/* -*- 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 int nImplSysDialog = 0; namespace { Paper ImplGetPaperFormat( long nWidth100thMM, long nHeight100thMM ) { PaperInfo aInfo(nWidth100thMM, nHeight100thMM); aInfo.doSloppyFit(); return aInfo.getPaper(); } const PaperInfo& ImplGetEmptyPaper() { static PaperInfo aInfo(PAPER_USER); return aInfo; } } void ImplUpdateJobSetupPaper( JobSetup& rJobSetup ) { const ImplJobSetup& rConstData = rJobSetup.ImplGetConstData(); if ( !rConstData.GetPaperWidth() || !rConstData.GetPaperHeight() ) { if ( rConstData.GetPaperFormat() != PAPER_USER ) { PaperInfo aInfo(rConstData.GetPaperFormat()); ImplJobSetup& rData = rJobSetup.ImplGetData(); rData.SetPaperWidth( aInfo.getWidth() ); rData.SetPaperHeight( aInfo.getHeight() ); } } else if ( rConstData.GetPaperFormat() == PAPER_USER ) { Paper ePaper = ImplGetPaperFormat( rConstData.GetPaperWidth(), rConstData.GetPaperHeight() ); if ( ePaper != PAPER_USER ) rJobSetup.ImplGetData().SetPaperFormat(ePaper); } } // PrinterOptions PrinterOptions::PrinterOptions() : mbReduceTransparency( false ), meReducedTransparencyMode( PrinterTransparencyMode::Auto ), mbReduceGradients( false ), meReducedGradientsMode( PrinterGradientMode::Stripes ), mnReducedGradientStepCount( 64 ), mbReduceBitmaps( false ), meReducedBitmapMode( PrinterBitmapMode::Normal ), mnReducedBitmapResolution( 200 ), mbReducedBitmapsIncludeTransparency( true ), mbConvertToGreyscales( false ), mbPDFAsStandardPrintJobFormat( false ) { } void PrinterOptions::ReadFromConfig( bool i_bFile ) { bool bSuccess = false; // save old state in case something goes wrong PrinterOptions aOldValues( *this ); // get the configuration service css::uno::Reference< css::lang::XMultiServiceFactory > xConfigProvider; css::uno::Reference< css::container::XNameAccess > xConfigAccess; try { // get service provider css::uno::Reference< css::uno::XComponentContext > xContext( comphelper::getProcessComponentContext() ); // create configuration hierarchical access name try { xConfigProvider = css::configuration::theDefaultProvider::get( xContext ); css::uno::Sequence< css::uno::Any > aArgs(1); css::beans::PropertyValue aVal; aVal.Name = "nodepath"; if( i_bFile ) aVal.Value <<= OUString( "/org.openoffice.Office.Common/Print/Option/File" ); else aVal.Value <<= OUString( "/org.openoffice.Office.Common/Print/Option/Printer" ); aArgs.getArray()[0] <<= aVal; xConfigAccess.set( xConfigProvider->createInstanceWithArguments( "com.sun.star.configuration.ConfigurationAccess", aArgs ), css::uno::UNO_QUERY ); if( xConfigAccess.is() ) { css::uno::Reference< css::beans::XPropertySet > xSet( xConfigAccess, css::uno::UNO_QUERY ); if( xSet.is() ) { sal_Int32 nValue = 0; bool bValue = false; if( xSet->getPropertyValue("ReduceTransparency") >>= bValue ) SetReduceTransparency( bValue ); if( xSet->getPropertyValue("ReducedTransparencyMode") >>= nValue ) SetReducedTransparencyMode( static_cast(nValue) ); if( xSet->getPropertyValue("ReduceGradients") >>= bValue ) SetReduceGradients( bValue ); if( xSet->getPropertyValue("ReducedGradientMode") >>= nValue ) SetReducedGradientMode( static_cast(nValue) ); if( xSet->getPropertyValue("ReducedGradientStepCount") >>= nValue ) SetReducedGradientStepCount( static_cast(nValue) ); if( xSet->getPropertyValue("ReduceBitmaps") >>= bValue ) SetReduceBitmaps( bValue ); if( xSet->getPropertyValue("ReducedBitmapMode") >>= nValue ) SetReducedBitmapMode( static_cast(nValue) ); if( xSet->getPropertyValue("ReducedBitmapResolution") >>= nValue ) SetReducedBitmapResolution( static_cast(nValue) ); if( xSet->getPropertyValue("ReducedBitmapIncludesTransparency") >>= bValue ) SetReducedBitmapIncludesTransparency( bValue ); if( xSet->getPropertyValue("ConvertToGreyscales") >>= bValue ) SetConvertToGreyscales( bValue ); if( xSet->getPropertyValue("PDFAsStandardPrintJobFormat") >>= bValue ) SetPDFAsStandardPrintJobFormat( bValue ); bSuccess = true; } } } catch( const css::uno::Exception& ) { } } catch( const css::lang::WrappedTargetException& ) { } if( ! bSuccess ) *this = aOldValues; } bool Printer::DrawTransformBitmapExDirect( const basegfx::B2DHomMatrix& /*aFullTransform*/, const BitmapEx& /*rBitmapEx*/) { // printers can't draw bitmaps directly return false; } bool Printer::TransformAndReduceBitmapExToTargetRange( const basegfx::B2DHomMatrix& /*aFullTransform*/, basegfx::B2DRange& /*aVisibleRange*/, double& /*fMaximumArea*/) { // deliberately do nothing - you can't reduce the // target range for a printer at all return true; } void Printer::DrawDeviceBitmap( const Point& rDestPt, const Size& rDestSize, const Point& rSrcPtPixel, const Size& rSrcSizePixel, BitmapEx& rBmpEx ) { if( rBmpEx.IsAlpha() ) { // #107169# For true alpha bitmaps, no longer masking the // bitmap, but perform a full alpha blend against a white // background here. Bitmap aBmp( rBmpEx.GetBitmap() ); aBmp.Blend( rBmpEx.GetAlpha(), COL_WHITE ); DrawBitmap( rDestPt, rDestSize, rSrcPtPixel, rSrcSizePixel, aBmp ); } else { Bitmap aBmp( rBmpEx.GetBitmap() ), aMask( rBmpEx.GetMask() ); aBmp.Replace( aMask, COL_WHITE ); ImplPrintTransparent( aBmp, aMask, rDestPt, rDestSize, rSrcPtPixel, rSrcSizePixel ); } } void Printer::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; mpMetaFile = pOldMetaFile; // #110958# Restore disabled alpha VDev mpAlphaVDev = pOldAlphaVDev; tools::Rectangle aPolyRect( LogicToPixel( rPolyPoly ).GetBoundRect() ); const Size aDPISize( LogicToPixel(Size(1, 1), MapMode(MapUnit::MapInch)) ); const long nBaseExtent = std::max( FRound( aDPISize.Width() / 300. ), 1L ); long nMove; const sal_uInt16 nTrans = ( nTransparencePercent < 13 ) ? 0 : ( nTransparencePercent < 38 ) ? 25 : ( nTransparencePercent < 63 ) ? 50 : ( nTransparencePercent < 88 ) ? 75 : 100; switch( nTrans ) { case 25: nMove = nBaseExtent * 3; break; case 50: nMove = nBaseExtent * 4; break; case 75: nMove = nBaseExtent * 6; break; // #i112959# very transparent (88 < nTransparencePercent <= 99) case 100: nMove = nBaseExtent * 8; break; // #i112959# not transparent (nTransparencePercent < 13) default: nMove = 0; break; } Push( PushFlags::CLIPREGION | PushFlags::LINECOLOR ); IntersectClipRegion(vcl::Region(rPolyPoly)); SetLineColor( GetFillColor() ); const bool bOldMap = mbMap; EnableMapMode( false ); if(nMove) { tools::Rectangle aRect( aPolyRect.TopLeft(), Size( aPolyRect.GetWidth(), nBaseExtent ) ); while( aRect.Top() <= aPolyRect.Bottom() ) { DrawRect( aRect ); aRect.Move( 0, nMove ); } aRect = tools::Rectangle( aPolyRect.TopLeft(), Size( nBaseExtent, aPolyRect.GetHeight() ) ); while( aRect.Left() <= aPolyRect.Right() ) { DrawRect( aRect ); aRect.Move( nMove, 0 ); } } else { // #i112959# if not transparent, draw full rectangle in clip region DrawRect( aPolyRect ); } EnableMapMode( bOldMap ); Pop(); mpMetaFile = pOldMetaFile; // #110958# Restore disabled alpha VDev mpAlphaVDev = pOldAlphaVDev; } void Printer::DrawOutDev( const Point& /*rDestPt*/, const Size& /*rDestSize*/, const Point& /*rSrcPt*/, const Size& /*rSrcSize*/ ) { SAL_WARN( "vcl.gdi", "Don't use OutputDevice::DrawOutDev(...) with printer devices!" ); } void Printer::DrawOutDev( const Point& /*rDestPt*/, const Size& /*rDestSize*/, const Point& /*rSrcPt*/, const Size& /*rSrcSize*/, const OutputDevice& /*rOutDev*/ ) { SAL_WARN( "vcl.gdi", "Don't use OutputDevice::DrawOutDev(...) with printer devices!" ); } void Printer::CopyArea( const Point& /*rDestPt*/, const Point& /*rSrcPt*/, const Size& /*rSrcSize*/, bool /*bWindowInvalidate*/ ) { SAL_WARN( "vcl.gdi", "Don't use OutputDevice::CopyArea(...) with printer devices!" ); } void Printer::SetPrinterOptions( const PrinterOptions& i_rOptions ) { *mpPrinterOptions = i_rOptions; } bool Printer::HasMirroredGraphics() const { // due to a "hotfix" for AOO bug i55719, this needs to return false return false; } // QueueInfo QueueInfo::QueueInfo() { mnStatus = PrintQueueFlags::NONE; mnJobs = 0; } SalPrinterQueueInfo::SalPrinterQueueInfo() { mnStatus = PrintQueueFlags::NONE; mnJobs = QUEUE_JOBS_DONTKNOW; } SalPrinterQueueInfo::~SalPrinterQueueInfo() { } ImplPrnQueueList::~ImplPrnQueueList() { } void ImplPrnQueueList::Add( std::unique_ptr pData ) { std::unordered_map< OUString, sal_Int32 >::iterator it = m_aNameToIndex.find( pData->maPrinterName ); if( it == m_aNameToIndex.end() ) { m_aNameToIndex[ pData->maPrinterName ] = m_aQueueInfos.size(); m_aPrinterList.push_back( pData->maPrinterName ); m_aQueueInfos.push_back( ImplPrnQueueData() ); m_aQueueInfos.back().mpQueueInfo = nullptr; m_aQueueInfos.back().mpSalQueueInfo = std::move(pData); } else // this should not happen, but ... { ImplPrnQueueData& rData = m_aQueueInfos[ it->second ]; rData.mpQueueInfo.reset(); rData.mpSalQueueInfo = std::move(pData); } } ImplPrnQueueData* ImplPrnQueueList::Get( const OUString& rPrinter ) { ImplPrnQueueData* pData = nullptr; std::unordered_map::iterator it = m_aNameToIndex.find( rPrinter ); if( it != m_aNameToIndex.end() ) pData = &m_aQueueInfos[it->second]; return pData; } static void ImplInitPrnQueueList() { ImplSVData* pSVData = ImplGetSVData(); pSVData->maGDIData.mpPrinterQueueList.reset(new ImplPrnQueueList); static const char* pEnv = getenv( "SAL_DISABLE_PRINTERLIST" ); if( !pEnv || !*pEnv ) pSVData->mpDefInst->GetPrinterQueueInfo( pSVData->maGDIData.mpPrinterQueueList.get() ); } void ImplDeletePrnQueueList() { ImplSVData* pSVData = ImplGetSVData(); pSVData->maGDIData.mpPrinterQueueList.reset(); } const std::vector& Printer::GetPrinterQueues() { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maGDIData.mpPrinterQueueList ) ImplInitPrnQueueList(); return pSVData->maGDIData.mpPrinterQueueList->m_aPrinterList; } const QueueInfo* Printer::GetQueueInfo( const OUString& rPrinterName, bool bStatusUpdate ) { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maGDIData.mpPrinterQueueList ) ImplInitPrnQueueList(); if ( !pSVData->maGDIData.mpPrinterQueueList ) return nullptr; ImplPrnQueueData* pInfo = pSVData->maGDIData.mpPrinterQueueList->Get( rPrinterName ); if( pInfo ) { if( !pInfo->mpQueueInfo || bStatusUpdate ) pSVData->mpDefInst->GetPrinterQueueState( pInfo->mpSalQueueInfo.get() ); if ( !pInfo->mpQueueInfo ) pInfo->mpQueueInfo.reset(new QueueInfo); pInfo->mpQueueInfo->maPrinterName = pInfo->mpSalQueueInfo->maPrinterName; pInfo->mpQueueInfo->maDriver = pInfo->mpSalQueueInfo->maDriver; pInfo->mpQueueInfo->maLocation = pInfo->mpSalQueueInfo->maLocation; pInfo->mpQueueInfo->maComment = pInfo->mpSalQueueInfo->maComment; pInfo->mpQueueInfo->mnStatus = pInfo->mpSalQueueInfo->mnStatus; pInfo->mpQueueInfo->mnJobs = pInfo->mpSalQueueInfo->mnJobs; return pInfo->mpQueueInfo.get(); } return nullptr; } OUString Printer::GetDefaultPrinterName() { static const char* pEnv = getenv( "SAL_DISABLE_DEFAULTPRINTER" ); if( !pEnv || !*pEnv ) { ImplSVData* pSVData = ImplGetSVData(); return pSVData->mpDefInst->GetDefaultPrinter(); } return OUString(); } void Printer::ImplInitData() { mbDevOutput = false; mbDefPrinter = false; mnError = ERRCODE_NONE; mnPageQueueSize = 0; mnCopyCount = 1; mbCollateCopy = false; mbPrinting = false; mbJobActive = false; mbPrintFile = false; mbInPrintPage = false; mbNewJobSetup = false; mpInfoPrinter = nullptr; mpPrinter = nullptr; mpDisplayDev = nullptr; mpPrinterOptions.reset(new PrinterOptions); // Add printer to the list ImplSVData* pSVData = ImplGetSVData(); mpNext = pSVData->maGDIData.mpFirstPrinter; mpPrev = nullptr; if ( mpNext ) mpNext->mpPrev = this; pSVData->maGDIData.mpFirstPrinter = this; } bool Printer::AcquireGraphics() const { DBG_TESTSOLARMUTEX(); if ( mpGraphics ) return true; mbInitLineColor = true; mbInitFillColor = true; mbInitFont = true; mbInitTextColor = true; mbInitClipRegion = true; ImplSVData* pSVData = ImplGetSVData(); if ( mpJobGraphics ) mpGraphics = mpJobGraphics; else if ( mpDisplayDev ) { const VirtualDevice* pVirDev = mpDisplayDev; mpGraphics = pVirDev->mpVirDev->AcquireGraphics(); // if needed retry after releasing least recently used virtual device graphics while ( !mpGraphics ) { if ( !pSVData->maGDIData.mpLastVirGraphics ) break; pSVData->maGDIData.mpLastVirGraphics->ReleaseGraphics(); mpGraphics = pVirDev->mpVirDev->AcquireGraphics(); } // update global LRU list of virtual device graphics if ( mpGraphics ) { mpNextGraphics = pSVData->maGDIData.mpFirstVirGraphics; pSVData->maGDIData.mpFirstVirGraphics = const_cast(this); if ( mpNextGraphics ) mpNextGraphics->mpPrevGraphics = const_cast(this); if ( !pSVData->maGDIData.mpLastVirGraphics ) pSVData->maGDIData.mpLastVirGraphics = const_cast(this); } } else { mpGraphics = mpInfoPrinter->AcquireGraphics(); // if needed retry after releasing least recently used printer graphics while ( !mpGraphics ) { if ( !pSVData->maGDIData.mpLastPrnGraphics ) break; pSVData->maGDIData.mpLastPrnGraphics->ReleaseGraphics(); mpGraphics = mpInfoPrinter->AcquireGraphics(); } // update global LRU list of printer graphics if ( mpGraphics ) { mpNextGraphics = pSVData->maGDIData.mpFirstPrnGraphics; pSVData->maGDIData.mpFirstPrnGraphics = const_cast(this); if ( mpNextGraphics ) mpNextGraphics->mpPrevGraphics = const_cast(this); if ( !pSVData->maGDIData.mpLastPrnGraphics ) pSVData->maGDIData.mpLastPrnGraphics = const_cast(this); } } if ( mpGraphics ) { mpGraphics->SetXORMode( (RasterOp::Invert == meRasterOp) || (RasterOp::Xor == meRasterOp), RasterOp::Invert == meRasterOp ); mpGraphics->setAntiAliasB2DDraw(bool(mnAntialiasing & AntialiasingFlags::EnableB2dDraw)); } return mpGraphics != nullptr; } void Printer::ImplReleaseFonts() { #ifdef UNX // HACK to fix an urgent P1 printing issue fast // WinSalPrinter does not respect GetGraphics/ReleaseGraphics conventions // so Printer::mpGraphics often points to a dead WinSalGraphics // TODO: fix WinSalPrinter's GetGraphics/ReleaseGraphics handling mpGraphics->ReleaseFonts(); #endif mbNewFont = true; mbInitFont = true; mpFontInstance.clear(); mpDeviceFontList.reset(); mpDeviceFontSizeList.reset(); } void Printer::ReleaseGraphics( bool bRelease ) { DBG_TESTSOLARMUTEX(); if ( !mpGraphics ) return; // release the fonts of the physically released graphics device if( bRelease ) ImplReleaseFonts(); ImplSVData* pSVData = ImplGetSVData(); Printer* pPrinter = this; if ( !pPrinter->mpJobGraphics ) { if ( pPrinter->mpDisplayDev ) { VirtualDevice* pVirDev = pPrinter->mpDisplayDev; if ( bRelease ) pVirDev->mpVirDev->ReleaseGraphics( mpGraphics ); // remove from global LRU list of virtual device graphics if ( mpPrevGraphics ) mpPrevGraphics->mpNextGraphics = mpNextGraphics; else pSVData->maGDIData.mpFirstVirGraphics = mpNextGraphics; if ( mpNextGraphics ) mpNextGraphics->mpPrevGraphics = mpPrevGraphics; else pSVData->maGDIData.mpLastVirGraphics = mpPrevGraphics; } else { if ( bRelease ) pPrinter->mpInfoPrinter->ReleaseGraphics( mpGraphics ); // remove from global LRU list of printer graphics if ( mpPrevGraphics ) mpPrevGraphics->mpNextGraphics = mpNextGraphics; else pSVData->maGDIData.mpFirstPrnGraphics = mpNextGraphics; if ( mpNextGraphics ) mpNextGraphics->mpPrevGraphics = mpPrevGraphics; else pSVData->maGDIData.mpLastPrnGraphics = mpPrevGraphics; } } mpGraphics = nullptr; mpPrevGraphics = nullptr; mpNextGraphics = nullptr; } void Printer::ImplInit( SalPrinterQueueInfo* pInfo ) { ImplSVData* pSVData = ImplGetSVData(); // #i74084# update info for this specific SalPrinterQueueInfo pSVData->mpDefInst->GetPrinterQueueState( pInfo ); // Test whether the driver actually matches the JobSetup ImplJobSetup& rData = maJobSetup.ImplGetData(); if ( rData.GetDriverData() ) { if ( rData.GetPrinterName() != pInfo->maPrinterName || rData.GetDriver() != pInfo->maDriver ) { std::free( const_cast(rData.GetDriverData()) ); rData.SetDriverData(nullptr); rData.SetDriverDataLen(0); } } // Remember printer name maPrinterName = pInfo->maPrinterName; maDriver = pInfo->maDriver; // Add printer name to JobSetup rData.SetPrinterName( maPrinterName ); rData.SetDriver( maDriver ); mpInfoPrinter = pSVData->mpDefInst->CreateInfoPrinter( pInfo, &rData ); mpPrinter = nullptr; mpJobGraphics = nullptr; ImplUpdateJobSetupPaper( maJobSetup ); if ( !mpInfoPrinter ) { ImplInitDisplay(); return; } // we need a graphics if ( !AcquireGraphics() ) { ImplInitDisplay(); return; } // Init data ImplUpdatePageData(); mxFontCollection.reset(new PhysicalFontCollection); mxFontCache.reset(new ImplFontCache); mpGraphics->GetDevFontList(mxFontCollection.get()); } void Printer::ImplInitDisplay() { ImplSVData* pSVData = ImplGetSVData(); mpInfoPrinter = nullptr; mpPrinter = nullptr; mpJobGraphics = nullptr; mpDisplayDev = VclPtr::Create(); mxFontCollection = pSVData->maGDIData.mxScreenFontList; mxFontCache = pSVData->maGDIData.mxScreenFontCache; mnDPIX = mpDisplayDev->mnDPIX; mnDPIY = mpDisplayDev->mnDPIY; } void Printer::DrawDeviceMask( const Bitmap& rMask, const Color& rMaskColor, 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( !(!rMask.IsEmpty() && aSrcRect.GetWidth() && aSrcRect.GetHeight() && aDestSz.Width() && aDestSz.Height()) ) return; Bitmap 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(), aMask.GetSizePixel() ) ) aMask.Crop( aSrcRect ); // destination mirrored if( nMirrFlags != BmpMirrorFlags::NONE) aMask.Mirror( nMirrFlags ); // 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 ] ); GDIMetaFile* pOldMetaFile = mpMetaFile; const bool bOldMap = mbMap; mpMetaFile = nullptr; mbMap = false; Push( PushFlags::FILLCOLOR | PushFlags::LINECOLOR ); SetLineColor( rMaskColor ); SetFillColor( rMaskColor ); InitLineColor(); InitFillColor(); // 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 DrawRect(tools::Rectangle(aMapPt, aMapSz)); } Pop(); mbMap = bOldMap; mpMetaFile = pOldMetaFile; } SalPrinterQueueInfo* Printer::ImplGetQueueInfo( const OUString& rPrinterName, const OUString* pDriver ) { ImplSVData* pSVData = ImplGetSVData(); if ( !pSVData->maGDIData.mpPrinterQueueList ) ImplInitPrnQueueList(); ImplPrnQueueList* pPrnList = pSVData->maGDIData.mpPrinterQueueList.get(); if ( pPrnList && !pPrnList->m_aQueueInfos.empty() ) { // first search for the printer name directly ImplPrnQueueData* pInfo = pPrnList->Get( rPrinterName ); if( pInfo ) return pInfo->mpSalQueueInfo.get(); // then search case insensitive for(const ImplPrnQueueData & rQueueInfo : pPrnList->m_aQueueInfos) { if( rQueueInfo.mpSalQueueInfo->maPrinterName.equalsIgnoreAsciiCase( rPrinterName ) ) return rQueueInfo.mpSalQueueInfo.get(); } // then search for driver name if ( pDriver ) { for(const ImplPrnQueueData & rQueueInfo : pPrnList->m_aQueueInfos) { if( rQueueInfo.mpSalQueueInfo->maDriver == *pDriver ) return rQueueInfo.mpSalQueueInfo.get(); } } // then the default printer pInfo = pPrnList->Get( GetDefaultPrinterName() ); if( pInfo ) return pInfo->mpSalQueueInfo.get(); // last chance: the first available printer return pPrnList->m_aQueueInfos[0].mpSalQueueInfo.get(); } return nullptr; } void Printer::ImplUpdatePageData() { // we need a graphics if ( !AcquireGraphics() ) return; mpGraphics->GetResolution( mnDPIX, mnDPIY ); mpInfoPrinter->GetPageInfo( &maJobSetup.ImplGetConstData(), mnOutWidth, mnOutHeight, maPageOffset, maPaperSize ); } void Printer::ImplUpdateFontList() { ImplUpdateFontData(); } long Printer::GetGradientStepCount( long nMinRect ) { // use display-equivalent step size calculation long nInc = (nMinRect < 800) ? 10 : 20; return nInc; } Printer::Printer() : OutputDevice(OUTDEV_PRINTER) { ImplInitData(); SalPrinterQueueInfo* pInfo = ImplGetQueueInfo( GetDefaultPrinterName(), nullptr ); if ( pInfo ) { ImplInit( pInfo ); if ( !IsDisplayPrinter() ) mbDefPrinter = true; } else ImplInitDisplay(); } Printer::Printer( const JobSetup& rJobSetup ) : OutputDevice(OUTDEV_PRINTER) , maJobSetup(rJobSetup) { ImplInitData(); const ImplJobSetup& rConstData = rJobSetup.ImplGetConstData(); OUString aDriver = rConstData.GetDriver(); SalPrinterQueueInfo* pInfo = ImplGetQueueInfo( rConstData.GetPrinterName(), &aDriver ); if ( pInfo ) { ImplInit( pInfo ); SetJobSetup( rJobSetup ); } else { ImplInitDisplay(); maJobSetup = JobSetup(); } } Printer::Printer( const QueueInfo& rQueueInfo ) : OutputDevice(OUTDEV_PRINTER) { ImplInitData(); SalPrinterQueueInfo* pInfo = ImplGetQueueInfo( rQueueInfo.GetPrinterName(), &rQueueInfo.GetDriver() ); if ( pInfo ) ImplInit( pInfo ); else ImplInitDisplay(); } Printer::Printer( const OUString& rPrinterName ) : OutputDevice(OUTDEV_PRINTER) { ImplInitData(); SalPrinterQueueInfo* pInfo = ImplGetQueueInfo( rPrinterName, nullptr ); if ( pInfo ) ImplInit( pInfo ); else ImplInitDisplay(); } Printer::~Printer() { disposeOnce(); } void Printer::dispose() { SAL_WARN_IF( IsPrinting(), "vcl.gdi", "Printer::~Printer() - Job is printing" ); SAL_WARN_IF( IsJobActive(), "vcl.gdi", "Printer::~Printer() - Job is active" ); mpPrinterOptions.reset(); ReleaseGraphics(); if ( mpInfoPrinter ) ImplGetSVData()->mpDefInst->DestroyInfoPrinter( mpInfoPrinter ); if ( mpDisplayDev ) mpDisplayDev.disposeAndClear(); else { // OutputDevice Dtor is trying the same thing; that why we need to set // the FontEntry to NULL here // TODO: consolidate duplicate cleanup by Printer and OutputDevice mpFontInstance.clear(); mpDeviceFontList.reset(); mpDeviceFontSizeList.reset(); mxFontCache.reset(); // font list deleted by OutputDevice dtor } // Add printer from the list ImplSVData* pSVData = ImplGetSVData(); if ( mpPrev ) mpPrev->mpNext = mpNext; else pSVData->maGDIData.mpFirstPrinter = mpNext; if ( mpNext ) mpNext->mpPrev = mpPrev; mpPrev.clear(); mpNext.clear(); OutputDevice::dispose(); } sal_uInt32 Printer::GetCapabilities( PrinterCapType nType ) const { if ( IsDisplayPrinter() ) return 0; if( mpInfoPrinter ) return mpInfoPrinter->GetCapabilities( &maJobSetup.ImplGetConstData(), nType ); else return 0; } bool Printer::HasSupport( PrinterSupport eFeature ) const { switch ( eFeature ) { case PrinterSupport::SetOrientation: return GetCapabilities( PrinterCapType::SetOrientation ) != 0; case PrinterSupport::SetPaperSize: return GetCapabilities( PrinterCapType::SetPaperSize ) != 0; case PrinterSupport::SetPaper: return GetCapabilities( PrinterCapType::SetPaper ) != 0; case PrinterSupport::CollateCopy: return (GetCapabilities( PrinterCapType::CollateCopies ) != 0); case PrinterSupport::SetupDialog: return GetCapabilities( PrinterCapType::SupportDialog ) != 0; } return true; } bool Printer::SetJobSetup( const JobSetup& rSetup ) { if ( IsDisplayPrinter() || mbInPrintPage ) return false; JobSetup aJobSetup = rSetup; ReleaseGraphics(); if ( mpInfoPrinter->SetPrinterData( &aJobSetup.ImplGetData() ) ) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); return true; } return false; } bool Printer::Setup(weld::Window* pWindow, PrinterSetupMode eMode) { if ( IsDisplayPrinter() ) return false; if ( IsJobActive() || IsPrinting() ) return false; JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetPrinterSetupMode( eMode ); // TODO: orig page size if (!pWindow) { vcl::Window* pDefWin = ImplGetDefaultWindow(); pWindow = pDefWin ? pDefWin->GetFrameWeld() : nullptr; } if( !pWindow ) return false; ReleaseGraphics(); ImplSVData* pSVData = ImplGetSVData(); pSVData->maAppData.mnModalMode++; nImplSysDialog++; bool bSetup = mpInfoPrinter->Setup(pWindow, &rData); pSVData->maAppData.mnModalMode--; nImplSysDialog--; if ( bSetup ) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); return true; } return false; } bool Printer::SetPrinterProps( const Printer* pPrinter ) { if ( IsJobActive() || IsPrinting() ) return false; ImplSVData* pSVData = ImplGetSVData(); mbDefPrinter = pPrinter->mbDefPrinter; maPrintFile = pPrinter->maPrintFile; mbPrintFile = pPrinter->mbPrintFile; mnCopyCount = pPrinter->mnCopyCount; mbCollateCopy = pPrinter->mbCollateCopy; mnPageQueueSize = pPrinter->mnPageQueueSize; *mpPrinterOptions = *pPrinter->mpPrinterOptions; if ( pPrinter->IsDisplayPrinter() ) { // Destroy old printer if ( !IsDisplayPrinter() ) { ReleaseGraphics(); pSVData->mpDefInst->DestroyInfoPrinter( mpInfoPrinter ); mpFontInstance.clear(); mpDeviceFontList.reset(); mpDeviceFontSizeList.reset(); // clean up font list mxFontCache.reset(); mxFontCollection.reset(); mbInitFont = true; mbNewFont = true; mpInfoPrinter = nullptr; } // Construct new printer ImplInitDisplay(); return true; } // Destroy old printer? if ( GetName() != pPrinter->GetName() ) { ReleaseGraphics(); if ( mpDisplayDev ) { mpDisplayDev.disposeAndClear(); } else { pSVData->mpDefInst->DestroyInfoPrinter( mpInfoPrinter ); mpFontInstance.clear(); mpDeviceFontList.reset(); mpDeviceFontSizeList.reset(); mxFontCache.reset(); mxFontCollection.reset(); mbInitFont = true; mbNewFont = true; mpInfoPrinter = nullptr; } // Construct new printer OUString aDriver = pPrinter->GetDriverName(); SalPrinterQueueInfo* pInfo = ImplGetQueueInfo( pPrinter->GetName(), &aDriver ); if ( pInfo ) { ImplInit( pInfo ); SetJobSetup( pPrinter->GetJobSetup() ); } else ImplInitDisplay(); } else SetJobSetup( pPrinter->GetJobSetup() ); return false; } bool Printer::SetOrientation( Orientation eOrientation ) { if ( mbInPrintPage ) return false; if ( maJobSetup.ImplGetConstData().GetOrientation() != eOrientation ) { JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetOrientation(eOrientation); if ( IsDisplayPrinter() ) { mbNewJobSetup = true; maJobSetup = aJobSetup; return true; } ReleaseGraphics(); if ( mpInfoPrinter->SetData( JobSetFlags::ORIENTATION, &rData ) ) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); return true; } else return false; } return true; } Orientation Printer::GetOrientation() const { return maJobSetup.ImplGetConstData().GetOrientation(); } bool Printer::SetPaperBin( sal_uInt16 nPaperBin ) { if ( mbInPrintPage ) return false; if ( maJobSetup.ImplGetConstData().GetPaperBin() != nPaperBin && nPaperBin < GetPaperBinCount() ) { JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetPaperBin(nPaperBin); if ( IsDisplayPrinter() ) { mbNewJobSetup = true; maJobSetup = aJobSetup; return true; } ReleaseGraphics(); if ( mpInfoPrinter->SetData( JobSetFlags::PAPERBIN, &rData ) ) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); return true; } else return false; } return true; } sal_uInt16 Printer::GetPaperBin() const { return maJobSetup.ImplGetConstData().GetPaperBin(); } bool Printer::GetPrinterSettingsPreferred() const { return maJobSetup.ImplGetConstData().GetPapersizeFromSetup(); } // dear loplugins, DO NOT REMOVE this code // it will be used in follow-up commits void Printer::SetPrinterSettingsPreferred( bool bPaperSizeFromSetup) { if ( maJobSetup.ImplGetConstData().GetPapersizeFromSetup() != bPaperSizeFromSetup ) { JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetPapersizeFromSetup(bPaperSizeFromSetup); mbNewJobSetup = true; maJobSetup = aJobSetup; } } // Map user paper format to an available printer paper format void Printer::ImplFindPaperFormatForUserSize( JobSetup& aJobSetup, bool bMatchNearest ) { ImplJobSetup& rData = aJobSetup.ImplGetData(); // The angle that a landscape page will be turned counterclockwise wrt to portrait. int nLandscapeAngle = mpInfoPrinter ? mpInfoPrinter->GetLandscapeAngle( &maJobSetup.ImplGetConstData() ) : 900; int nPaperCount = GetPaperInfoCount(); bool bFound = false; PaperInfo aInfo(rData.GetPaperWidth(), rData.GetPaperHeight()); // Compare all paper formats and get the appropriate one for ( int i = 0; i < nPaperCount; i++ ) { const PaperInfo& rPaperInfo = GetPaperInfo( i ); if ( aInfo.sloppyEqual(rPaperInfo) ) { rData.SetPaperFormat( ImplGetPaperFormat( rPaperInfo.getWidth(), rPaperInfo.getHeight() )); rData.SetOrientation( Orientation::Portrait ); bFound = true; break; } } // If the printer supports landscape orientation, check paper sizes again // with landscape orientation. This is necessary as a printer driver provides // all paper sizes with portrait orientation only!! if ( rData.GetPaperFormat() == PAPER_USER && nLandscapeAngle != 0 && HasSupport( PrinterSupport::SetOrientation )) { const long nRotatedWidth = rData.GetPaperHeight(); const long nRotatedHeight = rData.GetPaperWidth(); PaperInfo aRotatedInfo(nRotatedWidth, nRotatedHeight); for ( int i = 0; i < nPaperCount; i++ ) { const PaperInfo& rPaperInfo = GetPaperInfo( i ); if ( aRotatedInfo.sloppyEqual( rPaperInfo ) ) { rData.SetPaperFormat( ImplGetPaperFormat( rPaperInfo.getWidth(), rPaperInfo.getHeight() )); rData.SetOrientation( Orientation::Landscape ); bFound = true; break; } } } if( ! bFound && bMatchNearest ) { sal_Int64 nBestMatch = SAL_MAX_INT64; int nBestIndex = 0; Orientation eBestOrientation = Orientation::Portrait; for( int i = 0; i < nPaperCount; i++ ) { const PaperInfo& rPaperInfo = GetPaperInfo( i ); // check portrait match sal_Int64 nDX = rData.GetPaperWidth() - rPaperInfo.getWidth(); sal_Int64 nDY = rData.GetPaperHeight() - rPaperInfo.getHeight(); sal_Int64 nMatch = nDX*nDX + nDY*nDY; if( nMatch < nBestMatch ) { nBestMatch = nMatch; nBestIndex = i; eBestOrientation = Orientation::Portrait; } // check landscape match nDX = rData.GetPaperWidth() - rPaperInfo.getHeight(); nDY = rData.GetPaperHeight() - rPaperInfo.getWidth(); nMatch = nDX*nDX + nDY*nDY; if( nMatch < nBestMatch ) { nBestMatch = nMatch; nBestIndex = i; eBestOrientation = Orientation::Landscape; } } const PaperInfo& rBestInfo = GetPaperInfo( nBestIndex ); rData.SetPaperFormat( ImplGetPaperFormat( rBestInfo.getWidth(), rBestInfo.getHeight() )); rData.SetOrientation(eBestOrientation); } } void Printer::SetPaper( Paper ePaper ) { if ( mbInPrintPage ) return; if ( maJobSetup.ImplGetConstData().GetPaperFormat() != ePaper ) { JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetPaperFormat( ePaper ); if ( ePaper != PAPER_USER ) { PaperInfo aInfo(ePaper); rData.SetPaperWidth( aInfo.getWidth() ); rData.SetPaperHeight( aInfo.getHeight() ); } if ( IsDisplayPrinter() ) { mbNewJobSetup = true; maJobSetup = aJobSetup; return; } ReleaseGraphics(); if ( ePaper == PAPER_USER ) ImplFindPaperFormatForUserSize( aJobSetup, false ); if ( mpInfoPrinter->SetData( JobSetFlags::PAPERSIZE | JobSetFlags::ORIENTATION, &rData )) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); } } } bool Printer::SetPaperSizeUser( const Size& rSize ) { return SetPaperSizeUser( rSize, false ); } bool Printer::SetPaperSizeUser( const Size& rSize, bool bMatchNearest ) { if ( mbInPrintPage ) return false; const Size aPixSize = LogicToPixel( rSize ); const Size aPageSize = PixelToLogic(aPixSize, MapMode(MapUnit::Map100thMM)); bool bNeedToChange(maJobSetup.ImplGetConstData().GetPaperWidth() != aPageSize.Width() || maJobSetup.ImplGetConstData().GetPaperHeight() != aPageSize.Height()); if(!bNeedToChange) { // #i122984# only need to change when Paper is different from PAPER_USER and // the mapped Paper which will created below in the call to ImplFindPaperFormatForUserSize // and will replace maJobSetup.ImplGetConstData()->GetPaperFormat(). This leads to // unnecessary JobSetups, e.g. when printing a multi-page fax, but also with // normal print const Paper aPaper = ImplGetPaperFormat(aPageSize.Width(), aPageSize.Height()); bNeedToChange = maJobSetup.ImplGetConstData().GetPaperFormat() != PAPER_USER && maJobSetup.ImplGetConstData().GetPaperFormat() != aPaper; } if(bNeedToChange) { JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetPaperFormat( PAPER_USER ); rData.SetPaperWidth( aPageSize.Width() ); rData.SetPaperHeight( aPageSize.Height() ); if ( IsDisplayPrinter() ) { mbNewJobSetup = true; maJobSetup = aJobSetup; return true; } ReleaseGraphics(); ImplFindPaperFormatForUserSize( aJobSetup, bMatchNearest ); // Changing the paper size can also change the orientation! if ( mpInfoPrinter->SetData( JobSetFlags::PAPERSIZE | JobSetFlags::ORIENTATION, &rData )) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); return true; } else return false; } return true; } int Printer::GetPaperInfoCount() const { if( ! mpInfoPrinter ) return 0; if( ! mpInfoPrinter->m_bPapersInit ) mpInfoPrinter->InitPaperFormats( &maJobSetup.ImplGetConstData() ); return mpInfoPrinter->m_aPaperFormats.size(); } OUString Printer::GetPaperName( Paper ePaper ) { ImplSVData* pSVData = ImplGetSVData(); if( pSVData->maPaperNames.empty() ) { static const int PaperIndex[] = { PAPER_A0, PAPER_A1, PAPER_A2, PAPER_A3, PAPER_A4, PAPER_A5, PAPER_B4_ISO, PAPER_B5_ISO, PAPER_LETTER, PAPER_LEGAL, PAPER_TABLOID, PAPER_USER, PAPER_B6_ISO, PAPER_ENV_C4, PAPER_ENV_C5, PAPER_ENV_C6, PAPER_ENV_C65, PAPER_ENV_DL, PAPER_SLIDE_DIA, PAPER_SCREEN_4_3, PAPER_C, PAPER_D, PAPER_E, PAPER_EXECUTIVE, PAPER_FANFOLD_LEGAL_DE, PAPER_ENV_MONARCH, PAPER_ENV_PERSONAL, PAPER_ENV_9, PAPER_ENV_10, PAPER_ENV_11, PAPER_ENV_12, PAPER_KAI16, PAPER_KAI32, PAPER_KAI32BIG, PAPER_B4_JIS, PAPER_B5_JIS, PAPER_B6_JIS, PAPER_LEDGER, PAPER_STATEMENT, PAPER_QUARTO, PAPER_10x14, PAPER_ENV_14, PAPER_ENV_C3, PAPER_ENV_ITALY, PAPER_FANFOLD_US, PAPER_FANFOLD_DE, PAPER_POSTCARD_JP, PAPER_9x11, PAPER_10x11, PAPER_15x11, PAPER_ENV_INVITE, PAPER_A_PLUS, PAPER_B_PLUS, PAPER_LETTER_PLUS, PAPER_A4_PLUS, PAPER_DOUBLEPOSTCARD_JP, PAPER_A6, PAPER_12x11, PAPER_A7, PAPER_A8, PAPER_A9, PAPER_A10, PAPER_B0_ISO, PAPER_B1_ISO, PAPER_B2_ISO, PAPER_B3_ISO, PAPER_B7_ISO, PAPER_B8_ISO, PAPER_B9_ISO, PAPER_B10_ISO, PAPER_ENV_C2, PAPER_ENV_C7, PAPER_ENV_C8, PAPER_ARCHA, PAPER_ARCHB, PAPER_ARCHC, PAPER_ARCHD, PAPER_ARCHE, PAPER_SCREEN_16_9, PAPER_SCREEN_16_10, PAPER_16K_195x270, PAPER_16K_197x273 }; assert(SAL_N_ELEMENTS(PaperIndex) == SAL_N_ELEMENTS(RID_STR_PAPERNAMES) && "localized paper name count wrong"); for (size_t i = 0; i < SAL_N_ELEMENTS(PaperIndex); ++i) pSVData->maPaperNames[PaperIndex[i]] = VclResId(RID_STR_PAPERNAMES[i]); } std::unordered_map::const_iterator it = pSVData->maPaperNames.find( static_cast(ePaper) ); return (it != pSVData->maPaperNames.end()) ? it->second : OUString(); } const PaperInfo& Printer::GetPaperInfo( int nPaper ) const { if( ! mpInfoPrinter ) return ImplGetEmptyPaper(); if( ! mpInfoPrinter->m_bPapersInit ) mpInfoPrinter->InitPaperFormats( &maJobSetup.ImplGetConstData() ); if( mpInfoPrinter->m_aPaperFormats.empty() || nPaper < 0 || nPaper >= int(mpInfoPrinter->m_aPaperFormats.size()) ) return ImplGetEmptyPaper(); return mpInfoPrinter->m_aPaperFormats[nPaper]; } Size Printer::GetPaperSize( int nPaper ) { PaperInfo aInfo = GetPaperInfo( nPaper ); return PixelToLogic( Size( aInfo.getWidth(), aInfo.getHeight() ) ); } void Printer::SetDuplexMode( DuplexMode eDuplex ) { if ( mbInPrintPage ) return; if ( maJobSetup.ImplGetConstData().GetDuplexMode() != eDuplex ) { JobSetup aJobSetup = maJobSetup; ImplJobSetup& rData = aJobSetup.ImplGetData(); rData.SetDuplexMode( eDuplex ); if ( IsDisplayPrinter() ) { mbNewJobSetup = true; maJobSetup = aJobSetup; return; } ReleaseGraphics(); if ( mpInfoPrinter->SetData( JobSetFlags::DUPLEXMODE, &rData ) ) { ImplUpdateJobSetupPaper( aJobSetup ); mbNewJobSetup = true; maJobSetup = aJobSetup; ImplUpdatePageData(); ImplUpdateFontList(); } } } DuplexMode Printer::GetDuplexMode() const { return maJobSetup.ImplGetConstData().GetDuplexMode(); } Paper Printer::GetPaper() const { return maJobSetup.ImplGetConstData().GetPaperFormat(); } sal_uInt16 Printer::GetPaperBinCount() const { if ( IsDisplayPrinter() ) return 0; return mpInfoPrinter->GetPaperBinCount( &maJobSetup.ImplGetConstData() ); } OUString Printer::GetPaperBinName( sal_uInt16 nPaperBin ) const { if ( IsDisplayPrinter() ) return OUString(); if ( nPaperBin < GetPaperBinCount() ) return mpInfoPrinter->GetPaperBinName( &maJobSetup.ImplGetConstData(), nPaperBin ); else return OUString(); } void Printer::SetCopyCount( sal_uInt16 nCopy, bool bCollate ) { mnCopyCount = nCopy; mbCollateCopy = bCollate; } ErrCode Printer::ImplSalPrinterErrorCodeToVCL( SalPrinterError nError ) { ErrCode nVCLError; switch ( nError ) { case SalPrinterError::NONE: nVCLError = ERRCODE_NONE; break; case SalPrinterError::Abort: nVCLError = PRINTER_ABORT; break; default: nVCLError = PRINTER_GENERALERROR; break; } return nVCLError; } void Printer::EndJob() { if ( !IsJobActive() ) return; SAL_WARN_IF( mbInPrintPage, "vcl.gdi", "Printer::EndJob() - StartPage() without EndPage() called" ); mbJobActive = false; if ( mpPrinter ) { ReleaseGraphics(); mbPrinting = false; mbDevOutput = false; mpPrinter->EndJob(); mpPrinter.reset(); } } void Printer::ImplStartPage() { if ( !IsJobActive() ) return; if ( mpPrinter ) { SalGraphics* pGraphics = mpPrinter->StartPage( &maJobSetup.ImplGetData(), mbNewJobSetup ); if ( pGraphics ) { ReleaseGraphics(); mpJobGraphics = pGraphics; } mbDevOutput = true; // PrintJob not aborted ??? if ( IsJobActive() ) mbInPrintPage = true; } } void Printer::ImplEndPage() { if ( !IsJobActive() ) return; mbInPrintPage = false; if ( mpPrinter ) { mpPrinter->EndPage(); ReleaseGraphics(); mbDevOutput = false; mpJobGraphics = nullptr; mbNewJobSetup = false; } } void Printer::updatePrinters() { ImplSVData* pSVData = ImplGetSVData(); ImplPrnQueueList* pPrnList = pSVData->maGDIData.mpPrinterQueueList.get(); if ( pPrnList ) { std::unique_ptr pNewList(new ImplPrnQueueList); pSVData->mpDefInst->GetPrinterQueueInfo( pNewList.get() ); bool bChanged = pPrnList->m_aQueueInfos.size() != pNewList->m_aQueueInfos.size(); for( decltype(pPrnList->m_aQueueInfos)::size_type i = 0; ! bChanged && i < pPrnList->m_aQueueInfos.size(); i++ ) { ImplPrnQueueData& rInfo = pPrnList->m_aQueueInfos[i]; ImplPrnQueueData& rNewInfo = pNewList->m_aQueueInfos[i]; if( ! rInfo.mpSalQueueInfo || ! rNewInfo.mpSalQueueInfo || // sanity check rInfo.mpSalQueueInfo->maPrinterName != rNewInfo.mpSalQueueInfo->maPrinterName ) { bChanged = true; } } if( bChanged ) { ImplDeletePrnQueueList(); pSVData->maGDIData.mpPrinterQueueList = std::move(pNewList); Application* pApp = GetpApp(); if( pApp ) { DataChangedEvent aDCEvt( DataChangedEventType::PRINTER ); Application::ImplCallEventListenersApplicationDataChanged(&aDCEvt); Application::NotifyAllWindows( aDCEvt ); } } } } bool Printer::UsePolyPolygonForComplexGradient() { return true; } void Printer::ClipAndDrawGradientMetafile ( const Gradient &rGradient, const tools::PolyPolygon &rPolyPoly ) { const tools::Rectangle aBoundRect( rPolyPoly.GetBoundRect() ); Push( PushFlags::CLIPREGION ); IntersectClipRegion(vcl::Region(rPolyPoly)); DrawGradient( aBoundRect, rGradient ); Pop(); } void Printer::SetFontOrientation( LogicalFontInstance* const pFontEntry ) const { pFontEntry->mnOrientation = pFontEntry->mxFontMetric->GetOrientation(); } vcl::Region Printer::ClipToDeviceBounds(vcl::Region aRegion) const { return aRegion; } Bitmap Printer::GetBitmap( const Point& rSrcPt, const Size& rSize ) const { SAL_WARN("vcl.gdi", "GetBitmap(): This should never be called on by a Printer instance"); return OutputDevice::GetBitmap( rSrcPt, rSize ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */