vcl/html/gdimtf_8cxx_source.html

 /* -*- 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 <cstdlib>

 #include <memory>

 #include <sal/log.hxx>

 #include <osl/diagnose.h>

 #include <tools/diagnose_ex.h>

 #include <tools/helpers.hxx>

 #include <tools/stream.hxx>

 #include <tools/vcompat.hxx>

 #include <tools/fract.hxx>

 #include <vcl/BitmapPalette.hxx>

 #include <vcl/metaact.hxx>

 #include <vcl/outdev.hxx>

 #include <vcl/window.hxx>

 #include <vcl/virdev.hxx>

 #include <vcl/svapp.hxx>

 #include <vcl/gdimtf.hxx>

 #include <vcl/graphictools.hxx>

 #include <basegfx/polygon/b2dpolygon.hxx>

 #include <vcl/canvastools.hxx>

 #include <vcl/mtfxmldump.hxx>


 #include <svmconverter.hxx>

 #include <vcl/TypeSerializer.hxx>


 #include <com/sun/star/beans/XFastPropertySet.hpp>

 #include <com/sun/star/rendering/MtfRenderer.hpp>

 #include <com/sun/star/rendering/XBitmapCanvas.hpp>

 #include <com/sun/star/rendering/XCanvas.hpp>

 #include <comphelper/processfactory.hxx>


 using namespace com::sun::star;


 namespace {


 struct ImplColAdjustParam

 {

     std::unique_ptr<sal_uInt8[]>  pMapR;

     std::unique_ptr<sal_uInt8[]>  pMapG;

     std::unique_ptr<sal_uInt8[]>  pMapB;

 };


 struct ImplBmpAdjustParam

 {

     short   nLuminancePercent;

     short   nContrastPercent;

     short   nChannelRPercent;

     short   nChannelGPercent;

     short   nChannelBPercent;

     double  fGamma;

     bool    bInvert;

 };


 struct ImplColConvertParam

 {

     MtfConversion   eConversion;

 };


 struct ImplBmpConvertParam

 {

     BmpConversion   eConversion;

 };


 struct ImplColMonoParam

 {

     Color aColor;

 };


 struct ImplBmpMonoParam

 {

     Color aColor;

 };


 struct ImplColReplaceParam

 {

     std::unique_ptr<sal_uLong[]>     pMinR;

     std::unique_ptr<sal_uLong[]>     pMaxR;

     std::unique_ptr<sal_uLong[]>     pMinG;

     std::unique_ptr<sal_uLong[]>     pMaxG;

     std::unique_ptr<sal_uLong[]>     pMinB;

     std::unique_ptr<sal_uLong[]>     pMaxB;

     const Color *                  pDstCols;

     sal_uLong                      nCount;

 };


 struct ImplBmpReplaceParam

 {

     const Color*        pSrcCols;

     const Color*        pDstCols;

     sal_uLong           nCount;

 };


 }


 GDIMetaFile::GDIMetaFile() :

     m_nCurrentActionElement( 0 ),

     m_aPrefSize   ( 1, 1 ),

     m_pPrev       ( nullptr ),

     m_pNext       ( nullptr ),

     m_pOutDev     ( nullptr ),

     m_bPause      ( false ),

     m_bRecord     ( false ),

     m_bUseCanvas  ( false )

 {

 }


 GDIMetaFile::GDIMetaFile( const GDIMetaFile& rMtf ) :

     m_nCurrentActionElement( rMtf.m_nCurrentActionElement ),

     m_aPrefMapMode    ( rMtf.m_aPrefMapMode ),

     m_aPrefSize       ( rMtf.m_aPrefSize ),

     m_pPrev           ( rMtf.m_pPrev ),

     m_pNext           ( rMtf.m_pNext ),

     m_pOutDev         ( nullptr ),

     m_bPause          ( false ),

     m_bRecord         ( false ),

     m_bUseCanvas      ( rMtf.m_bUseCanvas )

 {

     for( size_t i = 0, n = rMtf.GetActionSize(); i < n; ++i )

     {

         m_aList.push_back( rMtf.GetAction( i ) );

     }


     if( rMtf.m_bRecord )

     {

         Record( rMtf.m_pOutDev );


         if ( rMtf.m_bPause )

             Pause( true );

     }

 }


 GDIMetaFile::~GDIMetaFile()

 {

     Clear();

 }


 bool GDIMetaFile::HasTransparentActions() const

 {

     MetaAction* pCurrAct;


     // watch for transparent drawing actions

     for(pCurrAct = const_cast<GDIMetaFile*>(this)->FirstAction();

         pCurrAct;

         pCurrAct = const_cast<GDIMetaFile*>(this)->NextAction())

     {

         // #i10613# determine if the action is transparency capable


         // #107169# Also examine metafiles with masked bitmaps in

         // detail. Further down, this is optimized in such a way

         // that there's no unnecessary painting of masked bitmaps

         // (which are _always_ subdivided into rectangular regions

         // of uniform opacity): if a masked bitmap is printed over

         // empty background, we convert to a plain bitmap with

         // white background.

         if (pCurrAct->IsTransparent())

             return true;

     }


     return false;

 }


 size_t GDIMetaFile::GetActionSize() const

 {

     return m_aList.size();

 }


 MetaAction* GDIMetaFile::GetAction( size_t nAction ) const

 {

     return (nAction < m_aList.size()) ? m_aList[ nAction ].get() : nullptr;

 }


 MetaAction* GDIMetaFile::FirstAction()

 {

     m_nCurrentActionElement = 0;

     return m_aList.empty() ? nullptr : m_aList[ 0 ].get();

 }


 MetaAction* GDIMetaFile::NextAction()

 {

     return ( m_nCurrentActionElement + 1 < m_aList.size() ) ? m_aList[ ++m_nCurrentActionElement ].get() : nullptr;

 }


 void GDIMetaFile::ReplaceAction( rtl::Reference<MetaAction> pAction, size_t nAction )

 {

     if ( nAction >= m_aList.size() )

     {

         return;

     }

     //fdo#39995 This doesn't increment the incoming action ref-count nor does it

     //decrement the outgoing action ref-count

     std::swap(pAction, m_aList[nAction]);

 }


 GDIMetaFile& GDIMetaFile::operator=( const GDIMetaFile& rMtf )

 {

     if( this != &rMtf )

     {

         Clear();


         // Increment RefCount of MetaActions

         for( size_t i = 0, n = rMtf.GetActionSize(); i < n; ++i )

         {

             m_aList.push_back( rMtf.GetAction( i ) );

         }


         m_aPrefMapMode = rMtf.m_aPrefMapMode;

         m_aPrefSize = rMtf.m_aPrefSize;

         m_pPrev = rMtf.m_pPrev;

         m_pNext = rMtf.m_pNext;

         m_pOutDev = nullptr;

         m_bPause = false;

         m_bRecord = false;

         m_bUseCanvas = rMtf.m_bUseCanvas;


         if( rMtf.m_bRecord )

         {

             Record( rMtf.m_pOutDev );


             if( rMtf.m_bPause )

                 Pause( true );

         }

     }


     return *this;

 }


 bool GDIMetaFile::operator==( const GDIMetaFile& rMtf ) const

 {

     const size_t    nObjCount = m_aList.size();

     bool        bRet = false;


     if( this == &rMtf )

         bRet = true;

     else if( rMtf.GetActionSize()  == nObjCount &&

              rMtf.GetPrefSize()    == m_aPrefSize &&

              rMtf.GetPrefMapMode() == m_aPrefMapMode )

     {

         bRet = true;


         for( size_t n = 0; n < nObjCount; n++ )

         {

             if( m_aList[ n ] != rMtf.GetAction( n ) )

             {

                 bRet = false;

                 break;

             }

         }

     }


     return bRet;

 }


 void GDIMetaFile::Clear()

 {

     if( m_bRecord )

         Stop();


     m_aList.clear();

 }


 void GDIMetaFile::Linker( OutputDevice* pOut, bool bLink )

 {

     if( bLink )

     {

         m_pNext = nullptr;

         m_pPrev = pOut->GetConnectMetaFile();

         pOut->SetConnectMetaFile( this );


         if( m_pPrev )

             m_pPrev->m_pNext = this;

     }

     else

     {

         if( m_pNext )

         {

             m_pNext->m_pPrev = m_pPrev;


             if( m_pPrev )

                 m_pPrev->m_pNext = m_pNext;

         }

         else

         {

             if( m_pPrev )

                 m_pPrev->m_pNext = nullptr;


             pOut->SetConnectMetaFile( m_pPrev );

         }


         m_pPrev = nullptr;

         m_pNext = nullptr;

     }

 }


 void GDIMetaFile::Record( OutputDevice* pOut )

 {

     if( m_bRecord )

         Stop();


     m_nCurrentActionElement = m_aList.empty() ? 0 : (m_aList.size() - 1);

     m_pOutDev = pOut;

     m_bRecord = true;

     Linker( pOut, true );

 }


 void GDIMetaFile::Play( GDIMetaFile& rMtf )

 {

     if (m_bRecord || rMtf.m_bRecord)

         return;


     MetaAction* pAction = GetCurAction();

     const size_t nObjCount = m_aList.size();


     rMtf.UseCanvas( rMtf.GetUseCanvas() || m_bUseCanvas );


     for( size_t nCurPos = m_nCurrentActionElement; nCurPos < nObjCount; nCurPos++ )

     {

         if( pAction )

         {

             rMtf.AddAction( pAction );

         }


         pAction = NextAction();

     }

 }


 void GDIMetaFile::Play( OutputDevice* pOut, size_t nPos )

 {

     if( m_bRecord )

         return;


     MetaAction* pAction = GetCurAction();

     const size_t nObjCount = m_aList.size();

     size_t  nSyncCount = pOut->GetSyncCount();


     if( nPos > nObjCount )

         nPos = nObjCount;


     // #i23407# Set backwards-compatible text language and layout mode

     // This is necessary, since old metafiles don't even know of these

     // recent add-ons. Newer metafiles must of course explicitly set

     // those states.

     pOut->Push( PushFlags::TEXTLAYOUTMODE|PushFlags::TEXTLANGUAGE );

     pOut->SetLayoutMode( ComplexTextLayoutFlags::Default );

     pOut->SetDigitLanguage( LANGUAGE_SYSTEM );


     SAL_INFO( "vcl.gdi", "GDIMetaFile::Play on device of size: " << pOut->GetOutputSizePixel().Width() << " " << pOut->GetOutputSizePixel().Height());


     if( !ImplPlayWithRenderer( pOut, Point(0,0), pOut->GetOutputSize() ) ) {

         size_t  i  = 0;

         for( size_t nCurPos = m_nCurrentActionElement; nCurPos < nPos; nCurPos++ )

         {

             if( pAction )

             {

                 pAction->Execute( pOut );


                 // flush output from time to time

                 if( i++ > nSyncCount )

                 {

                     static_cast<vcl::Window*>( pOut )->Flush();

                     i = 0;

                 }

             }


             pAction = NextAction();

         }

     }

     pOut->Pop();

 }


 bool GDIMetaFile::ImplPlayWithRenderer( OutputDevice* pOut, const Point& rPos, Size rLogicDestSize )

 {

     if (!m_bUseCanvas)

         return false;


     Size rDestSize( pOut->LogicToPixel( rLogicDestSize ) );


     const vcl::Window* win = dynamic_cast <vcl::Window*> ( pOut );


     if (!win)

         win = Application::GetActiveTopWindow();

     if (!win)

         win = Application::GetFirstTopLevelWindow();


     if (!win)

         return false;


     try

     {

         uno::Reference<rendering::XCanvas> xCanvas = win->GetCanvas ();


         if (!xCanvas.is())

             return false;


         Size aSize (rDestSize.Width () + 1, rDestSize.Height () + 1);

         uno::Reference<rendering::XBitmap> xBitmap = xCanvas->getDevice ()->createCompatibleAlphaBitmap (vcl::unotools::integerSize2DFromSize( aSize));

         if( xBitmap.is () )

         {

             uno::Reference< rendering::XBitmapCanvas > xBitmapCanvas( xBitmap, uno::UNO_QUERY );

             if( xBitmapCanvas.is() )

             {

                 uno::Reference< uno::XComponentContext > xContext = comphelper::getProcessComponentContext();

                 uno::Reference< rendering::XMtfRenderer > xMtfRenderer = rendering::MtfRenderer::createWithBitmapCanvas( xContext, xBitmapCanvas );


                 xBitmapCanvas->clear();

                 uno::Reference< beans::XFastPropertySet > xMtfFastPropertySet( xMtfRenderer, uno::UNO_QUERY );

                 if( xMtfFastPropertySet.is() )

                     // set this metafile to the renderer to

                     // speedup things (instead of copying data to

                     // sequence of bytes passed to renderer)

                     xMtfFastPropertySet->setFastPropertyValue( 0, uno::Any( reinterpret_cast<sal_Int64>( this ) ) );


                 xMtfRenderer->draw( rDestSize.Width(), rDestSize.Height() );


                 BitmapEx aBitmapEx;

                 if( aBitmapEx.Create( xBitmapCanvas, aSize ) )

                 {

                     if (pOut->GetMapMode().GetMapUnit() == MapUnit::MapPixel)

                         pOut->DrawBitmapEx( rPos, aBitmapEx );

                     else

                         pOut->DrawBitmapEx( rPos, rLogicDestSize, aBitmapEx );

                     return true;

                 }

             }

         }

     }

     catch (const uno::RuntimeException& )

     {

         throw; // runtime errors are fatal

     }

     catch (const uno::Exception&)

     {

         // ignore errors, no way of reporting them here

         TOOLS_WARN_EXCEPTION("vcl.gdi", "GDIMetaFile::ImplPlayWithRenderer");

     }


     return false;

 }


 void GDIMetaFile::Play( OutputDevice* pOut, const Point& rPos,

                         const Size& rSize )

 {

     MapMode aDrawMap( GetPrefMapMode() );

     Size    aDestSize( pOut->LogicToPixel( rSize ) );


     if( !aDestSize.Width() || !aDestSize.Height() )

         return;


     GDIMetaFile*    pMtf = pOut->GetConnectMetaFile();


     if( ImplPlayWithRenderer( pOut, rPos, rSize ) )

         return;


     Size aTmpPrefSize( pOut->LogicToPixel( GetPrefSize(), aDrawMap ) );


     if( !aTmpPrefSize.Width() )

         aTmpPrefSize.setWidth( aDestSize.Width() );


     if( !aTmpPrefSize.Height() )

         aTmpPrefSize.setHeight( aDestSize.Height() );


     Fraction aScaleX( aDestSize.Width(), aTmpPrefSize.Width() );

     Fraction aScaleY( aDestSize.Height(), aTmpPrefSize.Height() );


     aScaleX *= aDrawMap.GetScaleX(); aDrawMap.SetScaleX( aScaleX );

     aScaleY *= aDrawMap.GetScaleY(); aDrawMap.SetScaleY( aScaleY );


     // #i47260# Convert logical output position to offset within

     // the metafile's mapmode. Therefore, disable pixel offset on

     // outdev, it's inverse mnOutOffLogicX/Y is calculated for a

     // different mapmode (the one currently set on pOut, that is)

     // - thus, aDrawMap's origin would generally be wrong. And

     // even _if_ aDrawMap is similar to pOutDev's current mapmode,

     // it's _still_ undesirable to have pixel offset unequal zero,

     // because one would still get round-off errors (the

     // round-trip error for LogicToPixel( PixelToLogic() ) was the

     // reason for having pixel offset in the first place).

     const Size& rOldOffset( pOut->GetPixelOffset() );

     const Size  aEmptySize;

     pOut->SetPixelOffset( aEmptySize );

     aDrawMap.SetOrigin( pOut->PixelToLogic( pOut->LogicToPixel( rPos ), aDrawMap ) );

     pOut->SetPixelOffset( rOldOffset );


     pOut->Push();


     bool bIsRecord = (pMtf && pMtf->IsRecord());

     pOut->SetMetafileMapMode(aDrawMap, bIsRecord);


     // #i23407# Set backwards-compatible text language and layout mode

     // This is necessary, since old metafiles don't even know of these

     // recent add-ons. Newer metafiles must of course explicitly set

     // those states.

     pOut->SetLayoutMode( ComplexTextLayoutFlags::Default );

     pOut->SetDigitLanguage( LANGUAGE_SYSTEM );


     Play( pOut );


     pOut->Pop();


 }


 void GDIMetaFile::Pause( bool _bPause )

 {

     if( !m_bRecord )

         return;


     if( _bPause )

     {

         if( !m_bPause )

             Linker( m_pOutDev, false );

     }

     else

     {

         if( m_bPause )

             Linker( m_pOutDev, true );

     }


     m_bPause = _bPause;

 }


 void GDIMetaFile::Stop()

 {

     if( m_bRecord )

     {

         m_bRecord = false;


         if( !m_bPause )

             Linker( m_pOutDev, false );

         else

             m_bPause = false;

     }

 }


 void GDIMetaFile::WindStart()

 {

     if( !m_bRecord )

         m_nCurrentActionElement = 0;

 }


 void GDIMetaFile::WindPrev()

 {

     if( !m_bRecord )

         if ( m_nCurrentActionElement > 0 )

             --m_nCurrentActionElement;

 }


 void GDIMetaFile::AddAction(const rtl::Reference<MetaAction>& pAction)

 {

     m_aList.push_back( pAction );


     if( m_pPrev )

     {

         m_pPrev->AddAction( pAction );

     }

 }


 void GDIMetaFile::AddAction(const rtl::Reference<MetaAction>& pAction, size_t nPos)

 {

     if ( nPos < m_aList.size() )

     {

         m_aList.insert( m_aList.begin() + nPos, pAction );

     }

     else

     {

         m_aList.push_back( pAction );

     }


     if( m_pPrev )

     {

         m_pPrev->AddAction( pAction, nPos );

     }

 }


 void GDIMetaFile::push_back(const rtl::Reference<MetaAction>& pAction)

 {

     m_aList.push_back( pAction );

 }


 void GDIMetaFile::Mirror( BmpMirrorFlags nMirrorFlags )

 {

     const Size  aOldPrefSize( GetPrefSize() );

     tools::Long        nMoveX, nMoveY;

     double      fScaleX, fScaleY;


     if( nMirrorFlags & BmpMirrorFlags::Horizontal )

     {

         nMoveX = std::abs( aOldPrefSize.Width() ) - 1;

         fScaleX = -1.0;

     }

     else

     {

         nMoveX = 0;

         fScaleX = 1.0;

     }


     if( nMirrorFlags & BmpMirrorFlags::Vertical )

     {

         nMoveY = std::abs( aOldPrefSize.Height() ) - 1;

         fScaleY = -1.0;

     }

     else

     {

         nMoveY = 0;

         fScaleY = 1.0;

     }


     if( ( fScaleX != 1.0 ) || ( fScaleY != 1.0 ) )

     {

         Scale( fScaleX, fScaleY );

         Move( nMoveX, nMoveY );

         SetPrefSize( aOldPrefSize );

     }

 }


 void GDIMetaFile::Move( tools::Long nX, tools::Long nY )

 {

     const Size      aBaseOffset( nX, nY );

     Size            aOffset( aBaseOffset );

     ScopedVclPtrInstance< VirtualDevice > aMapVDev;


     aMapVDev->EnableOutput( false );

     aMapVDev->SetMapMode( GetPrefMapMode() );


     for( MetaAction* pAct = FirstAction(); pAct; pAct = NextAction() )

     {

         const MetaActionType nType = pAct->GetType();

         MetaAction* pModAct;


         if( pAct->GetRefCount() > 1 )

         {

             m_aList[ m_nCurrentActionElement ] = pAct->Clone();

             pModAct = m_aList[ m_nCurrentActionElement ].get();

         }

         else

             pModAct = pAct;


         if( ( MetaActionType::MAPMODE == nType ) ||

             ( MetaActionType::PUSH == nType ) ||

             ( MetaActionType::POP == nType ) )

         {

             pModAct->Execute( aMapVDev.get() );

             aOffset = OutputDevice::LogicToLogic( aBaseOffset, GetPrefMapMode(), aMapVDev->GetMapMode() );

         }


         pModAct->Move( aOffset.Width(), aOffset.Height() );

     }

 }


 void GDIMetaFile::Move( tools::Long nX, tools::Long nY, tools::Long nDPIX, tools::Long nDPIY )

 {

     const Size      aBaseOffset( nX, nY );

     Size            aOffset( aBaseOffset );

     ScopedVclPtrInstance< VirtualDevice > aMapVDev;


     aMapVDev->EnableOutput( false );

     aMapVDev->SetReferenceDevice( nDPIX, nDPIY );

     aMapVDev->SetMapMode( GetPrefMapMode() );


     for( MetaAction* pAct = FirstAction(); pAct; pAct = NextAction() )

     {

         const MetaActionType nType = pAct->GetType();

         MetaAction* pModAct;


         if( pAct->GetRefCount() > 1 )

         {

             m_aList[ m_nCurrentActionElement ] = pAct->Clone();

             pModAct = m_aList[ m_nCurrentActionElement ].get();

         }

         else

             pModAct = pAct;


         if( ( MetaActionType::MAPMODE == nType ) ||

             ( MetaActionType::PUSH == nType ) ||

             ( MetaActionType::POP == nType ) )

         {

             pModAct->Execute( aMapVDev.get() );

             if( aMapVDev->GetMapMode().GetMapUnit() == MapUnit::MapPixel )

             {

                 aOffset = aMapVDev->LogicToPixel( aBaseOffset, GetPrefMapMode() );

                 MapMode aMap( aMapVDev->GetMapMode() );

                 aOffset.setWidth( static_cast<tools::Long>(aOffset.Width() * static_cast<double>(aMap.GetScaleX())) );

                 aOffset.setHeight( static_cast<tools::Long>(aOffset.Height() * static_cast<double>(aMap.GetScaleY())) );

             }

             else

                 aOffset = OutputDevice::LogicToLogic( aBaseOffset, GetPrefMapMode(), aMapVDev->GetMapMode() );

         }


         pModAct->Move( aOffset.Width(), aOffset.Height() );

     }

 }


 void GDIMetaFile::Scale( double fScaleX, double fScaleY )

 {

     for( MetaAction* pAct = FirstAction(); pAct; pAct = NextAction() )

     {

         MetaAction* pModAct;


         if( pAct->GetRefCount() > 1 )

         {

             m_aList[ m_nCurrentActionElement ] = pAct->Clone();

             pModAct = m_aList[ m_nCurrentActionElement ].get();

         }

         else

             pModAct = pAct;


         pModAct->Scale( fScaleX, fScaleY );

     }


     m_aPrefSize.setWidth( FRound( m_aPrefSize.Width() * fScaleX ) );

     m_aPrefSize.setHeight( FRound( m_aPrefSize.Height() * fScaleY ) );

 }


 void GDIMetaFile::Scale( const Fraction& rScaleX, const Fraction& rScaleY )

 {

     Scale( static_cast<double>(rScaleX), static_cast<double>(rScaleY) );

 }


 void GDIMetaFile::Clip( const tools::Rectangle& i_rClipRect )

 {

     tools::Rectangle aCurRect( i_rClipRect );

     ScopedVclPtrInstance< VirtualDevice > aMapVDev;


     aMapVDev->EnableOutput( false );

     aMapVDev->SetMapMode( GetPrefMapMode() );


     for( MetaAction* pAct = FirstAction(); pAct; pAct = NextAction() )

     {

         const MetaActionType nType = pAct->GetType();


         if( ( MetaActionType::MAPMODE == nType ) ||

             ( MetaActionType::PUSH == nType ) ||

             ( MetaActionType::POP == nType ) )

         {

             pAct->Execute( aMapVDev.get() );

             aCurRect = OutputDevice::LogicToLogic( i_rClipRect, GetPrefMapMode(), aMapVDev->GetMapMode() );

         }

         else if( nType == MetaActionType::CLIPREGION )

         {

             MetaClipRegionAction* pOldAct = static_cast<MetaClipRegionAction*>(pAct);

             vcl::Region aNewReg( aCurRect );

             if( pOldAct->IsClipping() )

                 aNewReg.Intersect( pOldAct->GetRegion() );

             MetaClipRegionAction* pNewAct = new MetaClipRegionAction( aNewReg, true );

             m_aList[ m_nCurrentActionElement ] = pNewAct;

         }

     }

 }


 Point GDIMetaFile::ImplGetRotatedPoint( const Point& rPt, const Point& rRotatePt,

                                         const Size& rOffset, double fSin, double fCos )

 {

     const tools::Long nX = rPt.X() - rRotatePt.X();

     const tools::Long nY = rPt.Y() - rRotatePt.Y();


     return Point( FRound( fCos * nX + fSin * nY ) + rRotatePt.X() + rOffset.Width(),

                   -FRound( fSin * nX - fCos * nY ) + rRotatePt.Y() + rOffset.Height() );

 }


 tools::Polygon GDIMetaFile::ImplGetRotatedPolygon( const tools::Polygon& rPoly, const Point& rRotatePt,

                                                    const Size& rOffset, double fSin, double fCos )

 {

     tools::Polygon aRet( rPoly );


     aRet.Rotate( rRotatePt, fSin, fCos );

     aRet.Move( rOffset.Width(), rOffset.Height() );


     return aRet;

 }


 tools::PolyPolygon GDIMetaFile::ImplGetRotatedPolyPolygon( const tools::PolyPolygon& rPolyPoly, const Point& rRotatePt,

                                                     const Size& rOffset, double fSin, double fCos )

 {

     tools::PolyPolygon aRet( rPolyPoly );


     aRet.Rotate( rRotatePt, fSin, fCos );

     aRet.Move( rOffset.Width(), rOffset.Height() );


     return aRet;

 }


 void GDIMetaFile::ImplAddGradientEx( GDIMetaFile&         rMtf,

                                      const OutputDevice&  rMapDev,

                                      const tools::PolyPolygon&   rPolyPoly,

                                      const Gradient&      rGrad     )

 {

     // Generate comment, GradientEx and Gradient actions (within DrawGradient)

     ScopedVclPtrInstance< VirtualDevice > aVDev(rMapDev, DeviceFormat::DEFAULT);

     aVDev->EnableOutput( false );

     GDIMetaFile aGradMtf;


     aGradMtf.Record( aVDev.get() );

     aVDev->DrawGradient( rPolyPoly, rGrad );

     aGradMtf.Stop();


     size_t i, nAct( aGradMtf.GetActionSize() );

     for( i=0; i < nAct; ++i )

     {

         MetaAction* pMetaAct = aGradMtf.GetAction( i );

         rMtf.AddAction( pMetaAct );

     }

 }


 void GDIMetaFile::Rotate( Degree10 nAngle10 )

 {

     nAngle10 %= 3600_deg10;

     nAngle10 = ( nAngle10 < 0_deg10 ) ? ( Degree10(3599) + nAngle10 ) : nAngle10;


     if( !nAngle10 )

         return;


     GDIMetaFile     aMtf;

     ScopedVclPtrInstance< VirtualDevice > aMapVDev;

     const double    fAngle = F_PI1800 * nAngle10.get();

     const double    fSin = sin( fAngle );

     const double    fCos = cos( fAngle );

     tools::Rectangle aRect( Point(), GetPrefSize() );

     tools::Polygon aPoly( aRect );


     aPoly.Rotate( Point(), fSin, fCos );


     aMapVDev->EnableOutput( false );

     aMapVDev->SetMapMode( GetPrefMapMode() );


     const tools::Rectangle aNewBound( aPoly.GetBoundRect() );


     const Point aOrigin( GetPrefMapMode().GetOrigin().X(), GetPrefMapMode().GetOrigin().Y() );

     const Size  aOffset( -aNewBound.Left(), -aNewBound.Top() );


     Point     aRotAnchor( aOrigin );

     Size      aRotOffset( aOffset );


     for( MetaAction* pAction = FirstAction(); pAction; pAction = NextAction() )

     {

         const MetaActionType nActionType = pAction->GetType();


         switch( nActionType )

         {

             case MetaActionType::PIXEL:

             {

                 MetaPixelAction* pAct = static_cast<MetaPixelAction*>(pAction);

                 aMtf.AddAction( new MetaPixelAction( ImplGetRotatedPoint( pAct->GetPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                           pAct->GetColor() ) );

             }

             break;


             case MetaActionType::POINT:

             {

                 MetaPointAction* pAct = static_cast<MetaPointAction*>(pAction);

                 aMtf.AddAction( new MetaPointAction( ImplGetRotatedPoint( pAct->GetPoint(), aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::LINE:

             {

                 MetaLineAction* pAct = static_cast<MetaLineAction*>(pAction);

                 aMtf.AddAction( new MetaLineAction( ImplGetRotatedPoint( pAct->GetStartPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                     ImplGetRotatedPoint( pAct->GetEndPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                     pAct->GetLineInfo() ) );

             }

             break;


             case MetaActionType::RECT:

             {

                 MetaRectAction* pAct = static_cast<MetaRectAction*>(pAction);

                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( pAct->GetRect(), aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::ROUNDRECT:

             {

                 MetaRoundRectAction*    pAct = static_cast<MetaRoundRectAction*>(pAction);

                 const tools::Polygon aRoundRectPoly( pAct->GetRect(), pAct->GetHorzRound(), pAct->GetVertRound() );


                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( aRoundRectPoly, aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::ELLIPSE:

             {

                 MetaEllipseAction*      pAct = static_cast<MetaEllipseAction*>(pAction);

                 const tools::Polygon aEllipsePoly( pAct->GetRect().Center(), pAct->GetRect().GetWidth() >> 1, pAct->GetRect().GetHeight() >> 1 );


                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( aEllipsePoly, aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::ARC:

             {

                 MetaArcAction*  pAct = static_cast<MetaArcAction*>(pAction);

                 const tools::Polygon aArcPoly( pAct->GetRect(), pAct->GetStartPoint(), pAct->GetEndPoint(), PolyStyle::Arc );


                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( aArcPoly, aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::PIE:

             {

                 MetaPieAction*  pAct = static_cast<MetaPieAction*>(pAction);

                 const tools::Polygon aPiePoly( pAct->GetRect(), pAct->GetStartPoint(), pAct->GetEndPoint(), PolyStyle::Pie );


                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( aPiePoly, aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::CHORD:

             {

                 MetaChordAction*    pAct = static_cast<MetaChordAction*>(pAction);

                 const tools::Polygon aChordPoly( pAct->GetRect(), pAct->GetStartPoint(), pAct->GetEndPoint(), PolyStyle::Chord );


                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( aChordPoly, aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::POLYLINE:

             {

                 MetaPolyLineAction* pAct = static_cast<MetaPolyLineAction*>(pAction);

                 aMtf.AddAction( new MetaPolyLineAction( ImplGetRotatedPolygon( pAct->GetPolygon(), aRotAnchor, aRotOffset, fSin, fCos ), pAct->GetLineInfo() ) );

             }

             break;


             case MetaActionType::POLYGON:

             {

                 MetaPolygonAction* pAct = static_cast<MetaPolygonAction*>(pAction);

                 aMtf.AddAction( new MetaPolygonAction( ImplGetRotatedPolygon( pAct->GetPolygon(), aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::POLYPOLYGON:

             {

                 MetaPolyPolygonAction* pAct = static_cast<MetaPolyPolygonAction*>(pAction);

                 aMtf.AddAction( new MetaPolyPolygonAction( ImplGetRotatedPolyPolygon( pAct->GetPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ) ) );

             }

             break;


             case MetaActionType::TEXT:

             {

                 MetaTextAction* pAct = static_cast<MetaTextAction*>(pAction);

                 aMtf.AddAction( new MetaTextAction( ImplGetRotatedPoint( pAct->GetPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                          pAct->GetText(), pAct->GetIndex(), pAct->GetLen() ) );

             }

             break;


             case MetaActionType::TEXTARRAY:

             {

                 MetaTextArrayAction* pAct = static_cast<MetaTextArrayAction*>(pAction);

                 aMtf.AddAction( new MetaTextArrayAction( ImplGetRotatedPoint( pAct->GetPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                               pAct->GetText(), pAct->GetDXArray(), pAct->GetIndex(), pAct->GetLen() ) );

             }

             break;


             case MetaActionType::STRETCHTEXT:

             {

                 MetaStretchTextAction* pAct = static_cast<MetaStretchTextAction*>(pAction);

                 aMtf.AddAction( new MetaStretchTextAction( ImplGetRotatedPoint( pAct->GetPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                                 pAct->GetWidth(), pAct->GetText(), pAct->GetIndex(), pAct->GetLen() ) );

             }

             break;


             case MetaActionType::TEXTLINE:

             {

                 MetaTextLineAction* pAct = static_cast<MetaTextLineAction*>(pAction);

                 aMtf.AddAction( new MetaTextLineAction( ImplGetRotatedPoint( pAct->GetStartPoint(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                              pAct->GetWidth(), pAct->GetStrikeout(), pAct->GetUnderline(), pAct->GetOverline() ) );

             }

             break;


             case MetaActionType::BMPSCALE:

             {

                 MetaBmpScaleAction* pAct = static_cast<MetaBmpScaleAction*>(pAction);

                 tools::Polygon aBmpPoly( ImplGetRotatedPolygon( tools::Rectangle( pAct->GetPoint(), pAct->GetSize() ), aRotAnchor, aRotOffset, fSin, fCos ) );

                 tools::Rectangle           aBmpRect( aBmpPoly.GetBoundRect() );

                 BitmapEx            aBmpEx( pAct->GetBitmap() );


                 aBmpEx.Rotate( nAngle10, COL_TRANSPARENT );

                 aMtf.AddAction( new MetaBmpExScaleAction( aBmpRect.TopLeft(), aBmpRect.GetSize(),

                                                           aBmpEx ) );

             }

             break;


             case MetaActionType::BMPSCALEPART:

             {

                 MetaBmpScalePartAction* pAct = static_cast<MetaBmpScalePartAction*>(pAction);

                 tools::Polygon aBmpPoly( ImplGetRotatedPolygon( tools::Rectangle( pAct->GetDestPoint(), pAct->GetDestSize() ), aRotAnchor, aRotOffset, fSin, fCos ) );

                 tools::Rectangle               aBmpRect( aBmpPoly.GetBoundRect() );

                 BitmapEx                aBmpEx( pAct->GetBitmap() );


                 aBmpEx.Crop( tools::Rectangle( pAct->GetSrcPoint(), pAct->GetSrcSize() ) );

                 aBmpEx.Rotate( nAngle10, COL_TRANSPARENT );


                 aMtf.AddAction( new MetaBmpExScaleAction( aBmpRect.TopLeft(), aBmpRect.GetSize(), aBmpEx ) );

             }

             break;


             case MetaActionType::BMPEXSCALE:

             {

                 MetaBmpExScaleAction*   pAct = static_cast<MetaBmpExScaleAction*>(pAction);

                 tools::Polygon aBmpPoly( ImplGetRotatedPolygon( tools::Rectangle( pAct->GetPoint(), pAct->GetSize() ), aRotAnchor, aRotOffset, fSin, fCos ) );

                 tools::Rectangle               aBmpRect( aBmpPoly.GetBoundRect() );

                 BitmapEx                aBmpEx( pAct->GetBitmapEx() );


                 aBmpEx.Rotate( nAngle10, COL_TRANSPARENT );


                 aMtf.AddAction( new MetaBmpExScaleAction( aBmpRect.TopLeft(), aBmpRect.GetSize(), aBmpEx ) );

             }

             break;


             case MetaActionType::BMPEXSCALEPART:

             {

                 MetaBmpExScalePartAction*   pAct = static_cast<MetaBmpExScalePartAction*>(pAction);

                 tools::Polygon aBmpPoly( ImplGetRotatedPolygon( tools::Rectangle( pAct->GetDestPoint(), pAct->GetDestSize() ), aRotAnchor, aRotOffset, fSin, fCos ) );

                 tools::Rectangle                   aBmpRect( aBmpPoly.GetBoundRect() );

                 BitmapEx                    aBmpEx( pAct->GetBitmapEx() );


                 aBmpEx.Crop( tools::Rectangle( pAct->GetSrcPoint(), pAct->GetSrcSize() ) );

                 aBmpEx.Rotate( nAngle10, COL_TRANSPARENT );


                 aMtf.AddAction( new MetaBmpExScaleAction( aBmpRect.TopLeft(), aBmpRect.GetSize(), aBmpEx ) );

             }

             break;


             case MetaActionType::GRADIENT:

             {

                 MetaGradientAction* pAct = static_cast<MetaGradientAction*>(pAction);


                 ImplAddGradientEx( aMtf, *aMapVDev,

                                    ImplGetRotatedPolygon( pAct->GetRect(), aRotAnchor, aRotOffset, fSin, fCos ),

                                    pAct->GetGradient() );

             }

             break;


             case MetaActionType::GRADIENTEX:

             {

                 MetaGradientExAction* pAct = static_cast<MetaGradientExAction*>(pAction);

                 aMtf.AddAction( new MetaGradientExAction( ImplGetRotatedPolyPolygon( pAct->GetPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                           pAct->GetGradient() ) );

             }

             break;


             // Handle gradientex comment block correctly

             case MetaActionType::COMMENT:

             {

                 MetaCommentAction* pCommentAct = static_cast<MetaCommentAction*>(pAction);

                 if( pCommentAct->GetComment() == "XGRAD_SEQ_BEGIN" )

                 {

                     int nBeginComments( 1 );

                     pAction = NextAction();


                     // skip everything, except gradientex action

                     while( pAction )

                     {

                         const MetaActionType nType = pAction->GetType();


                         if( MetaActionType::GRADIENTEX == nType )

                         {

                             // Add rotated gradientex

                             MetaGradientExAction* pAct = static_cast<MetaGradientExAction*>(pAction);

                             ImplAddGradientEx( aMtf, *aMapVDev,

                                                ImplGetRotatedPolyPolygon( pAct->GetPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                pAct->GetGradient() );

                         }

                         else if( MetaActionType::COMMENT == nType)

                         {

                             MetaCommentAction* pAct = static_cast<MetaCommentAction*>(pAction);

                             if( pAct->GetComment() == "XGRAD_SEQ_END" )

                             {

                                 // handle nested blocks

                                 --nBeginComments;


                                 // gradientex comment block: end reached, done.

                                 if( !nBeginComments )

                                     break;

                             }

                             else if( pAct->GetComment() == "XGRAD_SEQ_BEGIN" )

                             {

                                 // handle nested blocks

                                 ++nBeginComments;

                             }


                         }


                         pAction =NextAction();

                     }

                 }

                 else

                 {

                     bool bPathStroke = (pCommentAct->GetComment() == "XPATHSTROKE_SEQ_BEGIN");

                     if ( bPathStroke || pCommentAct->GetComment() == "XPATHFILL_SEQ_BEGIN" )

                     {

                         if ( pCommentAct->GetDataSize() )

                         {

                             SvMemoryStream aMemStm( const_cast<sal_uInt8 *>(pCommentAct->GetData()), pCommentAct->GetDataSize(), StreamMode::READ );

                             SvMemoryStream aDest;

                             if ( bPathStroke )

                             {

                                 SvtGraphicStroke aStroke;

                                 ReadSvtGraphicStroke( aMemStm, aStroke );

                                 tools::Polygon aPath;

                                 aStroke.getPath( aPath );

                                 aStroke.setPath( ImplGetRotatedPolygon( aPath, aRotAnchor, aRotOffset, fSin, fCos ) );

                                 WriteSvtGraphicStroke( aDest, aStroke );

                                 aMtf.AddAction( new MetaCommentAction( "XPATHSTROKE_SEQ_BEGIN", 0,

                                                     static_cast<const sal_uInt8*>( aDest.GetData()), aDest.Tell() ) );

                             }

                             else

                             {

                                 SvtGraphicFill aFill;

                                 ReadSvtGraphicFill( aMemStm, aFill );

                                 tools::PolyPolygon aPath;

                                 aFill.getPath( aPath );

                                 aFill.setPath( ImplGetRotatedPolyPolygon( aPath, aRotAnchor, aRotOffset, fSin, fCos ) );

                                 WriteSvtGraphicFill( aDest, aFill );

                                 aMtf.AddAction( new MetaCommentAction( "XPATHFILL_SEQ_BEGIN", 0,

                                                     static_cast<const sal_uInt8*>( aDest.GetData()), aDest.Tell() ) );

                             }

                         }

                     }

                     else if ( pCommentAct->GetComment() == "XPATHSTROKE_SEQ_END"

                            || pCommentAct->GetComment() == "XPATHFILL_SEQ_END" )

                     {

                         pAction->Execute( aMapVDev.get() );

                         aMtf.AddAction( pAction );

                     }

                 }

             }

             break;


             case MetaActionType::HATCH:

             {

                 MetaHatchAction*    pAct = static_cast<MetaHatchAction*>(pAction);

                 Hatch               aHatch( pAct->GetHatch() );


                 aHatch.SetAngle( aHatch.GetAngle() + nAngle10 );

                 aMtf.AddAction( new MetaHatchAction( ImplGetRotatedPolyPolygon( pAct->GetPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                                 aHatch ) );

             }

             break;


             case MetaActionType::Transparent:

             {

                 MetaTransparentAction* pAct = static_cast<MetaTransparentAction*>(pAction);

                 aMtf.AddAction( new MetaTransparentAction( ImplGetRotatedPolyPolygon( pAct->GetPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ),

                                                                                       pAct->GetTransparence() ) );

             }

             break;


             case MetaActionType::FLOATTRANSPARENT:

             {

                 MetaFloatTransparentAction* pAct = static_cast<MetaFloatTransparentAction*>(pAction);

                 GDIMetaFile                 aTransMtf( pAct->GetGDIMetaFile() );

                 tools::Polygon aMtfPoly( ImplGetRotatedPolygon( tools::Rectangle( pAct->GetPoint(), pAct->GetSize() ), aRotAnchor, aRotOffset, fSin, fCos ) );

                 tools::Rectangle                   aMtfRect( aMtfPoly.GetBoundRect() );


                 aTransMtf.Rotate( nAngle10 );

                 aMtf.AddAction( new MetaFloatTransparentAction( aTransMtf, aMtfRect.TopLeft(), aMtfRect.GetSize(),

                                                                 pAct->GetGradient() ) );

             }

             break;


             case MetaActionType::EPS:

             {

                 MetaEPSAction*  pAct = static_cast<MetaEPSAction*>(pAction);

                 GDIMetaFile     aEPSMtf( pAct->GetSubstitute() );

                 tools::Polygon aEPSPoly( ImplGetRotatedPolygon( tools::Rectangle( pAct->GetPoint(), pAct->GetSize() ), aRotAnchor, aRotOffset, fSin, fCos ) );

                 tools::Rectangle       aEPSRect( aEPSPoly.GetBoundRect() );


                 aEPSMtf.Rotate( nAngle10 );

                 aMtf.AddAction( new MetaEPSAction( aEPSRect.TopLeft(), aEPSRect.GetSize(),

                                                    pAct->GetLink(), aEPSMtf ) );

             }

             break;


             case MetaActionType::CLIPREGION:

             {

                 MetaClipRegionAction* pAct = static_cast<MetaClipRegionAction*>(pAction);


                 if( pAct->IsClipping() && pAct->GetRegion().HasPolyPolygonOrB2DPolyPolygon() )

                     aMtf.AddAction( new MetaClipRegionAction( vcl::Region( ImplGetRotatedPolyPolygon( pAct->GetRegion().GetAsPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ) ), true ) );

                 else

                 {

                     aMtf.AddAction( pAction );

                 }

             }

             break;


             case MetaActionType::ISECTRECTCLIPREGION:

             {

                 MetaISectRectClipRegionAction*  pAct = static_cast<MetaISectRectClipRegionAction*>(pAction);

                 aMtf.AddAction( new MetaISectRegionClipRegionAction(vcl::Region(

                     ImplGetRotatedPolygon( pAct->GetRect(), aRotAnchor,

                         aRotOffset, fSin, fCos )) ) );

             }

             break;


             case MetaActionType::ISECTREGIONCLIPREGION:

             {

                 MetaISectRegionClipRegionAction*    pAct = static_cast<MetaISectRegionClipRegionAction*>(pAction);

                 const vcl::Region&                  rRegion = pAct->GetRegion();


                 if( rRegion.HasPolyPolygonOrB2DPolyPolygon() )

                     aMtf.AddAction( new MetaISectRegionClipRegionAction( vcl::Region( ImplGetRotatedPolyPolygon( rRegion.GetAsPolyPolygon(), aRotAnchor, aRotOffset, fSin, fCos ) ) ) );

                 else

                 {

                     aMtf.AddAction( pAction );

                 }

             }

             break;


             case MetaActionType::REFPOINT:

             {

                 MetaRefPointAction* pAct = static_cast<MetaRefPointAction*>(pAction);

                 aMtf.AddAction( new MetaRefPointAction( ImplGetRotatedPoint( pAct->GetRefPoint(), aRotAnchor, aRotOffset, fSin, fCos ), pAct->IsSetting() ) );

             }

             break;


             case MetaActionType::FONT:

             {

                 MetaFontAction* pAct = static_cast<MetaFontAction*>(pAction);

                 vcl::Font       aFont( pAct->GetFont() );


                 aFont.SetOrientation( aFont.GetOrientation() + nAngle10 );

                 aMtf.AddAction( new MetaFontAction( aFont ) );

             }

             break;


             case MetaActionType::BMP:

             case MetaActionType::BMPEX:

             case MetaActionType::MASK:

             case MetaActionType::MASKSCALE:

             case MetaActionType::MASKSCALEPART:

             case MetaActionType::WALLPAPER:

             case MetaActionType::TEXTRECT:

             case MetaActionType::MOVECLIPREGION:

             {

                 OSL_FAIL( "GDIMetaFile::Rotate(): unsupported action" );

             }

             break;


             default:

             {

                 pAction->Execute( aMapVDev.get() );

                 aMtf.AddAction( pAction );


                 // update rotation point and offset, if necessary

                 if( ( MetaActionType::MAPMODE == nActionType ) ||

                     ( MetaActionType::PUSH == nActionType ) ||

                     ( MetaActionType::POP == nActionType ) )

                 {

                     aRotAnchor = OutputDevice::LogicToLogic( aOrigin, m_aPrefMapMode, aMapVDev->GetMapMode() );

                     aRotOffset = OutputDevice::LogicToLogic( aOffset, m_aPrefMapMode, aMapVDev->GetMapMode() );

                 }

             }

             break;

         }

     }


     aMtf.m_aPrefMapMode = m_aPrefMapMode;

     aMtf.m_aPrefSize = aNewBound.GetSize();


     *this = aMtf;


 }


 static void ImplActionBounds( tools::Rectangle& o_rOutBounds,

                               const tools::Rectangle& i_rInBounds,

                               const std::vector<tools::Rectangle>& i_rClipStack,

                               tools::Rectangle* o_pHairline )

 {

     tools::Rectangle aBounds( i_rInBounds );

     if( ! i_rInBounds.IsEmpty() && ! i_rClipStack.empty() && ! i_rClipStack.back().IsEmpty() )

         aBounds.Intersection( i_rClipStack.back() );

     if(  aBounds.IsEmpty() )

         return;


     if( ! o_rOutBounds.IsEmpty() )

         o_rOutBounds.Union( aBounds );

     else

         o_rOutBounds = aBounds;


     if(o_pHairline)

     {

         if( ! o_pHairline->IsEmpty() )

             o_pHairline->Union( aBounds );

         else

             *o_pHairline = aBounds;

     }

 }


 tools::Rectangle GDIMetaFile::GetBoundRect( OutputDevice& i_rReference, tools::Rectangle* pHairline ) const

 {

     ScopedVclPtrInstance< VirtualDevice > aMapVDev(  i_rReference  );


     aMapVDev->EnableOutput( false );

     aMapVDev->SetMapMode( GetPrefMapMode() );


     std::vector<tools::Rectangle> aClipStack( 1, tools::Rectangle() );

     std::vector<PushFlags> aPushFlagStack;


     tools::Rectangle aBound;


     if(pHairline)

         *pHairline = tools::Rectangle();


     const sal_uLong nCount(GetActionSize());


     for(sal_uLong a(0); a < nCount; a++)

     {

         MetaAction* pAction = GetAction(a);

         const MetaActionType nActionType = pAction->GetType();

         tools::Rectangle* pUseHairline = (pHairline && aMapVDev->IsLineColor()) ? pHairline : nullptr;


         switch( nActionType )

         {

         case MetaActionType::PIXEL:

         {

             MetaPixelAction* pAct = static_cast<MetaPixelAction*>(pAction);

             ImplActionBounds( aBound,

                               tools::Rectangle( OutputDevice::LogicToLogic( pAct->GetPoint(), aMapVDev->GetMapMode(), GetPrefMapMode() ),

                                        aMapVDev->PixelToLogic( Size( 1, 1 ), GetPrefMapMode() ) ),

                              aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::POINT:

         {

             MetaPointAction* pAct = static_cast<MetaPointAction*>(pAction);

             ImplActionBounds( aBound,

                               tools::Rectangle( OutputDevice::LogicToLogic( pAct->GetPoint(), aMapVDev->GetMapMode(), GetPrefMapMode() ),

                                        aMapVDev->PixelToLogic( Size( 1, 1 ), GetPrefMapMode() ) ),

                              aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::LINE:

         {

             MetaLineAction* pAct = static_cast<MetaLineAction*>(pAction);

             Point aP1( pAct->GetStartPoint() ), aP2( pAct->GetEndPoint() );

             tools::Rectangle aRect( aP1, aP2 );

             aRect.Justify();


             if(pUseHairline)

             {

                 const LineInfo& rLineInfo = pAct->GetLineInfo();


                 if(0 != rLineInfo.GetWidth())

                     pUseHairline = nullptr;

             }


             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::RECT:

         {

             MetaRectAction* pAct = static_cast<MetaRectAction*>(pAction);

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::ROUNDRECT:

         {

             MetaRoundRectAction*    pAct = static_cast<MetaRoundRectAction*>(pAction);

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::ELLIPSE:

         {

             MetaEllipseAction*      pAct = static_cast<MetaEllipseAction*>(pAction);

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::ARC:

         {

             MetaArcAction*  pAct = static_cast<MetaArcAction*>(pAction);

             // FIXME: this is imprecise

             // e.g. for small arcs the whole rectangle is WAY too large

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::PIE:

         {

             MetaPieAction*  pAct = static_cast<MetaPieAction*>(pAction);

             // FIXME: this is imprecise

             // e.g. for small arcs the whole rectangle is WAY too large

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::CHORD:

         {

             MetaChordAction*    pAct = static_cast<MetaChordAction*>(pAction);

             // FIXME: this is imprecise

             // e.g. for small arcs the whole rectangle is WAY too large

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::POLYLINE:

         {

             MetaPolyLineAction* pAct = static_cast<MetaPolyLineAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPolygon().GetBoundRect() );


             if(pUseHairline)

             {

                 const LineInfo& rLineInfo = pAct->GetLineInfo();


                 if(0 != rLineInfo.GetWidth())

                     pUseHairline = nullptr;

             }


             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::POLYGON:

         {

             MetaPolygonAction* pAct = static_cast<MetaPolygonAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPolygon().GetBoundRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::POLYPOLYGON:

         {

             MetaPolyPolygonAction* pAct = static_cast<MetaPolyPolygonAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPolyPolygon().GetBoundRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, pUseHairline );

         }

         break;


         case MetaActionType::TEXT:

         {

             MetaTextAction* pAct = static_cast<MetaTextAction*>(pAction);

             tools::Rectangle aRect;

             // hdu said base = index

             aMapVDev->GetTextBoundRect( aRect, pAct->GetText(), pAct->GetIndex(), pAct->GetIndex(), pAct->GetLen() );

             Point aPt( pAct->GetPoint() );

             aRect.Move( aPt.X(), aPt.Y() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::TEXTARRAY:

         {

             MetaTextArrayAction* pAct = static_cast<MetaTextArrayAction*>(pAction);

             tools::Rectangle aRect;

             // hdu said base = index

             aMapVDev->GetTextBoundRect( aRect, pAct->GetText(), pAct->GetIndex(), pAct->GetIndex(), pAct->GetLen(),

                                        0, pAct->GetDXArray() );

             Point aPt( pAct->GetPoint() );

             aRect.Move( aPt.X(), aPt.Y() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::STRETCHTEXT:

         {

             MetaStretchTextAction* pAct = static_cast<MetaStretchTextAction*>(pAction);

             tools::Rectangle aRect;

             // hdu said base = index

             aMapVDev->GetTextBoundRect( aRect, pAct->GetText(), pAct->GetIndex(), pAct->GetIndex(), pAct->GetLen(),

                                        pAct->GetWidth() );

             Point aPt( pAct->GetPoint() );

             aRect.Move( aPt.X(), aPt.Y() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::TEXTLINE:

         {

             MetaTextLineAction* pAct = static_cast<MetaTextLineAction*>(pAction);

             // measure a test string to get ascend and descent right

             static constexpr OUStringLiteral pStr = u"\u00c4g";

             OUString aStr( pStr );


             tools::Rectangle aRect;

             aMapVDev->GetTextBoundRect( aRect, aStr, 0, 0, aStr.getLength() );

             Point aPt( pAct->GetStartPoint() );

             aRect.Move( aPt.X(), aPt.Y() );

             aRect.SetRight( aRect.Left() + pAct->GetWidth() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::BMPSCALE:

         {

             MetaBmpScaleAction* pAct = static_cast<MetaBmpScaleAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPoint(), pAct->GetSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::BMPSCALEPART:

         {

             MetaBmpScalePartAction* pAct = static_cast<MetaBmpScalePartAction*>(pAction);

             tools::Rectangle aRect( pAct->GetDestPoint(), pAct->GetDestSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::BMPEXSCALE:

         {

             MetaBmpExScaleAction*   pAct = static_cast<MetaBmpExScaleAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPoint(), pAct->GetSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::BMPEXSCALEPART:

         {

             MetaBmpExScalePartAction*   pAct = static_cast<MetaBmpExScalePartAction*>(pAction);

             tools::Rectangle aRect( pAct->GetDestPoint(), pAct->GetDestSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::GRADIENT:

         {

             MetaGradientAction* pAct = static_cast<MetaGradientAction*>(pAction);

             tools::Rectangle aRect( pAct->GetRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::GRADIENTEX:

         {

             MetaGradientExAction* pAct = static_cast<MetaGradientExAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPolyPolygon().GetBoundRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::COMMENT:

         {

             // nothing to do

         };

         break;


         case MetaActionType::HATCH:

         {

             MetaHatchAction*    pAct = static_cast<MetaHatchAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPolyPolygon().GetBoundRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::Transparent:

         {

             MetaTransparentAction* pAct = static_cast<MetaTransparentAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPolyPolygon().GetBoundRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::FLOATTRANSPARENT:

         {

             MetaFloatTransparentAction* pAct = static_cast<MetaFloatTransparentAction*>(pAction);

             // MetaFloatTransparentAction is defined limiting its content Metafile

             // to its geometry definition(Point, Size), so use these directly

             const tools::Rectangle aRect( pAct->GetPoint(), pAct->GetSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::EPS:

         {

             MetaEPSAction*  pAct = static_cast<MetaEPSAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPoint(), pAct->GetSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::CLIPREGION:

         {

             MetaClipRegionAction* pAct = static_cast<MetaClipRegionAction*>(pAction);

             if( pAct->IsClipping() )

                 aClipStack.back() = OutputDevice::LogicToLogic( pAct->GetRegion().GetBoundRect(), aMapVDev->GetMapMode(), GetPrefMapMode() );

             else

                 aClipStack.back() = tools::Rectangle();

         }

         break;


         case MetaActionType::ISECTRECTCLIPREGION:

         {

             MetaISectRectClipRegionAction* pAct = static_cast<MetaISectRectClipRegionAction*>(pAction);

             tools::Rectangle aRect( OutputDevice::LogicToLogic( pAct->GetRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ) );

             if( aClipStack.back().IsEmpty() )

                 aClipStack.back() = aRect;

             else

                 aClipStack.back().Intersection( aRect );

         }

         break;


         case MetaActionType::ISECTREGIONCLIPREGION:

         {

             MetaISectRegionClipRegionAction*    pAct = static_cast<MetaISectRegionClipRegionAction*>(pAction);

             tools::Rectangle aRect( OutputDevice::LogicToLogic( pAct->GetRegion().GetBoundRect(), aMapVDev->GetMapMode(), GetPrefMapMode() ) );

             if( aClipStack.back().IsEmpty() )

                 aClipStack.back() = aRect;

             else

                 aClipStack.back().Intersection( aRect );

         }

         break;


         case MetaActionType::BMP:

         {

             MetaBmpAction* pAct = static_cast<MetaBmpAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPoint(), aMapVDev->PixelToLogic( pAct->GetBitmap().GetSizePixel() ) );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::BMPEX:

         {

             MetaBmpExAction* pAct = static_cast<MetaBmpExAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPoint(), aMapVDev->PixelToLogic( pAct->GetBitmapEx().GetSizePixel() ) );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::MASK:

         {

             MetaMaskAction* pAct = static_cast<MetaMaskAction*>(pAction);

             tools::Rectangle aRect( pAct->GetPoint(), aMapVDev->PixelToLogic( pAct->GetBitmap().GetSizePixel() ) );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::MASKSCALE:

         {

             MetaMaskScalePartAction* pAct = static_cast<MetaMaskScalePartAction*>(pAction);

             tools::Rectangle aRect( pAct->GetDestPoint(), pAct->GetDestSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::MASKSCALEPART:

         {

             MetaMaskScalePartAction* pAct = static_cast<MetaMaskScalePartAction*>(pAction);

             tools::Rectangle aRect( pAct->GetDestPoint(), pAct->GetDestSize() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::WALLPAPER:

         {

             MetaWallpaperAction* pAct = static_cast<MetaWallpaperAction*>(pAction);

             tools::Rectangle aRect( pAct->GetRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::TEXTRECT:

         {

             MetaTextRectAction* pAct = static_cast<MetaTextRectAction*>(pAction);

             tools::Rectangle aRect( pAct->GetRect() );

             ImplActionBounds( aBound, OutputDevice::LogicToLogic( aRect, aMapVDev->GetMapMode(), GetPrefMapMode() ), aClipStack, nullptr );

         }

         break;


         case MetaActionType::MOVECLIPREGION:

         {

             MetaMoveClipRegionAction* pAct = static_cast<MetaMoveClipRegionAction*>(pAction);

             if( ! aClipStack.back().IsEmpty() )

             {

                 Size aDelta( pAct->GetHorzMove(), pAct->GetVertMove() );

                 aDelta = OutputDevice::LogicToLogic( aDelta, aMapVDev->GetMapMode(), GetPrefMapMode() );

                 aClipStack.back().Move( aDelta.Width(), aDelta.Width() );

             }

         }

         break;


         default:

             {

                 pAction->Execute( aMapVDev.get() );


                 if( nActionType == MetaActionType::PUSH )

                 {

                     MetaPushAction* pAct = static_cast<MetaPushAction*>(pAction);

                     aPushFlagStack.push_back( pAct->GetFlags() );

                     if( aPushFlagStack.back() & PushFlags::CLIPREGION )

                     {

                         tools::Rectangle aRect( aClipStack.back() );

                         aClipStack.push_back( aRect );

                     }

                 }

                 else if( nActionType == MetaActionType::POP )

                 {

                     // sanity check

                     if( ! aPushFlagStack.empty() )

                     {

                         if( aPushFlagStack.back() & PushFlags::CLIPREGION )

                         {

                             if( aClipStack.size() > 1 )

                                 aClipStack.pop_back();

                         }

                         aPushFlagStack.pop_back();

                     }

                 }

             }

             break;

         }

     }

     return aBound;

 }


 Color GDIMetaFile::ImplColAdjustFnc( const Color& rColor, const void* pColParam )

 {

     return Color( ColorAlpha, rColor.GetAlpha(),

                   static_cast<const ImplColAdjustParam*>(pColParam)->pMapR[ rColor.GetRed() ],

                   static_cast<const ImplColAdjustParam*>(pColParam)->pMapG[ rColor.GetGreen() ],

                   static_cast<const ImplColAdjustParam*>(pColParam)->pMapB[ rColor.GetBlue() ] );


 }


 BitmapEx GDIMetaFile::ImplBmpAdjustFnc( const BitmapEx& rBmpEx, const void* pBmpParam )

 {

     const ImplBmpAdjustParam*   p = static_cast<const ImplBmpAdjustParam*>(pBmpParam);

     BitmapEx                    aRet( rBmpEx );


     aRet.Adjust( p->nLuminancePercent, p->nContrastPercent,

                  p->nChannelRPercent, p->nChannelGPercent, p->nChannelBPercent,

                  p->fGamma, p->bInvert );


     return aRet;

 }


 Color GDIMetaFile::ImplColConvertFnc( const Color& rColor, const void* pColParam )

 {

     sal_uInt8 cLum = rColor.GetLuminance();


     if( MtfConversion::N1BitThreshold == static_cast<const ImplColConvertParam*>(pColParam)->eConversion )

         cLum = ( cLum < 128 ) ? 0 : 255;


     return Color( ColorTransparency, 255 - rColor.GetAlpha(), cLum, cLum, cLum );

 }


 BitmapEx GDIMetaFile::ImplBmpConvertFnc( const BitmapEx& rBmpEx, const void* pBmpParam )

 {

     BitmapEx aRet( rBmpEx );


     aRet.Convert( static_cast<const ImplBmpConvertParam*>(pBmpParam)->eConversion );


     return aRet;

 }


 Color GDIMetaFile::ImplColMonoFnc( const Color&, const void* pColParam )

 {

     return static_cast<const ImplColMonoParam*>(pColParam)->aColor;

 }


 BitmapEx GDIMetaFile::ImplBmpMonoFnc( const BitmapEx& rBmpEx, const void* pBmpParam )

 {

     BitmapPalette aPal( 3 );

     aPal[ 0 ] = COL_BLACK;

     aPal[ 1 ] = COL_WHITE;

     aPal[ 2 ] = static_cast<const ImplBmpMonoParam*>(pBmpParam)->aColor;


     Bitmap aBmp(rBmpEx.GetSizePixel(), vcl::PixelFormat::N8_BPP, &aPal);

     aBmp.Erase( static_cast<const ImplBmpMonoParam*>(pBmpParam)->aColor );


     if( rBmpEx.IsAlpha() )

         return BitmapEx( aBmp, rBmpEx.GetAlpha() );

     else

         return BitmapEx( aBmp );

 }


 Color GDIMetaFile::ImplColReplaceFnc( const Color& rColor, const void* pColParam )

 {

     const sal_uLong nR = rColor.GetRed(), nG = rColor.GetGreen(), nB = rColor.GetBlue();


     for( sal_uLong i = 0; i < static_cast<const ImplColReplaceParam*>(pColParam)->nCount; i++ )

     {

         if( ( static_cast<const ImplColReplaceParam*>(pColParam)->pMinR[ i ] <= nR ) &&

             ( static_cast<const ImplColReplaceParam*>(pColParam)->pMaxR[ i ] >= nR ) &&

             ( static_cast<const ImplColReplaceParam*>(pColParam)->pMinG[ i ] <= nG ) &&

             ( static_cast<const ImplColReplaceParam*>(pColParam)->pMaxG[ i ] >= nG ) &&

             ( static_cast<const ImplColReplaceParam*>(pColParam)->pMinB[ i ] <= nB ) &&

             ( static_cast<const ImplColReplaceParam*>(pColParam)->pMaxB[ i ] >= nB ) )

         {

             return static_cast<const ImplColReplaceParam*>(pColParam)->pDstCols[ i ];

         }

     }


     return rColor;

 }


 BitmapEx GDIMetaFile::ImplBmpReplaceFnc( const BitmapEx& rBmpEx, const void* pBmpParam )

 {

     const ImplBmpReplaceParam*  p = static_cast<const ImplBmpReplaceParam*>(pBmpParam);

     BitmapEx                    aRet( rBmpEx );


     aRet.Replace( p->pSrcCols, p->pDstCols, p->nCount );


     return aRet;

 }


 void GDIMetaFile::ImplExchangeColors( ColorExchangeFnc pFncCol, const void* pColParam,

                                       BmpExchangeFnc pFncBmp, const void* pBmpParam )

 {

     GDIMetaFile aMtf;


     aMtf.m_aPrefSize = m_aPrefSize;

     aMtf.m_aPrefMapMode = m_aPrefMapMode;

     aMtf.m_bUseCanvas = m_bUseCanvas;


     for( MetaAction* pAction = FirstAction(); pAction; pAction = NextAction() )

     {

         const MetaActionType nType = pAction->GetType();


         switch( nType )

         {

             case MetaActionType::PIXEL:

             {

                 MetaPixelAction* pAct = static_cast<MetaPixelAction*>(pAction);

                 aMtf.push_back( new MetaPixelAction( pAct->GetPoint(), pFncCol( pAct->GetColor(), pColParam ) ) );

             }

             break;


             case MetaActionType::LINECOLOR:

             {

                 MetaLineColorAction* pAct = static_cast<MetaLineColorAction*>(pAction);


                 if( pAct->IsSetting() )

                     pAct = new MetaLineColorAction( pFncCol( pAct->GetColor(), pColParam ), true );


                 aMtf.push_back( pAct );

             }

             break;


             case MetaActionType::FILLCOLOR:

             {

                 MetaFillColorAction* pAct = static_cast<MetaFillColorAction*>(pAction);


                 if( pAct->IsSetting() )

                     pAct = new MetaFillColorAction( pFncCol( pAct->GetColor(), pColParam ), true );


                 aMtf.push_back( pAct );

             }

             break;


             case MetaActionType::TEXTCOLOR:

             {

                 MetaTextColorAction* pAct = static_cast<MetaTextColorAction*>(pAction);

                 aMtf.push_back( new MetaTextColorAction( pFncCol( pAct->GetColor(), pColParam ) ) );

             }

             break;


             case MetaActionType::TEXTFILLCOLOR:

             {

                 MetaTextFillColorAction* pAct = static_cast<MetaTextFillColorAction*>(pAction);


                 if( pAct->IsSetting() )

                     pAct = new MetaTextFillColorAction( pFncCol( pAct->GetColor(), pColParam ), true );


                 aMtf.push_back( pAct );

             }

             break;


             case MetaActionType::TEXTLINECOLOR:

             {

                 MetaTextLineColorAction* pAct = static_cast<MetaTextLineColorAction*>(pAction);


                 if( pAct->IsSetting() )

                     pAct = new MetaTextLineColorAction( pFncCol( pAct->GetColor(), pColParam ), true );


                 aMtf.push_back( pAct );

             }

             break;


             case MetaActionType::OVERLINECOLOR:

             {

                 MetaOverlineColorAction* pAct = static_cast<MetaOverlineColorAction*>(pAction);


                 if( pAct->IsSetting() )

                     pAct = new MetaOverlineColorAction( pFncCol( pAct->GetColor(), pColParam ), true );


                 aMtf.push_back( pAct );

             }

             break;


             case MetaActionType::FONT:

             {

                 MetaFontAction* pAct = static_cast<MetaFontAction*>(pAction);

                 vcl::Font       aFont( pAct->GetFont() );


                 aFont.SetColor( pFncCol( aFont.GetColor(), pColParam ) );

                 aFont.SetFillColor( pFncCol( aFont.GetFillColor(), pColParam ) );

                 aMtf.push_back( new MetaFontAction( aFont ) );

             }

             break;


             case MetaActionType::WALLPAPER:

             {

                 MetaWallpaperAction*    pAct = static_cast<MetaWallpaperAction*>(pAction);

                 Wallpaper               aWall( pAct->GetWallpaper() );

                 const tools::Rectangle&        rRect = pAct->GetRect();


                 aWall.SetColor( pFncCol( aWall.GetColor(), pColParam ) );


                 if( aWall.IsBitmap() )

                     aWall.SetBitmap( pFncBmp( aWall.GetBitmap(), pBmpParam ) );


                 if( aWall.IsGradient() )

                 {

                     Gradient aGradient( aWall.GetGradient() );


                     aGradient.SetStartColor( pFncCol( aGradient.GetStartColor(), pColParam ) );

                     aGradient.SetEndColor( pFncCol( aGradient.GetEndColor(), pColParam ) );

                     aWall.SetGradient( aGradient );

                 }


                 aMtf.push_back( new MetaWallpaperAction( rRect, aWall ) );

             }

             break;


             case MetaActionType::BMP:

             case MetaActionType::BMPEX:

             case MetaActionType::MASK:

             {

                 OSL_FAIL( "Don't use bitmap actions of this type in metafiles!" );

             }

             break;


             case MetaActionType::BMPSCALE:

             {

                 MetaBmpScaleAction* pAct = static_cast<MetaBmpScaleAction*>(pAction);

                 aMtf.push_back( new MetaBmpScaleAction( pAct->GetPoint(), pAct->GetSize(),

                                     pFncBmp( BitmapEx(pAct->GetBitmap()), pBmpParam ).GetBitmap() ) );

             }

             break;


             case MetaActionType::BMPSCALEPART:

             {

                 MetaBmpScalePartAction* pAct = static_cast<MetaBmpScalePartAction*>(pAction);

                 aMtf.push_back( new MetaBmpScalePartAction( pAct->GetDestPoint(), pAct->GetDestSize(),

                                                     pAct->GetSrcPoint(), pAct->GetSrcSize(),

                                                     pFncBmp( BitmapEx(pAct->GetBitmap()), pBmpParam ).GetBitmap() )

                                                 );

             }

             break;


             case MetaActionType::BMPEXSCALE:

             {

                 MetaBmpExScaleAction* pAct = static_cast<MetaBmpExScaleAction*>(pAction);

                 aMtf.push_back( new MetaBmpExScaleAction( pAct->GetPoint(), pAct->GetSize(),

                                                           pFncBmp( pAct->GetBitmapEx(), pBmpParam ) )

                                                         );

             }

             break;


             case MetaActionType::BMPEXSCALEPART:

             {

                 MetaBmpExScalePartAction* pAct = static_cast<MetaBmpExScalePartAction*>(pAction);

                 aMtf.push_back( new MetaBmpExScalePartAction( pAct->GetDestPoint(), pAct->GetDestSize(),

                                                               pAct->GetSrcPoint(), pAct->GetSrcSize(),

                                                               pFncBmp( pAct->GetBitmapEx(), pBmpParam ) )

                                                             );

             }

             break;


             case MetaActionType::MASKSCALE:

             {

                 MetaMaskScaleAction* pAct = static_cast<MetaMaskScaleAction*>(pAction);

                 aMtf.push_back( new MetaMaskScaleAction( pAct->GetPoint(), pAct->GetSize(),

                                                          pAct->GetBitmap(),

                                                          pFncCol( pAct->GetColor(), pColParam ) )

                                                        );

             }

             break;


             case MetaActionType::MASKSCALEPART:

             {

                 MetaMaskScalePartAction* pAct = static_cast<MetaMaskScalePartAction*>(pAction);

                 aMtf.push_back( new MetaMaskScalePartAction( pAct->GetDestPoint(), pAct->GetDestSize(),

                                                              pAct->GetSrcPoint(), pAct->GetSrcSize(),

                                                              pAct->GetBitmap(),

                                                              pFncCol( pAct->GetColor(), pColParam ) )

                                                            );

             }

             break;


             case MetaActionType::GRADIENT:

             {

                 MetaGradientAction* pAct = static_cast<MetaGradientAction*>(pAction);

                 Gradient            aGradient( pAct->GetGradient() );


                 aGradient.SetStartColor( pFncCol( aGradient.GetStartColor(), pColParam ) );

                 aGradient.SetEndColor( pFncCol( aGradient.GetEndColor(), pColParam ) );

                 aMtf.push_back( new MetaGradientAction( pAct->GetRect(), aGradient ) );

             }

             break;


             case MetaActionType::GRADIENTEX:

             {

                 MetaGradientExAction* pAct = static_cast<MetaGradientExAction*>(pAction);

                 Gradient              aGradient( pAct->GetGradient() );


                 aGradient.SetStartColor( pFncCol( aGradient.GetStartColor(), pColParam ) );

                 aGradient.SetEndColor( pFncCol( aGradient.GetEndColor(), pColParam ) );

                 aMtf.push_back( new MetaGradientExAction( pAct->GetPolyPolygon(), aGradient ) );

             }

             break;


             case MetaActionType::HATCH:

             {

                 MetaHatchAction*    pAct = static_cast<MetaHatchAction*>(pAction);

                 Hatch               aHatch( pAct->GetHatch() );


                 aHatch.SetColor( pFncCol( aHatch.GetColor(), pColParam ) );

                 aMtf.push_back( new MetaHatchAction( pAct->GetPolyPolygon(), aHatch ) );

             }

             break;


             case MetaActionType::FLOATTRANSPARENT:

             {

                 MetaFloatTransparentAction* pAct = static_cast<MetaFloatTransparentAction*>(pAction);

                 GDIMetaFile                 aTransMtf( pAct->GetGDIMetaFile() );


                 aTransMtf.ImplExchangeColors( pFncCol, pColParam, pFncBmp, pBmpParam );

                 aMtf.push_back( new MetaFloatTransparentAction( aTransMtf,

                                                                 pAct->GetPoint(), pAct->GetSize(),

                                                                 pAct->GetGradient() )

                                                               );

             }

             break;


             case MetaActionType::EPS:

             {

                 MetaEPSAction*  pAct = static_cast<MetaEPSAction*>(pAction);

                 GDIMetaFile     aSubst( pAct->GetSubstitute() );


                 aSubst.ImplExchangeColors( pFncCol, pColParam, pFncBmp, pBmpParam );

                 aMtf.push_back( new MetaEPSAction( pAct->GetPoint(), pAct->GetSize(),

                                                    pAct->GetLink(), aSubst )

                                                  );

             }

             break;


             default:

             {

                 aMtf.push_back( pAction );

             }

             break;

         }

     }


     *this = aMtf;

 }


 void GDIMetaFile::Adjust( short nLuminancePercent, short nContrastPercent,

                           short nChannelRPercent, short nChannelGPercent,

                           short nChannelBPercent, double fGamma, bool bInvert, bool msoBrightness )

 {

     // nothing to do? => return quickly

     if( !(nLuminancePercent || nContrastPercent ||

           nChannelRPercent || nChannelGPercent || nChannelBPercent ||

           ( fGamma != 1.0 ) || bInvert) )

         return;


     double              fM, fROff, fGOff, fBOff, fOff;

     ImplColAdjustParam  aColParam;

     ImplBmpAdjustParam  aBmpParam;


     aColParam.pMapR.reset(new sal_uInt8[ 256 ]);

     aColParam.pMapG.reset(new sal_uInt8[ 256 ]);

     aColParam.pMapB.reset(new sal_uInt8[ 256 ]);


     // calculate slope

     if( nContrastPercent >= 0 )

         fM = 128.0 / ( 128.0 - 1.27 * MinMax( nContrastPercent, 0, 100 ) );

     else

         fM = ( 128.0 + 1.27 * MinMax( nContrastPercent, -100, 0 ) ) / 128.0;


     if(!msoBrightness)

         // total offset = luminance offset + contrast offset

         fOff = MinMax( nLuminancePercent, -100, 100 ) * 2.55 + 128.0 - fM * 128.0;

     else

         fOff = MinMax( nLuminancePercent, -100, 100 ) * 2.55;


     // channel offset = channel offset  + total offset

     fROff = nChannelRPercent * 2.55 + fOff;

     fGOff = nChannelGPercent * 2.55 + fOff;

     fBOff = nChannelBPercent * 2.55 + fOff;


     // calculate gamma value

     fGamma = ( fGamma <= 0.0 || fGamma > 10.0 ) ? 1.0 : ( 1.0 / fGamma );

     const bool bGamma = ( fGamma != 1.0 );


     // create mapping table

     for( tools::Long nX = 0; nX < 256; nX++ )

     {

         if(!msoBrightness)

         {

             aColParam.pMapR[ nX ] = static_cast<sal_uInt8>(MinMax( FRound( nX * fM + fROff ), 0, 255 ));

             aColParam.pMapG[ nX ] = static_cast<sal_uInt8>(MinMax( FRound( nX * fM + fGOff ), 0, 255 ));

             aColParam.pMapB[ nX ] = static_cast<sal_uInt8>(MinMax( FRound( nX * fM + fBOff ), 0, 255 ));

         }

         else

         {

             aColParam.pMapR[ nX ] = static_cast<sal_uInt8>(MinMax( FRound( (nX+fROff/2-128) * fM + 128 + fROff/2 ), 0, 255 ));

             aColParam.pMapG[ nX ] = static_cast<sal_uInt8>(MinMax( FRound( (nX+fGOff/2-128) * fM + 128 + fGOff/2 ), 0, 255 ));

             aColParam.pMapB[ nX ] = static_cast<sal_uInt8>(MinMax( FRound( (nX+fBOff/2-128) * fM + 128 + fBOff/2 ), 0, 255 ));

         }

         if( bGamma )

         {

             aColParam.pMapR[ nX ] = GAMMA( aColParam.pMapR[ nX ], fGamma );

             aColParam.pMapG[ nX ] = GAMMA( aColParam.pMapG[ nX ], fGamma );

             aColParam.pMapB[ nX ] = GAMMA( aColParam.pMapB[ nX ], fGamma );

         }


         if( bInvert )

         {

             aColParam.pMapR[ nX ] = ~aColParam.pMapR[ nX ];

             aColParam.pMapG[ nX ] = ~aColParam.pMapG[ nX ];

             aColParam.pMapB[ nX ] = ~aColParam.pMapB[ nX ];

         }

     }


     aBmpParam.nLuminancePercent = nLuminancePercent;

     aBmpParam.nContrastPercent = nContrastPercent;

     aBmpParam.nChannelRPercent = nChannelRPercent;

     aBmpParam.nChannelGPercent = nChannelGPercent;

     aBmpParam.nChannelBPercent = nChannelBPercent;

     aBmpParam.fGamma = fGamma;

     aBmpParam.bInvert = bInvert;


     // do color adjustment

     ImplExchangeColors( ImplColAdjustFnc, &aColParam, ImplBmpAdjustFnc, &aBmpParam );

 }


 void GDIMetaFile::Convert( MtfConversion eConversion )

 {

     ImplColConvertParam aColParam;

     ImplBmpConvertParam aBmpParam;


     aColParam.eConversion = eConversion;

     aBmpParam.eConversion = ( MtfConversion::N1BitThreshold == eConversion ) ? BmpConversion::N1BitThreshold : BmpConversion::N8BitGreys;


     ImplExchangeColors( ImplColConvertFnc, &aColParam, ImplBmpConvertFnc, &aBmpParam );

 }


 void GDIMetaFile::ReplaceColors( const Color* pSearchColors, const Color* pReplaceColors, sal_uLong nColorCount )

 {

     ImplColReplaceParam aColParam;

     ImplBmpReplaceParam aBmpParam;


     aColParam.pMinR.reset(new sal_uLong[ nColorCount ]);

     aColParam.pMaxR.reset(new sal_uLong[ nColorCount ]);

     aColParam.pMinG.reset(new sal_uLong[ nColorCount ]);

     aColParam.pMaxG.reset(new sal_uLong[ nColorCount ]);

     aColParam.pMinB.reset(new sal_uLong[ nColorCount ]);

     aColParam.pMaxB.reset(new sal_uLong[ nColorCount ]);


     for( sal_uLong i = 0; i < nColorCount; i++ )

     {

         tools::Long        nVal;


         nVal = pSearchColors[ i ].GetRed();

         aColParam.pMinR[ i ] = static_cast<sal_uLong>(std::max( nVal, tools::Long(0) ));

         aColParam.pMaxR[ i ] = static_cast<sal_uLong>(std::min( nVal, tools::Long(255) ));


         nVal = pSearchColors[ i ].GetGreen();

         aColParam.pMinG[ i ] = static_cast<sal_uLong>(std::max( nVal, tools::Long(0) ));

         aColParam.pMaxG[ i ] = static_cast<sal_uLong>(std::min( nVal, tools::Long(255) ));


         nVal = pSearchColors[ i ].GetBlue();

         aColParam.pMinB[ i ] = static_cast<sal_uLong>(std::max( nVal, tools::Long(0) ));

         aColParam.pMaxB[ i ] = static_cast<sal_uLong>(std::min( nVal, tools::Long(255) ));

     }


     aColParam.pDstCols = pReplaceColors;

     aColParam.nCount = nColorCount;


     aBmpParam.pSrcCols = pSearchColors;

     aBmpParam.pDstCols = pReplaceColors;

     aBmpParam.nCount = nColorCount;


     ImplExchangeColors( ImplColReplaceFnc, &aColParam, ImplBmpReplaceFnc, &aBmpParam );

 };


 GDIMetaFile GDIMetaFile::GetMonochromeMtf( const Color& rColor ) const

 {

     GDIMetaFile aRet( *this );


     ImplColMonoParam    aColParam;

     ImplBmpMonoParam    aBmpParam;


     aColParam.aColor = rColor;

     aBmpParam.aColor = rColor;


     aRet.ImplExchangeColors( ImplColMonoFnc, &aColParam, ImplBmpMonoFnc, &aBmpParam );


     return aRet;

 }


 BitmapChecksum GDIMetaFile::GetChecksum() const

 {

     SvMemoryStream              aMemStm( 65535, 65535 );

     ImplMetaWriteData           aWriteData;

     SVBT16                      aBT16;

     SVBT32                      aBT32;

     BitmapChecksumOctetArray    aBCOA;

     BitmapChecksum              nCrc = 0;


     aWriteData.meActualCharSet = aMemStm.GetStreamCharSet();

     for( size_t i = 0, nObjCount = GetActionSize(); i < nObjCount; i++ )

     {

         MetaAction* pAction = GetAction( i );


         switch( pAction->GetType() )

         {

             case MetaActionType::BMP:

             {

                 MetaBmpAction* pAct = static_cast<MetaBmpAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmap().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 Int32ToSVBT32( pAct->GetPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::BMPSCALE:

             {

                 MetaBmpScaleAction* pAct = static_cast<MetaBmpScaleAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmap().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 Int32ToSVBT32( pAct->GetPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::BMPSCALEPART:

             {

                 MetaBmpScalePartAction* pAct = static_cast<MetaBmpScalePartAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmap().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 Int32ToSVBT32( pAct->GetDestPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::BMPEX:

             {

                 MetaBmpExAction* pAct = static_cast<MetaBmpExAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmapEx().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 Int32ToSVBT32( pAct->GetPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::BMPEXSCALE:

             {

                 MetaBmpExScaleAction* pAct = static_cast<MetaBmpExScaleAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmapEx().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 Int32ToSVBT32( pAct->GetPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::BMPEXSCALEPART:

             {

                 MetaBmpExScalePartAction* pAct = static_cast<MetaBmpExScalePartAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmapEx().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 Int32ToSVBT32( pAct->GetDestPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::MASK:

             {

                 MetaMaskAction* pAct = static_cast<MetaMaskAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmap().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 UInt32ToSVBT32( sal_uInt32(pAct->GetColor()), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::MASKSCALE:

             {

                 MetaMaskScaleAction* pAct = static_cast<MetaMaskScaleAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmap().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 UInt32ToSVBT32( sal_uInt32(pAct->GetColor()), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::MASKSCALEPART:

             {

                 MetaMaskScalePartAction* pAct = static_cast<MetaMaskScalePartAction*>(pAction);


                 ShortToSVBT16( static_cast<sal_uInt16>(pAct->GetType()), aBT16 );

                 nCrc = vcl_get_checksum( nCrc, aBT16, 2 );


                 BCToBCOA( pAct->GetBitmap().GetChecksum(), aBCOA );

                 nCrc = vcl_get_checksum( nCrc, aBCOA, BITMAP_CHECKSUM_SIZE );


                 UInt32ToSVBT32( sal_uInt32(pAct->GetColor()), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetDestSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcPoint().X(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcPoint().Y(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcSize().Width(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );


                 Int32ToSVBT32( pAct->GetSrcSize().Height(), aBT32 );

                 nCrc = vcl_get_checksum( nCrc, aBT32, 4 );

             }

             break;


             case MetaActionType::EPS :

             {

                 MetaEPSAction* pAct = static_cast<MetaEPSAction*>(pAction);

                 nCrc = vcl_get_checksum( nCrc, pAct->GetLink().GetData(), pAct->GetLink().GetDataSize() );

             }

             break;


             case MetaActionType::CLIPREGION :

             {

                 MetaClipRegionAction& rAct = static_cast<MetaClipRegionAction&>(*pAction);

                 const vcl::Region& rRegion = rAct.GetRegion();


                 if(rRegion.HasPolyPolygonOrB2DPolyPolygon())

                 {

                     // It has shown that this is a possible bottleneck for checksum calculation.

                     // In worst case a very expensive RegionHandle representation gets created.

                     // In this case it's cheaper to use the PolyPolygon

                     const basegfx::B2DPolyPolygon aPolyPolygon(rRegion.GetAsB2DPolyPolygon());

                     SVBT64 aSVBT64;


                     for(auto const& rPolygon : aPolyPolygon)

                     {

                         const sal_uInt32 nPointCount(rPolygon.count());

                         const bool bControl(rPolygon.areControlPointsUsed());


                         for(sal_uInt32 b(0); b < nPointCount; b++)

                         {

                             const basegfx::B2DPoint aPoint(rPolygon.getB2DPoint(b));


                             DoubleToSVBT64(aPoint.getX(), aSVBT64);

                             nCrc = vcl_get_checksum(nCrc, aSVBT64, 8);

                             DoubleToSVBT64(aPoint.getY(), aSVBT64);

                             nCrc = vcl_get_checksum(nCrc, aSVBT64, 8);


                             if(bControl)

                             {

                                 if(rPolygon.isPrevControlPointUsed(b))

                                 {

                                     const basegfx::B2DPoint aCtrl(rPolygon.getPrevControlPoint(b));


                                     DoubleToSVBT64(aCtrl.getX(), aSVBT64);

                                     nCrc = vcl_get_checksum(nCrc, aSVBT64, 8);

                                     DoubleToSVBT64(aCtrl.getY(), aSVBT64);

                                     nCrc = vcl_get_checksum(nCrc, aSVBT64, 8);

                                 }


                                 if(rPolygon.isNextControlPointUsed(b))

                                 {

                                     const basegfx::B2DPoint aCtrl(rPolygon.getNextControlPoint(b));


                                     DoubleToSVBT64(aCtrl.getX(), aSVBT64);

                                     nCrc = vcl_get_checksum(nCrc, aSVBT64, 8);

                                     DoubleToSVBT64(aCtrl.getY(), aSVBT64);

                                     nCrc = vcl_get_checksum(nCrc, aSVBT64, 8);

                                 }

                             }

                         }

                     }


                     sal_uInt8 tmp = static_cast<sal_uInt8>(rAct.IsClipping());

                     nCrc = vcl_get_checksum(nCrc, &tmp, 1);

                 }

                 else

                 {

                     pAction->Write( aMemStm, &aWriteData );

                     nCrc = vcl_get_checksum( nCrc, aMemStm.GetData(), aMemStm.Tell() );

                     aMemStm.Seek( 0 );

                 }

             }

             break;


             default:

             {

                 pAction->Write( aMemStm, &aWriteData );

                 nCrc = vcl_get_checksum( nCrc, aMemStm.GetData(), aMemStm.Tell() );

                 aMemStm.Seek( 0 );

             }

             break;

         }

     }


     return nCrc;

 }


 sal_uLong GDIMetaFile::GetSizeBytes() const

 {

     sal_uLong nSizeBytes = 0;


     for( size_t i = 0, nObjCount = GetActionSize(); i < nObjCount; ++i )

     {

         MetaAction* pAction = GetAction( i );


         // default action size is set to 32 (=> not the exact value)

         nSizeBytes += 32;


         // add sizes for large action content

         switch( pAction->GetType() )

         {

             case MetaActionType::BMP:            nSizeBytes += static_cast<MetaBmpAction*>( pAction )->GetBitmap().GetSizeBytes(); break;

             case MetaActionType::BMPSCALE:       nSizeBytes += static_cast<MetaBmpScaleAction*>( pAction )->GetBitmap().GetSizeBytes(); break;

             case MetaActionType::BMPSCALEPART:   nSizeBytes += static_cast<MetaBmpScalePartAction*>( pAction )->GetBitmap().GetSizeBytes(); break;


             case MetaActionType::BMPEX:          nSizeBytes += static_cast<MetaBmpExAction*>( pAction )->GetBitmapEx().GetSizeBytes(); break;

             case MetaActionType::BMPEXSCALE:     nSizeBytes += static_cast<MetaBmpExScaleAction*>( pAction )->GetBitmapEx().GetSizeBytes(); break;

             case MetaActionType::BMPEXSCALEPART: nSizeBytes += static_cast<MetaBmpExScalePartAction*>( pAction )->GetBitmapEx().GetSizeBytes(); break;


             case MetaActionType::MASK:           nSizeBytes += static_cast<MetaMaskAction*>( pAction )->GetBitmap().GetSizeBytes(); break;

             case MetaActionType::MASKSCALE:      nSizeBytes += static_cast<MetaMaskScaleAction*>( pAction )->GetBitmap().GetSizeBytes(); break;

             case MetaActionType::MASKSCALEPART:  nSizeBytes += static_cast<MetaMaskScalePartAction*>( pAction )->GetBitmap().GetSizeBytes(); break;


             case MetaActionType::POLYLINE:       nSizeBytes += static_cast<MetaPolyLineAction*>( pAction )->GetPolygon().GetSize() * sizeof( Point ); break;

             case MetaActionType::POLYGON:        nSizeBytes += static_cast<MetaPolygonAction*>( pAction )->GetPolygon().GetSize() * sizeof( Point ); break;

             case MetaActionType::POLYPOLYGON:

             {

                 const tools::PolyPolygon& rPolyPoly = static_cast<MetaPolyPolygonAction*>( pAction )->GetPolyPolygon();


                 for( sal_uInt16 n = 0; n < rPolyPoly.Count(); ++n )

                     nSizeBytes += ( rPolyPoly[ n ].GetSize() * sizeof( Point ) );

             }

             break;


             case MetaActionType::TEXT:        nSizeBytes += static_cast<MetaTextAction*>( pAction )->GetText().getLength() * sizeof( sal_Unicode ); break;

             case MetaActionType::STRETCHTEXT: nSizeBytes += static_cast<MetaStretchTextAction*>( pAction )->GetText().getLength() * sizeof( sal_Unicode ); break;

             case MetaActionType::TEXTRECT:    nSizeBytes += static_cast<MetaTextRectAction*>( pAction )->GetText().getLength() * sizeof( sal_Unicode ); break;

             case MetaActionType::TEXTARRAY:

             {

                 MetaTextArrayAction* pTextArrayAction = static_cast<MetaTextArrayAction*>(pAction);


                 nSizeBytes += ( pTextArrayAction->GetText().getLength() * sizeof( sal_Unicode ) );


                 if( pTextArrayAction->GetDXArray() )

                     nSizeBytes += ( pTextArrayAction->GetLen() << 2 );

             }

             break;

             default: break;

         }

     }


     return nSizeBytes;

 }


 namespace

 {

     class DepthGuard

     {

     private:

         ImplMetaReadData& m_rData;

         rtl_TextEncoding m_eOrigCharSet;

     public:

         DepthGuard(ImplMetaReadData& rData, SvStream const & rIStm)

             : m_rData(rData)

             , m_eOrigCharSet(m_rData.meActualCharSet)

         {

             ++m_rData.mnParseDepth;

             m_rData.meActualCharSet = rIStm.GetStreamCharSet();

         }

         bool TooDeep() const { return m_rData.mnParseDepth > 1024; }

         ~DepthGuard()

         {

             --m_rData.mnParseDepth;

             m_rData.meActualCharSet = m_eOrigCharSet;

         }

     };

 }


 SvStream& ReadGDIMetaFile(SvStream& rIStm, GDIMetaFile& rGDIMetaFile, ImplMetaReadData* pData)

 {

     if (rIStm.GetError())

     {

         SAL_WARN("vcl.gdi", "Stream error: " << rIStm.GetError());

         return rIStm;

     }


     sal_uLong      nStmPos = rIStm.Tell();

     SvStreamEndian nOldFormat = rIStm.GetEndian();


     rIStm.SetEndian( SvStreamEndian::LITTLE );


     try

     {

         char aId[7];

         aId[0] = 0;

         aId[6] = 0;

         rIStm.ReadBytes( aId, 6 );


         if ( !strcmp( aId, "VCLMTF" ) )

         {

             // new format

             sal_uInt32     nStmCompressMode = 0;

             sal_uInt32     nCount = 0;

             std::unique_ptr<VersionCompatRead> pCompat(new VersionCompatRead(rIStm));


             rIStm.ReadUInt32( nStmCompressMode );

             TypeSerializer aSerializer(rIStm);

             aSerializer.readMapMode(rGDIMetaFile.m_aPrefMapMode);

             aSerializer.readSize(rGDIMetaFile.m_aPrefSize);

             rIStm.ReadUInt32( nCount );


             pCompat.reset(); // destructor writes stuff into the header


             std::unique_ptr<ImplMetaReadData> xReadData;

             if (!pData)

             {

                 xReadData.reset(new ImplMetaReadData);

                 pData = xReadData.get();

             }

             DepthGuard aDepthGuard(*pData, rIStm);


             if (aDepthGuard.TooDeep())

                 throw std::runtime_error("too much recursion");


             for( sal_uInt32 nAction = 0; ( nAction < nCount ) && !rIStm.eof(); nAction++ )

             {

                 rtl::Reference<MetaAction> pAction = MetaAction::ReadMetaAction(rIStm, pData);

                 if( pAction )

                 {

                     if (pAction->GetType() == MetaActionType::COMMENT)

                     {

                         MetaCommentAction* pCommentAct = static_cast<MetaCommentAction*>(pAction.get());

                         if ( pCommentAct->GetComment() == "EMF_PLUS" )

                             rGDIMetaFile.UseCanvas( true );

                     }

                     rGDIMetaFile.AddAction( pAction );

                 }

             }

         }

         else

         {

             rIStm.Seek( nStmPos );

             SVMConverter( rIStm, rGDIMetaFile );

         }

     }

     catch (...)

     {

         SAL_WARN("vcl", "GDIMetaFile exception during load");

         rIStm.SetError(SVSTREAM_FILEFORMAT_ERROR);

     };


     // check for errors

     if( rIStm.GetError() )

     {

         rGDIMetaFile.Clear();

         rIStm.Seek( nStmPos );

     }


     rIStm.SetEndian( nOldFormat );

     return rIStm;

 }


 SvStream& WriteGDIMetaFile( SvStream& rOStm, const GDIMetaFile& rGDIMetaFile )

 {

     if( !rOStm.GetError() )

     {

         const_cast< GDIMetaFile& >( rGDIMetaFile ).Write( rOStm );

     }

     return rOStm;

 }


 SvStream& GDIMetaFile::Read( SvStream& rIStm )

 {

     Clear();

     ReadGDIMetaFile( rIStm, *this );


     return rIStm;

 }


 SvStream& GDIMetaFile::Write( SvStream& rOStm )

 {

     const SvStreamCompressFlags nStmCompressMode = rOStm.GetCompressMode();

     SvStreamEndian   nOldFormat = rOStm.GetEndian();


     rOStm.SetEndian( SvStreamEndian::LITTLE );

     rOStm.WriteBytes( "VCLMTF", 6 );


     {

         VersionCompatWrite aCompat(rOStm, 1);


         rOStm.WriteUInt32(static_cast<sal_uInt32>(nStmCompressMode));

         TypeSerializer aSerializer(rOStm);

         aSerializer.writeMapMode(m_aPrefMapMode);

         aSerializer.writeSize(m_aPrefSize);

         rOStm.WriteUInt32(GetActionSize());

     } // VersionCompatWrite dtor writes stuff into the header


     ImplMetaWriteData aWriteData;


     aWriteData.meActualCharSet = rOStm.GetStreamCharSet();


     MetaAction* pAct = FirstAction();

     while ( pAct )

     {

         pAct->Write( rOStm, &aWriteData );

         pAct = NextAction();

     }


     rOStm.SetEndian( nOldFormat );


     return rOStm;

 }


 bool GDIMetaFile::CreateThumbnail(BitmapEx& rBitmapEx, BmpConversion eColorConversion, BmpScaleFlag nScaleFlag) const

 {

     // initialization seems to be complicated but is used to avoid rounding errors

     ScopedVclPtrInstance< VirtualDevice > aVDev;

     // set Enable to tease the rendering down the code paths which use B2DPolygon and

     // avoid integer overflows on scaling tools::Polygon, e.g. moz1545040-1.svg

     // note: this is similar to DocumentToGraphicRenderer::renderToGraphic

     aVDev->SetAntialiasing(AntialiasingFlags::Enable | aVDev->GetAntialiasing());

     const Point     aNullPt;

     const Point     aTLPix( aVDev->LogicToPixel( aNullPt, GetPrefMapMode() ) );

     const Point     aBRPix( aVDev->LogicToPixel( Point( GetPrefSize().Width() - 1, GetPrefSize().Height() - 1 ), GetPrefMapMode() ) );

     Size            aDrawSize( aVDev->LogicToPixel( GetPrefSize(), GetPrefMapMode() ) );

     Size            aSizePix( std::abs( aBRPix.X() - aTLPix.X() ) + 1, std::abs( aBRPix.Y() - aTLPix.Y() ) + 1 );

     sal_uInt32      nMaximumExtent = 256;


     if (!rBitmapEx.IsEmpty())

         rBitmapEx.SetEmpty();


     // determine size that has the same aspect ratio as image size and

     // fits into the rectangle determined by nMaximumExtent

     if ( aSizePix.Width() && aSizePix.Height()

       && ( sal::static_int_cast< tools::ULong >(aSizePix.Width()) >

                nMaximumExtent ||

            sal::static_int_cast< tools::ULong >(aSizePix.Height()) >

                nMaximumExtent ) )

     {

         const Size  aOldSizePix( aSizePix );

         double      fWH = static_cast< double >( aSizePix.Width() ) / aSizePix.Height();


         if ( fWH <= 1.0 )

         {

             aSizePix.setWidth( FRound( nMaximumExtent * fWH ) );

             aSizePix.setHeight( nMaximumExtent );

         }

         else

         {

             aSizePix.setWidth( nMaximumExtent );

             aSizePix.setHeight( FRound(  nMaximumExtent / fWH ) );

         }


         aDrawSize.setWidth( FRound( ( static_cast< double >( aDrawSize.Width() ) * aSizePix.Width() ) / aOldSizePix.Width() ) );

         aDrawSize.setHeight( FRound( ( static_cast< double >( aDrawSize.Height() ) * aSizePix.Height() ) / aOldSizePix.Height() ) );

     }


     // draw image(s) into VDev and get resulting image

     // do it 4x larger to be able to scale it down & get beautiful antialias

     Size aAntialiasSize(aSizePix.Width() * 4, aSizePix.Height() * 4);

     if (aVDev->SetOutputSizePixel(aAntialiasSize))

     {

         // antialias: provide 4x larger size, and then scale down the result

         Size aAntialias(aDrawSize.Width() * 4, aDrawSize.Height() * 4);


         // draw metafile into VDev

         const_cast<GDIMetaFile *>(this)->WindStart();

         const_cast<GDIMetaFile *>(this)->Play(aVDev.get(), Point(), aAntialias);


         // get paint bitmap

         BitmapEx aBitmap( aVDev->GetBitmapEx( aNullPt, aVDev->GetOutputSizePixel() ) );


         // scale down the image to the desired size - use the input scaler for the scaling operation

         aBitmap.Scale(aDrawSize, nScaleFlag);


         // convert to desired bitmap color format

         Size aSize(aBitmap.GetSizePixel());

         if (aSize.Width() && aSize.Height())

             aBitmap.Convert(eColorConversion);


         rBitmapEx = aBitmap;

     }


     return !rBitmapEx.IsEmpty();

 }


 void GDIMetaFile::UseCanvas( bool _bUseCanvas )

 {

     m_bUseCanvas = _bUseCanvas;

 }


 void GDIMetaFile::dumpAsXml(const char* pFileName) const

 {

     SvFileStream aStream(pFileName ? OUString::fromUtf8(pFileName) : OUString("file:///tmp/metafile.xml"),

             StreamMode::STD_READWRITE | StreamMode::TRUNC);

     assert(aStream.good());

     MetafileXmlDump aDumper;

     aDumper.dump(*this, aStream);

 }


 /* vim:set shiftwidth=4 softtabstop=4 expandtab: */

tools::PolyPolygon::Count
sal_uInt16 Count() const

MetaActionType::EPS

GDIMetaFile::ImplBmpAdjustFnc
static SAL_DLLPRIVATE BitmapEx ImplBmpAdjustFnc(const BitmapEx &rBmpEx, const void *pBmpParam)
Definition: gdimtf.cxx:1735

basegfx::B2DPolyPolygon

MapMode::GetScaleX
const Fraction & GetScaleX() const
Definition: mapmod.cxx:140

MetaFloatTransparentAction::GetGradient
const Gradient & GetGradient() const
Definition: metaact.hxx:1580

GDIMetaFile::Mirror
void Mirror(BmpMirrorFlags nMirrorFlags)
Definition: gdimtf.cxx:596

MetaAction::Execute
virtual void Execute(OutputDevice *pOut)
Definition: metaact.cxx:168

MetaLineAction::GetLineInfo
const LineInfo & GetLineInfo() const
Definition: metaact.hxx:190

MetafileXmlDump::dump
void dump(const GDIMetaFile &rMetaFile, SvStream &rStream)
The actual result that will be used for testing.
Definition: mtfxmldump.cxx:527

MetaTextAction
Definition: metaact.hxx:468

OutputDevice::SetDigitLanguage
void SetDigitLanguage(LanguageType)
Definition: outdevstate.cxx:279

OutputDevice::SetPixelOffset
void SetPixelOffset(const Size &rOffset)
Set an offset in pixel.
Definition: map.cxx:1763

GDIMetaFile::m_pPrev
GDIMetaFile * m_pPrev
Definition: gdimtf.hxx:66

BitmapChecksum
sal_uInt64 BitmapChecksum
Definition: checksum.hxx:30

MetaMaskScalePartAction::GetDestSize
const Size & GetDestSize() const
Definition: metaact.hxx:960

Hatch
Definition: hatch.hxx:46

MetaActionType::ISECTRECTCLIPREGION

GDIMetaFile::m_pOutDev
VclPtr< OutputDevice > m_pOutDev
Definition: gdimtf.hxx:68

MetaActionType::BMPEX

MetaActionType::ISECTREGIONCLIPREGION

MetaMaskScaleAction::GetBitmap
const Bitmap & GetBitmap() const
Definition: metaact.hxx:918

MetaActionType::BMPSCALE

MetaTextAction::GetLen
sal_Int32 GetLen() const
Definition: metaact.hxx:500

GDIMetaFile::GetCurAction
MetaAction * GetCurAction() const
Definition: gdimtf.hxx:174

basegfx::B2DPoint

Color::GetAlpha
sal_uInt8 GetAlpha() const

PushFlags::CLIPREGION

MetaBmpScaleAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:708

MetaGradientAction
Definition: metaact.hxx:965

PushFlags::TEXTLAYOUTMODE

Color::GetRed
sal_uInt8 GetRed() const

ImplMetaReadData::meActualCharSet
rtl_TextEncoding meActualCharSet
Definition: metaact.hxx:47

MetaActionType::TEXTFILLCOLOR

GDIMetaFile::ReplaceColors
void ReplaceColors(const Color *pSearchColors, const Color *rReplaceColors, sal_uLong nColorCount)
Definition: gdimtf.cxx:2162

com::sun::star

SVBT16
sal_uInt8 SVBT16[2]

tools::Rectangle::Intersection
tools::Rectangle & Intersection(const tools::Rectangle &rRect)

GDIMetaFile::ImplPlayWithRenderer
SAL_DLLPRIVATE bool ImplPlayWithRenderer(OutputDevice *pOut, const Point &rPos, Size rLogicDestSize)
Definition: gdimtf.cxx:388

MetaFloatTransparentAction::GetGDIMetaFile
const GDIMetaFile & GetGDIMetaFile() const
Definition: metaact.hxx:1577

Size::setWidth
void setWidth(tools::Long nWidth)

BitmapEx::Replace
void Replace(const Color &rSearchColor, const Color &rReplaceColor)
Replace all pixel having the search color with the specified color.
Definition: BitmapEx.cxx:479

BitmapEx::Adjust
bool Adjust(short nLuminancePercent, short nContrastPercent, short nChannelRPercent, short nChannelGPercent, short nChannelBPercent, double fGamma=1.0, bool bInvert=false, bool msoBrightness=false)
Change various global color characteristics.
Definition: BitmapEx.cxx:491

MetaTextRectAction
Definition: metaact.hxx:578

TypeSerializer.hxx

MetafileXmlDump
Definition: mtfxmldump.hxx:27

rtl::Reference

MetaEPSAction
Definition: metaact.hxx:1584

MetaRectAction
Definition: metaact.hxx:193

Bitmap
Definition: bitmap.hxx:109

OutputDevice::LogicToLogic
Point LogicToLogic(const Point &rPtSource, const MapMode *pMapModeSource, const MapMode *pMapModeDest) const
Definition: map.cxx:1521

TypeSerializer::readMapMode
void readMapMode(MapMode &rMapMode)
Definition: TypeSerializer.cxx:419

GDIMetaFile::operator=
GDIMetaFile & operator=(const GDIMetaFile &rMtf)
Definition: gdimtf.cxx:212

DepthGuard::~DepthGuard
~DepthGuard()

OutputDevice::DrawBitmapEx
void DrawBitmapEx(const Point &rDestPt, const BitmapEx &rBitmapEx)
This is an overloaded member function, provided for convenience. It differs from the above function o...
Definition: outdev/bitmap.cxx:259

GAMMA
#define GAMMA(_def_cVal, _def_InvGamma)
Definition: bitmap.hxx:35

MetaActionType::Transparent

WriteSvtGraphicStroke
SvStream & WriteSvtGraphicStroke(SvStream &rOStm, const SvtGraphicStroke &rClass)
Definition: graphictools.cxx:114

processfactory.hxx

BitmapPalette.hxx

GDIMetaFile::Read
SvStream & Read(SvStream &rIStm)
Definition: gdimtf.cxx:2733

GDIMetaFile::GetPrefMapMode
const MapMode & GetPrefMapMode() const
Definition: gdimtf.hxx:179

BitmapEx::Scale
bool Scale(const Size &rNewSize, BmpScaleFlag nScaleFlag=BmpScaleFlag::Default)
Scale the bitmap.
Definition: BitmapEx.cxx:296

BmpConversion::N1BitThreshold

sal_uLong
sal_uIntPtr sal_uLong

MtfConversion
MtfConversion
Definition: gdimtf.hxx:45

tools::Long
long Long

COL_TRANSPARENT
constexpr::Color COL_TRANSPARENT(ColorTransparency, 0xFF, 0xFF, 0xFF, 0xFF)

tools::GenericTypeSerializer::writeSize
void writeSize(const Size &rSize)

GDIMetaFile::dumpAsXml
void dumpAsXml(const char *pFileName=nullptr) const
Dumps the meta actions as XML in metafile.xml.
Definition: gdimtf.cxx:2853

GDIMetaFile::NextAction
MetaAction * NextAction()
Definition: gdimtf.cxx:196

MetaActionType::PIXEL

F_PI1800
#define F_PI1800

Lotus123Typ::X

MetaActionType::FILLCOLOR

MinMax
std::enable_if< std::is_signed< T >::value||std::is_floating_point< T >::value, long >::type MinMax(T nVal, tools::Long nMin, tools::Long nMax)

Color::GetLuminance
sal_uInt8 GetLuminance() const

MetaActionType::POINT

MetaEPSAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:1615

MetaAction::IsTransparent
virtual bool IsTransparent() const
#i10613# Extracted from Printer::GetPreparedMetaFile.
Definition: metaact.hxx:94

n
sal_Int64 n

MetaActionType::TEXTRECT

MetaBmpExScaleAction
Definition: metaact.hxx:781

SvtGraphicStroke
Encapsulates geometry and associated attributes of a graphical 'pen stroke'.
Definition: graphictools.hxx:47

GDIMetaFile::SetPrefSize
void SetPrefSize(const Size &rSize)
Definition: gdimtf.hxx:177

MetaFloatTransparentAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:1578

MetaLineAction
Definition: metaact.hxx:159

GDIMetaFile::Clear
void Clear()
Definition: gdimtf.cxx:271

GDIMetaFile::ImplColMonoFnc
static SAL_DLLPRIVATE Color ImplColMonoFnc(const Color &rColor, const void *pColParam)
Definition: gdimtf.cxx:1766

SvStream::Seek
sal_uInt64 Seek(sal_uInt64 nPos)

MetaBmpScaleAction::GetSize
const Size & GetSize() const
Definition: metaact.hxx:709

OutputDevice::GetMapMode
const MapMode & GetMapMode() const
Definition: outdev.hxx:1685

MetaTransparentAction::GetPolyPolygon
const tools::PolyPolygon & GetPolyPolygon() const
Definition: metaact.hxx:1542

aId
OUString aId

tools::Polygon::Move
void Move(tools::Long nHorzMove, tools::Long nVertMove)

OutputDevice::SetLayoutMode
void SetLayoutMode(ComplexTextLayoutFlags nTextLayoutMode)
Definition: outdevstate.cxx:268

MetaActionType::ELLIPSE

GDIMetaFile::Rotate
void Rotate(Degree10 nAngle10)
Definition: gdimtf.cxx:820

vcl_get_checksum
BitmapChecksum vcl_get_checksum(BitmapChecksum Checksum, const void *Data, sal_uInt32 DatLen)
Definition: checksum.hxx:72

MetaActionType::POLYGON

MetaLineAction::GetEndPoint
const Point & GetEndPoint() const
Definition: metaact.hxx:189

OutputDevice::GetConnectMetaFile
GDIMetaFile * GetConnectMetaFile() const
Definition: outdev.hxx:402

MetaPointAction
Definition: metaact.hxx:132

MetaStretchTextAction::GetText
const OUString & GetText() const
Definition: metaact.hxx:572

GDIMetaFile::IsRecord
bool IsRecord() const
Definition: gdimtf.hxx:145

MetaActionType::LINECOLOR

Bitmap::GetSizePixel
Size GetSizePixel() const
Definition: bitmap/bitmap.cxx:318

ReadSvtGraphicStroke
SvStream & ReadSvtGraphicStroke(SvStream &rIStm, SvtGraphicStroke &rClass)
Definition: graphictools.cxx:137

MetaActionType::PUSH

GDIMetaFile::ImplAddGradientEx
static SAL_DLLPRIVATE void ImplAddGradientEx(GDIMetaFile &rMtf, const OutputDevice &rMapDev, const tools::PolyPolygon &rPolyPoly, const Gradient &rGrad)
Definition: gdimtf.cxx:798

MetaActionType::FONT

SvXMLEmbeddedObjectHelperMode::Write

SvStream::GetCompressMode
SvStreamCompressFlags GetCompressMode() const

GDIMetaFile::ImplBmpReplaceFnc
static SAL_DLLPRIVATE BitmapEx ImplBmpReplaceFnc(const BitmapEx &rBmpEx, const void *pBmpParam)
Definition: gdimtf.cxx:1807

MetaActionType::ROUNDRECT

GfxLink::GetData
const sal_uInt8 * GetData() const
Definition: gfxlink.cxx:96

GDIMetaFile::Clip
void Clip(const tools::Rectangle &)
Definition: gdimtf.cxx:735

MetaActionType::POP

MetaMaskScaleAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:920

BitmapEx::Convert
bool Convert(BmpConversion eConversion)
Convert bitmap format.
Definition: BitmapEx.cxx:374

BitmapEx::GetChecksum
BitmapChecksum GetChecksum() const
Definition: BitmapEx.cxx:230

MetaActionType::CHORD

ReadSvtGraphicFill
SvStream & ReadSvtGraphicFill(SvStream &rIStm, SvtGraphicFill &rClass)
Definition: graphictools.cxx:264

tools::Rectangle::SetRight
void SetRight(tools::Long v)

GDIMetaFile
Definition: gdimtf.hxx:58

SVBT32
sal_uInt8 SVBT32[4]

MetaCommentAction::GetData
const sal_uInt8 * GetData() const
Definition: metaact.hxx:1677

ImplMetaWriteData
Definition: metaact.hxx:56

Size::Width
constexpr tools::Long Width() const

aMap
HashMap_OWString_Interface aMap

PushFlags::TEXTLANGUAGE

Gradient
Definition: gradient.hxx:37

ScopedVclPtrInstance< VirtualDevice >

sal_Unicode
sal_uInt16 sal_Unicode

HtmlFrmOpts::Width

BitmapEx::IsAlpha
bool IsAlpha() const
Definition: BitmapEx.cxx:193

GDIMetaFile::ImplGetRotatedPolygon
static SAL_DLLPRIVATE tools::Polygon ImplGetRotatedPolygon(const tools::Polygon &rPoly, const Point &rRotatePt, const Size &rOffset, double fSin, double fCos)
Definition: gdimtf.cxx:776

MetaFloatTransparentAction
Definition: metaact.hxx:1548

SvStream::GetError
ErrCode GetError() const

MetaBmpExScaleAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:810

GDIMetaFile::Record
void Record(OutputDevice *pOutDev)
Definition: gdimtf.cxx:312

m_rData
const Sequence< Sequence< double > > & m_rData

GDIMetaFile::push_back
void push_back(const rtl::Reference< MetaAction > &pAction)
Definition: gdimtf.cxx:591

tools::Rectangle::Left
tools::Long Left() const

SvStream::eof
bool eof() const

MetaActionType::TEXT

MetaAction
Definition: metaact.hxx:65

MetaTextAction::GetText
const OUString & GetText() const
Definition: metaact.hxx:498

assert
const BorderLinePrimitive2D *pCandidateB assert(pCandidateA)

MapMode::GetScaleY
const Fraction & GetScaleY() const
Definition: mapmod.cxx:142

MetaMaskAction::GetColor
const Color & GetColor() const
Definition: metaact.hxx:884

tools::ULong
unsigned long ULong

WriteGDIMetaFile
SvStream & WriteGDIMetaFile(SvStream &rOStm, const GDIMetaFile &rGDIMetaFile)
Definition: gdimtf.cxx:2724

vcl::unotools::integerSize2DFromSize
geometry::IntegerSize2D integerSize2DFromSize(const Size &rSize)
Definition: canvastools.cxx:396

MetaBmpExAction
Definition: metaact.hxx:750

MetaBmpAction::GetBitmap
const Bitmap & GetBitmap() const
Definition: metaact.hxx:675

tools::PolyPolygon::Rotate
void Rotate(const Point &rCenter, double fSin, double fCos)

GDIMetaFile::Adjust
void Adjust(short nLuminancePercent, short nContrastPercent, short nChannelRPercent=0, short nChannelGPercent=0, short nChannelBPercent=0, double fGamma=1.0, bool bInvert=false, bool msoBrightness=false)
Definition: gdimtf.cxx:2070

nCount
int nCount

uno::Any

MetaActionType::MASK

MetaMaskScalePartAction
Definition: metaact.hxx:924

GDIMetaFile::CreateThumbnail
bool CreateThumbnail(BitmapEx &rBitmapEx, BmpConversion nColorConversion=BmpConversion::N24Bit, BmpScaleFlag nScaleFlag=BmpScaleFlag::BestQuality) const
Creates an antialiased thumbnail.
Definition: gdimtf.cxx:2775

Gradient::SetStartColor
void SetStartColor(const Color &rColor)
Definition: gdi/gradient.cxx:113

MetaGradientAction::GetGradient
const Gradient & GetGradient() const
Definition: metaact.hxx:992

OutputDevice::Pop
void Pop()
Definition: outdevstate.cxx:120

SvStream::WriteUInt32
SvStream & WriteUInt32(sal_uInt32 nUInt32)

MetaLineColorAction::GetColor
const Color & GetColor() const
Definition: metaact.hxx:1224

MetaAction::ReadMetaAction
static rtl::Reference< MetaAction > ReadMetaAction(SvStream &rIStm, ImplMetaReadData *pData)
Definition: metaact.cxx:195

MetaActionType::PIE

MetaActionType
MetaActionType
Definition: metaactiontypes.hxx:23

o3tl::strong_int< sal_Int16, struct Degree10Tag >

BitmapEx
Definition: bitmapex.hxx:38

GDIMetaFile::Play
void Play(GDIMetaFile &rMtf)
Definition: gdimtf.cxx:323

BmpExchangeFnc
BitmapEx(* BmpExchangeFnc)(const BitmapEx &rBmpEx, const void *pBmpParam)
Definition: gdimtf.hxx:53

vcl::Font
Definition: include/vcl/font.hxx:48

MetaBmpExScaleAction::GetSize
const Size & GetSize() const
Definition: metaact.hxx:811

GDIMetaFile::GetMonochromeMtf
GDIMetaFile GetMonochromeMtf(const Color &rCol) const
Definition: gdimtf.cxx:2201

MetaActionType::POLYLINE

tools::GenericTypeSerializer::readSize
void readSize(Size &rSize)

Color::GetBlue
sal_uInt8 GetBlue() const

MetaTextLineAction::GetUnderline
FontLineStyle GetUnderline() const
Definition: metaact.hxx:645

GDIMetaFile::m_aPrefSize
Size m_aPrefSize
Definition: gdimtf.hxx:65

vcl::Region::GetAsPolyPolygon
tools::PolyPolygon GetAsPolyPolygon() const
Definition: region.cxx:1261

Fraction

SvFileStream

tools::Rectangle::IsEmpty
constexpr bool IsEmpty() const

tools::Polygon::Rotate
void Rotate(const Point &rCenter, double fSin, double fCos)

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Definition: window.hxx:452

SvtGraphicFill::setPath
void setPath(const tools::PolyPolygon &rPath)
Set path to fill.
Definition: graphictools.cxx:229

GDIMetaFile::ImplGetRotatedPolyPolygon
static SAL_DLLPRIVATE tools::PolyPolygon ImplGetRotatedPolyPolygon(const tools::PolyPolygon &rPoly, const Point &rRotatePt, const Size &rOffset, double fSin, double fCos)
Definition: gdimtf.cxx:787

MetaMaskScalePartAction::GetSrcSize
const Size & GetSrcSize() const
Definition: metaact.hxx:962

GDIMetaFile::m_bPause
bool m_bPause
Definition: gdimtf.hxx:69

GDIMetaFile::ImplGetRotatedPoint
static SAL_DLLPRIVATE Point ImplGetRotatedPoint(const Point &rPt, const Point &rRotatePt, const Size &rOffset, double fSin, double fCos)
Definition: gdimtf.cxx:766

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SvStream & ReadUInt32(sal_uInt32 &rUInt32)

Size

MetaActionType::WALLPAPER

BitmapEx::SetEmpty
void SetEmpty()
Definition: BitmapEx.cxx:182

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static vcl::Window * GetFirstTopLevelWindow()
Get the first top-level window of the application.
Definition: svapp.cxx:1078

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Definition: lineinfo.hxx:53

BitmapEx::IsEmpty
bool IsEmpty() const
Definition: BitmapEx.cxx:177

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MetaActionType::MASKSCALEPART

GDIMetaFile::GetUseCanvas
bool GetUseCanvas() const
Definition: gdimtf.hxx:202

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bool Create(const css::uno::Reference< css::rendering::XBitmapCanvas > &xBitmapCanvas, const Size &rSize)
populate from a canvas implementation
Definition: BitmapEx.cxx:619

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#define BITMAP_CHECKSUM_SIZE
Definition: checksum.hxx:28

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UNDERLYING_TYPE get() const

OutputDevice::SetConnectMetaFile
void SetConnectMetaFile(GDIMetaFile *pMtf)
Definition: outdev.cxx:212

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void SetScaleX(const Fraction &rScaleX)
Definition: mapmod.cxx:108

TOOLS_WARN_EXCEPTION
#define TOOLS_WARN_EXCEPTION(area, stream)

GDIMetaFile::ReadGDIMetaFile
friend VCL_DLLPUBLIC SvStream & ReadGDIMetaFile(SvStream &rIStm, GDIMetaFile &rGDIMetaFile, ImplMetaReadData *pReadData)
Definition: gdimtf.cxx:2640

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const tools::Rectangle & GetRect() const
Definition: metaact.hxx:218

GDIMetaFile::ImplBmpConvertFnc
static SAL_DLLPRIVATE BitmapEx ImplBmpConvertFnc(const BitmapEx &rBmpEx, const void *pBmpParam)
Definition: gdimtf.cxx:1757

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GDIMetaFile::GetPrefSize
const Size & GetPrefSize() const
Definition: gdimtf.hxx:176

GDIMetaFile::~GDIMetaFile
~GDIMetaFile()
Definition: gdimtf.cxx:150

ImplMetaReadData::mnParseDepth
int mnParseDepth
Definition: metaact.hxx:48

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tools::Long GetWidth() const
Definition: metaact.hxx:643

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GDIMetaFile * m_pNext
Definition: gdimtf.hxx:67

i
int i

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Definition: metaact.hxx:679

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::std::vector< rtl::Reference< MetaAction > > m_aList
Definition: gdimtf.hxx:61

a
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sal_uInt16 GetTransparence() const
Definition: metaact.hxx:1543

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Definition: metaact.hxx:854

MetaAction::Scale
virtual void Scale(double fScaleX, double fScaleY)
Definition: metaact.cxx:181

MetaMaskScaleAction::GetSize
const Size & GetSize() const
Definition: metaact.hxx:921

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void SetAngle(Degree10 nAngle10)
Definition: gdi/hatch.cxx:74

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MetaTextAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:497

GDIMetaFile::ImplExchangeColors
SAL_DLLPRIVATE void ImplExchangeColors(ColorExchangeFnc pFncCol, const void *pColParam, BmpExchangeFnc pFncBmp, const void *pBmpParam)
Definition: gdimtf.cxx:1817

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void Convert(MtfConversion eConversion)
Definition: gdimtf.cxx:2151

MetaLineColorAction::IsSetting
bool IsSetting() const
Definition: metaact.hxx:1225

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tools::Long FRound(double fVal)

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LANGUAGE_SYSTEM
#define LANGUAGE_SYSTEM

Bitmap::GetChecksum
BitmapChecksum GetChecksum() const
Definition: bitmap/bitmap.cxx:368

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void SetOrientation(Degree10 nLineOrientation)
Definition: font/font.cxx:200

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Definition: TypeSerializer.hxx:40

ColorExchangeFnc
Color(* ColorExchangeFnc)(const Color &rColor, const void *pColParam)
Definition: gdimtf.hxx:52

MetaBmpExAction::GetBitmapEx
const BitmapEx & GetBitmapEx() const
Definition: metaact.hxx:776

MetaGradientAction::GetRect
const tools::Rectangle & GetRect() const
Definition: metaact.hxx:991

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Definition: region.hxx:43

MetaActionType::CLIPREGION

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OutputDevice::GetOutputSize
Size GetOutputSize() const
Definition: outdev.hxx:441

MetaFloatTransparentAction::GetSize
const Size & GetSize() const
Definition: metaact.hxx:1579

MapMode::SetOrigin
void SetOrigin(const Point &rOrigin)
Definition: mapmod.cxx:102

MetaStretchTextAction::GetWidth
sal_uInt32 GetWidth() const
Definition: metaact.hxx:573

OutputDevice
Some things multiple-inherit from VclAbstractDialog and OutputDevice, so we need to use virtual inher...
Definition: outdev.hxx:288

SvStream::WriteBytes
std::size_t WriteBytes(const void *pData, std::size_t nSize)

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float u

tools::PolyPolygon::Move
void Move(tools::Long nHorzMove, tools::Long nVertMove)

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rtl_TextEncoding meActualCharSet
Definition: metaact.hxx:58

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SvStreamCompressFlags
SvStreamCompressFlags

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MetaActionType::TEXTCOLOR

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BmpMirrorFlags
BmpMirrorFlags
Definition: bitmap.hxx:41

MapMode::SetScaleY
void SetScaleY(const Fraction &rScaleY)
Definition: mapmod.cxx:115

GDIMetaFile::UseCanvas
void UseCanvas(bool _bUseCanvas)
Definition: gdimtf.cxx:2848

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SvStream::SetError
void SetError(ErrCode nErrorCode)

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Definition: bitmap.hxx:53

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void Intersect(const tools::Rectangle &rRegion)
Definition: region.cxx:584

SvtGraphicStroke::getPath
void getPath(tools::Polygon &) const
Query path to stroke.
Definition: graphictools.cxx:65

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Definition: BitmapPalette.hxx:28

MetaActionType::BMPEXSCALE

MetaActionType::ARC

MetaActionType::STRETCHTEXT

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MetaStretchTextAction::GetLen
sal_Int32 GetLen() const
Definition: metaact.hxx:575

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void Move(tools::Long nX, tools::Long nY)
Definition: gdimtf.cxx:632

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MetaBmpExAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:777

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bool m_bRecord
Definition: gdimtf.hxx:70

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const Bitmap & GetBitmap() const
Definition: metaact.hxx:883

OutputDevice::GetOutputSizePixel
Size GetOutputSizePixel() const
Definition: outdev.hxx:428

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MapMode::GetMapUnit
MapUnit GetMapUnit() const
Definition: mapmod.cxx:136

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sal_uInt8 SVBT64[8]

OutputDevice::SetMetafileMapMode
virtual void SetMetafileMapMode(const MapMode &rNewMapMode, bool bIsRecord)
Definition: map.cxx:667

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Definition: bitmap.hxx:70

GDIMetaFile::WindStart
void WindStart()
Definition: gdimtf.cxx:551

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GDIMetaFile::HasTransparentActions
bool HasTransparentActions() const
Definition: gdimtf.cxx:155

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virtual void Move(tools::Long nHorzMove, tools::Long nVertMove)
Definition: metaact.cxx:177

BitmapEx::Rotate
bool Rotate(Degree10 nAngle10, const Color &rFillColor)
Rotate bitmap by the specified angle.
Definition: BitmapEx.cxx:316

MetaMaskScalePartAction::GetBitmap
const Bitmap & GetBitmap() const
Definition: metaact.hxx:957

MetaMaskAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:885

Application::GetActiveTopWindow
static vcl::Window * GetActiveTopWindow()
Get the "active" top window.
Definition: svapp.cxx:1122

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static SAL_DLLPRIVATE Color ImplColAdjustFnc(const Color &rColor, const void *pColParam)
Definition: gdimtf.cxx:1726

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FontStrikeout GetStrikeout() const
Definition: metaact.hxx:644

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GDIMetaFile::GetBoundRect
tools::Rectangle GetBoundRect(OutputDevice &i_rReference, tools::Rectangle *pHairline=nullptr) const
Definition: gdimtf.cxx:1305

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#define Y

MetaEPSAction::GetSize
const Size & GetSize() const
Definition: metaact.hxx:1616

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const Bitmap & GetBitmap() const
Definition: metaact.hxx:707

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Definition: metaact.hxx:611

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void SetColor(const Color &)
Definition: font/font.cxx:88

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SvStream::ReadBytes
std::size_t ReadBytes(void *pData, std::size_t nSize)

OutputDevice::PixelToLogic
Point PixelToLogic(const Point &rDevicePt) const
Definition: map.cxx:1066

OutputDevice::LogicToPixel
Point LogicToPixel(const Point &rLogicPt) const
Definition: map.cxx:835

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const tools::PolyPolygon & GetPolyPolygon() const
Definition: metaact.hxx:1051

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SvStream & WriteSvtGraphicFill(SvStream &rOStm, const SvtGraphicFill &rClass)
Definition: graphictools.cxx:234

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MetaEPSAction::GetLink
const GfxLink & GetLink() const
Definition: metaact.hxx:1613

MetaStretchTextAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:571

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bool IsSetting() const
Definition: metaact.hxx:1252

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sal_uInt8 GetGreen() const

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Definition: metaact.hxx:1516

SvStream::GetEndian
SvStreamEndian GetEndian() const

GDIMetaFile::Stop
void Stop()
Definition: gdimtf.cxx:538

MetaMaskScaleAction::GetColor
const Color & GetColor() const
Definition: metaact.hxx:919

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Definition: metaact.hxx:540

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MapMode m_aPrefMapMode
Definition: gdimtf.hxx:64

MetaLineAction::GetStartPoint
const Point & GetStartPoint() const
Definition: metaact.hxx:188

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Definition: metaact.hxx:888

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sal_uInt32 GetDataSize() const
Definition: metaact.hxx:1676

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bool operator==(const GDIMetaFile &rMtf) const
Definition: gdimtf.cxx:245

MetaBmpExScaleAction::GetBitmapEx
const BitmapEx & GetBitmapEx() const
Definition: metaact.hxx:809

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void Pause(bool bPause)
Definition: gdimtf.cxx:519

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AlphaMask GetAlpha() const
Definition: BitmapEx.cxx:215

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Definition: metaact.hxx:45

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GDIMetaFile::GetChecksum
BitmapChecksum GetChecksum() const
Definition: gdimtf.cxx:2216

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Definition: metaact.hxx:649

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const Color & GetColor() const
Definition: metaact.hxx:958

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tools::Rectangle & Union(const tools::Rectangle &rRect)

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constexpr tools::Long Height() const

sal_uInt8
unsigned char sal_uInt8

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void ReplaceAction(rtl::Reference< MetaAction > pAction, size_t nAction)
Definition: gdimtf.cxx:201

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void BCToBCOA(BitmapChecksum n, BitmapChecksumOctetArray p)
Definition: checksum.hxx:34

MetaTextLineAction::GetStartPoint
const Point & GetStartPoint() const
Definition: metaact.hxx:642

GDIMetaFile::ImplColReplaceFnc
static SAL_DLLPRIVATE Color ImplColReplaceFnc(const Color &rColor, const void *pColParam)
Definition: gdimtf.cxx:1787

GDIMetaFile::AddAction
void AddAction(const rtl::Reference< MetaAction > &pAction)
Definition: gdimtf.cxx:564

GDIMetaFile::GetAction
MetaAction * GetAction(size_t nAction) const
Definition: gdimtf.cxx:185

ReadGDIMetaFile
SvStream & ReadGDIMetaFile(SvStream &rIStm, GDIMetaFile &rGDIMetaFile, ImplMetaReadData *pData)
Definition: gdimtf.cxx:2640

SvStream::SetEndian
void SetEndian(SvStreamEndian SvStreamEndian)

COL_WHITE
const ::std::vector< Color > ImpSvNumberformatScan::StandardColor COL_WHITE

SAL_INFO
#define SAL_INFO(area, stream)

MetaPointAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:156

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MetaBmpAction::GetPoint
const Point & GetPoint() const
Definition: metaact.hxx:676

GDIMetaFile::m_bUseCanvas
bool m_bUseCanvas
Definition: gdimtf.hxx:71

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void Linker(OutputDevice *pOut, bool bLink)
Definition: gdimtf.cxx:279

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MetaMaskScalePartAction::GetDestPoint
const Point & GetDestPoint() const
Definition: metaact.hxx:959

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#define SVSTREAM_FILEFORMAT_ERROR
Definition: errcode.hxx:260

SvStream::GetStreamCharSet
rtl_TextEncoding GetStreamCharSet() const

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GDIMetaFile::Scale
void Scale(double fScaleX, double fScaleY)
Definition: gdimtf.cxx:709

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GDIMetaFile::ImplBmpMonoFnc
static SAL_DLLPRIVATE BitmapEx ImplBmpMonoFnc(const BitmapEx &rBmpEx, const void *pBmpParam)
Definition: gdimtf.cxx:1771

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bool HasPolyPolygonOrB2DPolyPolygon() const
Definition: region.hxx:110

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SvStream::Tell
sal_uInt64 Tell() const

p
void * p

comphelper::getProcessComponentContext
Reference< XComponentContext > getProcessComponentContext()

GDIMetaFile::GetActionSize
size_t GetActionSize() const
Definition: gdimtf.cxx:180

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QPRO_FUNC_TYPE nType

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Definition: wall.hxx:52

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Definition: metaact.hxx:1646

MetaActionType::MOVECLIPREGION

COL_BLACK
const ::std::vector< Color > ImpSvNumberformatScan::StandardColor COL_BLACK

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MetaAction::GetType
MetaActionType GetType() const
Definition: metaact.hxx:90

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SvtGraphicStroke::setPath
void setPath(const tools::Polygon &)
Set path to stroke.
Definition: graphictools.cxx:86

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MetaHatchAction::GetHatch
const Hatch & GetHatch() const
Definition: metaact.hxx:1052

MetaMaskScalePartAction::GetSrcPoint
const Point & GetSrcPoint() const
Definition: metaact.hxx:961

MetaTextLineAction::GetOverline
FontLineStyle GetOverline() const
Definition: metaact.hxx:646

SvStream::good
bool good() const

Bitmap::Erase
bool Erase(const Color &rFillColor)
Fill the entire bitmap with the given color.
Definition: bitmappaint.cxx:34

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Definition: metaact.hxx:1201

Size::setHeight
void setHeight(tools::Long nHeight)

MetaActionType::POLYPOLYGON

b2dpolygon.hxx

vcl::Region::GetAsB2DPolyPolygon
basegfx::B2DPolyPolygon GetAsB2DPolyPolygon() const
Definition: region.cxx:1289

GDIMetaFile::FirstAction
MetaAction * FirstAction()
Definition: gdimtf.cxx:190

tools::Rectangle::Move
void Move(tools::Long nHorzMoveDelta, tools::Long nVertMoveDelta)

GfxLink::GetDataSize
sal_uInt32 GetDataSize() const
Definition: gfxlink.hxx:86

VclPtr::get
reference_type * get() const
Get the body.
Definition: vclptr.hxx:143

OutputDevice::GetPixelOffset
Size GetPixelOffset() const
Get the offset in pixel.
Definition: outdev.hxx:1729

tools::PolyPolygon::GetBoundRect
tools::Rectangle GetBoundRect() const

SAL_WARN
#define SAL_WARN(area, stream)

DepthGuard::DepthGuard
DepthGuard(HWPFile &rFile)

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sal_uInt8 BitmapChecksumOctetArray[BITMAP_CHECKSUM_SIZE]
Definition: checksum.hxx:31

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MetaCommentAction::GetComment
const OString & GetComment() const
Definition: metaact.hxx:1674

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Encapsulates geometry and associated attributes of a filled area.
Definition: graphictools.hxx:199

MetaActionType::REFPOINT

tools::Polygon::GetBoundRect
tools::Rectangle GetBoundRect() const

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Definition: metaact.hxx:1228

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ImplActionBounds
static void ImplActionBounds(tools::Rectangle &o_rOutBounds, const tools::Rectangle &i_rInBounds, const std::vector< tools::Rectangle > &i_rClipStack, tools::Rectangle *o_pHairline)
Definition: gdimtf.cxx:1280

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GDIMetaFile::m_nCurrentActionElement
size_t m_nCurrentActionElement
Definition: gdimtf.hxx:62

OutputDevice::GetSyncCount
virtual size_t GetSyncCount() const
Definition: outdev.hxx:449

SvtGraphicFill::getPath
void getPath(tools::PolyPolygon &) const
Query path to fill.
Definition: graphictools.cxx:212

MetaActionType::TEXTARRAY

SVMConverter
Converts old SVGDI aka SVM1 format data to current VCLMTF aka SVM2 format metafile data...
Definition: svmconverter.hxx:75

BitmapEx::GetSizePixel
const Size & GetSizePixel() const
Definition: bitmapex.hxx:73

BmpMirrorFlags::Vertical

window.hxx

MetaFillColorAction::GetColor
const Color & GetColor() const
Definition: metaact.hxx:1251

MetaAction::Write
virtual void Write(SvStream &rOStm, ImplMetaWriteData *pData)
Definition: metaact.cxx:185

MetaEPSAction::GetSubstitute
const GDIMetaFile & GetSubstitute() const
Definition: metaact.hxx:1614

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AntialiasingFlags::Enable

OutputDevice::Push
void Push(PushFlags nFlags=PushFlags::ALL)
Definition: outdevstate.cxx:59

Hatch::SetColor
void SetColor(const Color &rColor)
Definition: gdi/hatch.cxx:64

ComplexTextLayoutFlags::Default

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BitmapEx::Crop
bool Crop(const tools::Rectangle &rRectPixel)
Crop the bitmap.
Definition: BitmapEx.cxx:354

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MetaTextRectAction::GetRect
const tools::Rectangle & GetRect() const
Definition: metaact.hxx:606

aStr
aStr

MetaStretchTextAction::GetIndex
sal_Int32 GetIndex() const
Definition: metaact.hxx:574

MetaTextAction::GetIndex
sal_Int32 GetIndex() const
Definition: metaact.hxx:499

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Definition: mapmod.hxx:33

BmpConversion::N8BitGreys

TypeSerializer::writeMapMode
void writeMapMode(MapMode const &rMapMode)
Definition: TypeSerializer.cxx:441

GDIMetaFile::Write
SvStream & Write(SvStream &rOStm)
Definition: gdimtf.cxx:2741

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Definition: metaact.hxx:1025

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GDIMetaFile::ImplColConvertFnc
static SAL_DLLPRIVATE Color ImplColConvertFnc(const Color &rColor, const void *pColParam)
Definition: gdimtf.cxx:1747

GDIMetaFile::WindPrev
void WindPrev()
Definition: gdimtf.cxx:557

SvMemoryStream::GetData
const void * GetData()

GDIMetaFile::GDIMetaFile
GDIMetaFile()
Definition: gdimtf.cxx:113

SvStream

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ColorAlpha

GDIMetaFile::GetSizeBytes
sal_uLong GetSizeBytes() const
Definition: gdimtf.cxx:2559