransparentAction( tools::PolyPolygon(aB2DPolyPoly), static_cast< sal_uInt16 >(fTransparency * 100.0))); } if (mpAlphaVDev) mpAlphaVDev->DrawTransparent(rObjectTransform, rB2DPolyPoly, fTransparency); return; } } // fallback to old polygon drawing if needed // tdf#119843 need transformed Polygon here basegfx::B2DPolyPolygon aB2DPolyPoly(rB2DPolyPoly); aB2DPolyPoly.transform(rObjectTransform); DrawTransparent( toPolyPolygon(aB2DPolyPoly), static_cast(fTransparency * 100.0)); } void OutputDevice::DrawInvisiblePolygon( const tools::PolyPolygon& rPolyPoly ) { assert(!is_double_buffered_window()); // short circuit if the polygon border is invisible too if( !mbLineColor ) return; // we assume that the border is NOT to be drawn transparently??? Push( PushFlags::FILLCOLOR ); SetFillColor(); DrawPolyPolygon( rPolyPoly ); Pop(); } bool OutputDevice::DrawTransparentNatively ( const tools::PolyPolygon& rPolyPoly, sal_uInt16 nTransparencePercent ) { assert(!is_double_buffered_window()); bool bDrawn = false; // debug helper: static const char* pDisableNative = getenv( "SAL_DISABLE_NATIVE_ALPHA"); if( !pDisableNative && mpGraphics->supportsOperation( OutDevSupportType::B2DDraw ) #if defined UNX && ! defined MACOSX && ! defined IOS && GetBitCount() > 8 #endif #ifdef _WIN32 // workaround bad dithering on remote displaying when using GDI+ with toolbar button highlighting && !rPolyPoly.IsRect() #endif ) { // prepare the graphics device if( mbInitClipRegion ) InitClipRegion(); if( mbOutputClipped ) return false; if( mbInitLineColor ) InitLineColor(); if( mbInitFillColor ) InitFillColor(); // get the polygon in device coordinates basegfx::B2DPolyPolygon aB2DPolyPolygon(rPolyPoly.getB2DPolyPolygon()); const basegfx::B2DHomMatrix aTransform(ImplGetDeviceTransformation()); const double fTransparency = 0.01 * nTransparencePercent; if( mbFillColor ) { // #i121591# // CAUTION: Only non printing (pixel-renderer) VCL commands from OutputDevices // should be used when printing. Normally this is avoided by the printer being // non-AAed and thus e.g. on WIN GdiPlus calls are not used. It may be necessary // to figure out a way of moving this code to its own function that is // overridden by the Print class, which will mean we deliberately override the // functionality and we use the fallback some lines below (which is not very good, // though. For now, WinSalGraphics::drawPolyPolygon will detect printer usage and // correct the wrong mapping (see there for details) bDrawn = mpGraphics->DrawPolyPolygon( aTransform, aB2DPolyPolygon, fTransparency, this); } if( mbLineColor ) { // disable the fill color for now mpGraphics->SetFillColor(); // draw the border line const bool bPixelSnapHairline(mnAntialiasing & AntialiasingFlags::PixelSnapHairline); for(auto const& rPolygon : aB2DPolyPolygon) { bDrawn = mpGraphics->DrawPolyLine( aTransform, rPolygon, fTransparency, 0.0, // tdf#124848 hairline nullptr, // MM01 basegfx::B2DLineJoin::NONE, css::drawing::LineCap_BUTT, basegfx::deg2rad(15.0), // not used with B2DLineJoin::NONE, but the correct default bPixelSnapHairline, this ); } // prepare to restore the fill color mbInitFillColor = mbFillColor; } } return bDrawn; } void OutputDevice::EmulateDrawTransparent ( const tools::PolyPolygon& rPolyPoly, sal_uInt16 nTransparencePercent ) { // #110958# Disable alpha VDev, we perform the necessary VirtualDevice* pOldAlphaVDev = mpAlphaVDev; // operation explicitly further below. if( mpAlphaVDev ) mpAlphaVDev = nullptr; GDIMetaFile* pOldMetaFile = mpMetaFile; mpMetaFile = nullptr; tools::PolyPolygon aPolyPoly( LogicToPixel( rPolyPoly ) ); tools::Rectangle aPolyRect( aPolyPoly.GetBoundRect() ); tools::Rectangle aDstRect( Point(), GetOutputSizePixel() ); aDstRect.Intersection( aPolyRect ); ClipToPaintRegion( aDstRect ); if( !aDstRect.IsEmpty() ) { bool bDrawn = false; // debug helper: static const char* pDisableNative = getenv( "SAL_DISABLE_NATIVE_ALPHA" ); // #i66849# Added fast path for exactly rectangular // polygons // #i83087# Naturally, system alpha blending cannot // work with separate alpha VDev if( !mpAlphaVDev && !pDisableNative && aPolyPoly.IsRect() ) { // setup Graphics only here (other cases delegate // to basic OutDev methods) if ( mbInitClipRegion ) InitClipRegion(); if ( mbInitLineColor ) InitLineColor(); if ( mbInitFillColor ) InitFillColor(); tools::Rectangle aLogicPolyRect( rPolyPoly.GetBoundRect() ); tools::Rectangle aPixelRect( ImplLogicToDevicePixel( aLogicPolyRect ) ); if( !mbOutputClipped ) { bDrawn = mpGraphics->DrawAlphaRect( aPixelRect.Left(), aPixelRect.Top(), // #i98405# use methods with small g, else one pixel too much will be painted. // This is because the source is a polygon which when painted would not paint // the rightmost and lowest pixel line(s), so use one pixel less for the // rectangle, too. aPixelRect.getWidth(), aPixelRect.getHeight(), sal::static_int_cast(nTransparencePercent), this ); } else { bDrawn = true; } } if( !bDrawn ) { ScopedVclPtrInstance< VirtualDevice > aVDev(*this, DeviceFormat::BITMASK); const Size aDstSz( aDstRect.GetSize() ); const sal_uInt8 cTrans = static_cast(MinMax( FRound( nTransparencePercent * 2.55 ), 0, 255 )); if( aDstRect.Left() || aDstRect.Top() ) aPolyPoly.Move( -aDstRect.Left(), -aDstRect.Top() ); if( aVDev->SetOutputSizePixel( aDstSz ) ) { const bool bOldMap = mbMap; EnableMapMode( false ); aVDev->SetLineColor( COL_BLACK ); aVDev->SetFillColor( COL_BLACK ); aVDev->DrawPolyPolygon( aPolyPoly ); Bitmap aPaint( GetBitmap( aDstRect.TopLeft(), aDstSz ) ); Bitmap aPolyMask( aVDev->GetBitmap( Point(), aDstSz ) ); // #107766# check for non-empty bitmaps before accessing them if( !!aPaint && !!aPolyMask ) { BitmapScopedWriteAccess pW(aPaint); Bitmap::ScopedReadAccess pR(aPolyMask); if( pW && pR ) { BitmapColor aPixCol; const BitmapColor aFillCol( GetFillColor() ); const BitmapColor aBlack( pR->GetBestMatchingColor( COL_BLACK ) ); const long nWidth = pW->Width(); const long nHeight = pW->Height(); const long nR = aFillCol.GetRed(); const long nG = aFillCol.GetGreen(); const long nB = aFillCol.GetBlue(); long nX, nY; if( aPaint.GetBitCount() <= 8 ) { const BitmapPalette& rPal = pW->GetPalette(); const sal_uInt16 nCount = rPal.GetEntryCount(); BitmapColor* pMap = reinterpret_cast(new sal_uInt8[ nCount * sizeof( BitmapColor ) ]); for( sal_uInt16 i = 0; i < nCount; i++ ) { BitmapColor aCol( rPal[ i ] ); aCol.Merge( aFillCol, cTrans ); pMap[ i ] = BitmapColor( static_cast(rPal.GetBestIndex( aCol )) ); } if( pR->GetScanlineFormat() == ScanlineFormat::N1BitMsbPal && pW->GetScanlineFormat() == ScanlineFormat::N8BitPal ) { const sal_uInt8 cBlack = aBlack.GetIndex(); for( nY = 0; nY < nHeight; nY++ ) { Scanline pWScan = pW->GetScanline( nY ); Scanline pRScan = pR->GetScanline( nY ); sal_uInt8 cBit = 128; for( nX = 0; nX < nWidth; nX++, cBit >>= 1, pWScan++ ) { if( !cBit ) { cBit = 128; pRScan += 1; } if( ( *pRScan & cBit ) == cBlack ) { *pWScan = pMap[ *pWScan ].GetIndex(); } } } } else { for( nY = 0; nY < nHeight; nY++ ) { Scanline pScanline = pW->GetScanline(nY); Scanline pScanlineRead = pR->GetScanline(nY); for( nX = 0; nX < nWidth; nX++ ) { if( pR->GetPixelFromData( pScanlineRead, nX ) == aBlack ) { pW->SetPixelOnData( pScanline, nX, pMap[ pW->GetIndexFromData( pScanline, nX ) ] ); } } } } delete[] reinterpret_cast(pMap); } else { if( pR->GetScanlineFormat() == ScanlineFormat::N1BitMsbPal && pW->GetScanlineFormat() == ScanlineFormat::N24BitTcBgr ) { const sal_uInt8 cBlack = aBlack.GetIndex(); for( nY = 0; nY < nHeight; nY++ ) { Scanline pWScan = pW->GetScanline( nY ); Scanline pRScan = pR->GetScanline( nY ); sal_uInt8 cBit = 128; for( nX = 0; nX < nWidth; nX++, cBit >>= 1, pWScan += 3 ) { if( !cBit ) { cBit = 128; pRScan += 1; } if( ( *pRScan & cBit ) == cBlack ) { pWScan[ 0 ] = ColorChannelMerge( pWScan[ 0 ], nB, cTrans ); pWScan[ 1 ] = ColorChannelMerge( pWScan[ 1 ], nG, cTrans ); pWScan[ 2 ] = ColorChannelMerge( pWScan[ 2 ], nR, cTrans ); } } } } else { for( nY = 0; nY < nHeight; nY++ ) { Scanline pScanline = pW->GetScanline(nY); Scanline pScanlineRead = pR->GetScanline(nY); for( nX = 0; nX < nWidth; nX++ ) { if( pR->GetPixelFromData( pScanlineRead, nX ) == aBlack ) { aPixCol = pW->GetColor( nY, nX ); aPixCol.Merge(aFillCol, cTrans); pW->SetPixelOnData(pScanline, nX, aPixCol); } } } } } } pR.reset(); pW.reset(); DrawBitmap( aDstRect.TopLeft(), aPaint ); EnableMapMode( bOldMap ); if( mbLineColor ) { Push( PushFlags::FILLCOLOR ); SetFillColor(); DrawPolyPolygon( rPolyPoly ); Pop(); } } } else { DrawPolyPolygon( rPolyPoly ); } } } mpMetaFile = pOldMetaFile; // #110958# Restore disabled alpha VDev mpAlphaVDev = pOldAlphaVDev; } void OutputDevice::DrawTransparent( const tools::PolyPolygon& rPolyPoly, sal_uInt16 nTransparencePercent ) { assert(!is_double_buffered_window()); // short circuit for drawing an opaque polygon if( (nTransparencePercent < 1) || (mnDrawMode & DrawModeFlags::NoTransparency) ) { DrawPolyPolygon( rPolyPoly ); return; } // short circuit for drawing an invisible polygon if( !mbFillColor || (nTransparencePercent >= 100) ) { DrawInvisiblePolygon( rPolyPoly ); return; // tdf#84294: do not record it in metafile } // handle metafile recording if( mpMetaFile ) mpMetaFile->AddAction( new MetaTransparentAction( rPolyPoly, nTransparencePercent ) ); bool bDrawn = !IsDeviceOutputNecessary() || ImplIsRecordLayout(); if( bDrawn ) return; // get the device graphics as drawing target if( !mpGraphics && !AcquireGraphics() ) return; // try hard to draw it directly, because the emulation layers are slower bDrawn = DrawTransparentNatively( rPolyPoly, nTransparencePercent ); if (!bDrawn) EmulateDrawTransparent( rPolyPoly, nTransparencePercent ); // #110958# Apply alpha value also to VDev alpha channel if( mpAlphaVDev ) { const Color aFillCol( mpAlphaVDev->GetFillColor() ); mpAlphaVDev->SetFillColor( Color(sal::static_int_cast(255*nTransparencePercent/100), sal::static_int_cast(255*nTransparencePercent/100), sal::static_int_cast(255*nTransparencePercent/100)) ); mpAlphaVDev->DrawTransparent( rPolyPoly, nTransparencePercent ); mpAlphaVDev->SetFillColor( aFillCol ); } } void OutputDevice::DrawTransparent( const GDIMetaFile& rMtf, const Point& rPos, const Size& rSize, const Gradient& rTransparenceGradient ) { assert(!is_double_buffered_window()); const Color aBlack( COL_BLACK ); if( mpMetaFile ) { // missing here is to map the data using the DeviceTransformation mpMetaFile->AddAction( new MetaFloatTransparentAction( rMtf, rPos, rSize, rTransparenceGradient ) ); } if ( !IsDeviceOutputNecessary() ) return; if( ( rTransparenceGradient.GetStartColor() == aBlack && rTransparenceGradient.GetEndColor() == aBlack ) || ( mnDrawMode & DrawModeFlags::NoTransparency ) ) { const_cast(rMtf).WindStart(); const_cast(rMtf).Play( this, rPos, rSize ); const_cast(rMtf).WindStart(); } else { GDIMetaFile* pOldMetaFile = mpMetaFile; tools::Rectangle aOutRect( LogicToPixel( rPos ), LogicToPixel( rSize ) ); Point aPoint; tools::Rectangle aDstRect( aPoint, GetOutputSizePixel() ); mpMetaFile = nullptr; aDstRect.Intersection( aOutRect ); ClipToPaintRegion( aDstRect ); if( !aDstRect.IsEmpty() ) { ScopedVclPtrInstance< VirtualDevice > xVDev; xVDev->mnDPIX = mnDPIX; xVDev->mnDPIY = mnDPIY; if( xVDev->SetOutputSizePixel( aDstRect.GetSize() ) ) { if(GetAntialiasing() != AntialiasingFlags::NONE) { // #i102109# // For MetaFile replay (see task) it may now be necessary to take // into account that the content is AntiAlialiased and needs to be masked // like that. Instead of masking, i will use a copy-modify-paste cycle // here (as i already use in the VclPrimiziveRenderer with success) xVDev->SetAntialiasing(GetAntialiasing()); // create MapMode for buffer (offset needed) and set MapMode aMap(GetMapMode()); const Point aOutPos(PixelToLogic(aDstRect.TopLeft())); aMap.SetOrigin(Point(-aOutPos.X(), -aOutPos.Y())); xVDev->SetMapMode(aMap); // copy MapMode state and disable for target const bool bOrigMapModeEnabled(IsMapModeEnabled()); EnableMapMode(false); // copy MapMode state and disable for buffer const bool bBufferMapModeEnabled(xVDev->IsMapModeEnabled()); xVDev->EnableMapMode(false); // copy content from original to buffer xVDev->DrawOutDev( aPoint, xVDev->GetOutputSizePixel(), // dest aDstRect.TopLeft(), xVDev->GetOutputSizePixel(), // source *this); // draw MetaFile to buffer xVDev->EnableMapMode(bBufferMapModeEnabled); const_cast(rMtf).WindStart(); const_cast(rMtf).Play(xVDev.get(), rPos, rSize); const_cast(rMtf).WindStart(); // get content bitmap from buffer xVDev->EnableMapMode(false); const Bitmap aPaint(xVDev->GetBitmap(aPoint, xVDev->GetOutputSizePixel())); // create alpha mask from gradient and get as Bitmap xVDev->EnableMapMode(bBufferMapModeEnabled); xVDev->SetDrawMode(DrawModeFlags::GrayGradient); xVDev->DrawGradient(tools::Rectangle(rPos, rSize), rTransparenceGradient); xVDev->SetDrawMode(DrawModeFlags::Default); xVDev->EnableMapMode(false); const AlphaMask aAlpha(xVDev->GetBitmap(aPoint, xVDev->GetOutputSizePixel())); xVDev.disposeAndClear(); // draw masked content to target and restore MapMode DrawBitmapEx(aDstRect.TopLeft(), BitmapEx(aPaint, aAlpha)); EnableMapMode(bOrigMapModeEnabled); } else { Bitmap aPaint, aMask; AlphaMask aAlpha; MapMode aMap( GetMapMode() ); Point aOutPos( PixelToLogic( aDstRect.TopLeft() ) ); const bool bOldMap = mbMap; aMap.SetOrigin( Point( -aOutPos.X(), -aOutPos.Y() ) ); xVDev->SetMapMode( aMap ); const bool bVDevOldMap = xVDev->IsMapModeEnabled(); // create paint bitmap const_cast(rMtf).WindStart(); const_cast(rMtf).Play( xVDev.get(), rPos, rSize ); const_cast(rMtf).WindStart(); xVDev->EnableMapMode( false ); aPaint = xVDev->GetBitmap( Point(), xVDev->GetOutputSizePixel() ); xVDev->EnableMapMode( bVDevOldMap ); // #i35331#: MUST NOT use EnableMapMode( sal_True ) here! // create mask bitmap xVDev->SetLineColor( COL_BLACK ); xVDev->SetFillColor( COL_BLACK ); xVDev->DrawRect( tools::Rectangle( xVDev->PixelToLogic( Point() ), xVDev->GetOutputSize() ) ); xVDev->SetDrawMode( DrawModeFlags::WhiteLine | DrawModeFlags::WhiteFill | DrawModeFlags::WhiteText | DrawModeFlags::WhiteBitmap | DrawModeFlags::WhiteGradient ); const_cast(rMtf).WindStart(); const_cast(rMtf).Play( xVDev.get(), rPos, rSize ); const_cast(rMtf).WindStart(); xVDev->EnableMapMode( false ); aMask = xVDev->GetBitmap( Point(), xVDev->GetOutputSizePixel() ); xVDev->EnableMapMode( bVDevOldMap ); // #i35331#: MUST NOT use EnableMapMode( sal_True ) here! // create alpha mask from gradient xVDev->SetDrawMode( DrawModeFlags::GrayGradient ); xVDev->DrawGradient( tools::Rectangle( rPos, rSize ), rTransparenceGradient ); xVDev->SetDrawMode( DrawModeFlags::Default ); xVDev->EnableMapMode( false ); xVDev->DrawMask( Point(), xVDev->GetOutputSizePixel(), aMask, COL_WHITE ); aAlpha = xVDev->GetBitmap( Point(), xVDev->GetOutputSizePixel() ); xVDev.disposeAndClear(); EnableMapMode( false ); DrawBitmapEx( aDstRect.TopLeft(), BitmapEx( aPaint, aAlpha ) ); EnableMapMode( bOldMap ); } } } mpMetaFile = pOldMetaFile; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */