vcl/html/graphicfilter_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 <config_folders.h>


#include <sal/log.hxx>

#include <comphelper/processfactory.hxx>

#include <comphelper/propertyvalue.hxx>

#include <comphelper/threadpool.hxx>

#include <cppuhelper/implbase.hxx>

#include <tools/fract.hxx>

#include <unotools/configmgr.hxx>

#include <tools/stream.hxx>

#include <tools/urlobj.hxx>

#include <tools/zcodec.hxx>

#include <rtl/crc.h>

#include <fltcall.hxx>

#include <vcl/salctype.hxx>

#include <vcl/filter/PngImageReader.hxx>

#include <vcl/filter/SvmWriter.hxx>

#include <vcl/filter/PngImageWriter.hxx>

#include <vcl/vectorgraphicdata.hxx>

#include <vcl/virdev.hxx>

#include <impgraph.hxx>

#include <vcl/svapp.hxx>

#include <osl/file.hxx>

#include <vcl/graphicfilter.hxx>

#include <vcl/FilterConfigItem.hxx>

#include <vcl/wmf.hxx>

#include "igif/gifread.hxx"

#include <vcl/pdfread.hxx>

#include "jpeg/jpeg.hxx"

#include "png/png.hxx"

#include "ixbm/xbmread.hxx"

#include <filter/XpmReader.hxx>

#include <filter/TiffReader.hxx>

#include <filter/TiffWriter.hxx>

#include <filter/TgaReader.hxx>

#include <filter/PictReader.hxx>

#include <filter/MetReader.hxx>

#include <filter/RasReader.hxx>

#include <filter/PcxReader.hxx>

#include <filter/EpsReader.hxx>

#include <filter/EpsWriter.hxx>

#include <filter/PsdReader.hxx>

#include <filter/PcdReader.hxx>

#include <filter/PbmReader.hxx>

#include <filter/DxfReader.hxx>

#include <filter/GifWriter.hxx>

#include <filter/BmpReader.hxx>

#include <filter/BmpWriter.hxx>

#include <filter/WebpReader.hxx>

#include <filter/WebpWriter.hxx>

#include <osl/module.hxx>

#include <com/sun/star/uno/Reference.h>

#include <com/sun/star/awt/Size.hpp>

#include <com/sun/star/uno/XInterface.hpp>

#include <com/sun/star/io/XActiveDataSource.hpp>

#include <com/sun/star/io/XOutputStream.hpp>

#include <com/sun/star/svg/XSVGWriter.hpp>

#include <com/sun/star/xml/sax/XDocumentHandler.hpp>

#include <com/sun/star/xml/sax/Writer.hpp>

#include <unotools/ucbstreamhelper.hxx>

#include <rtl/bootstrap.hxx>

#include <tools/svlibrary.h>

#include <comphelper/string.hxx>

#include <unotools/ucbhelper.hxx>

#include <vector>

#include <memory>

#include <mutex>

#include <string_view>

#include <o3tl/string_view.hxx>

#include <vcl/TypeSerializer.hxx>


#include "FilterConfigCache.hxx"

#include "graphicfilter_internal.hxx"


#include <graphic/GraphicFormatDetector.hxx>

#include <graphic/GraphicReader.hxx>


// Support for GfxLinkType::NativeWebp is so far disabled,

// as enabling it would write .webp images e.g. to .odt documents,

// making those images unreadable for older readers. So for now

// disable the support so that .webp images will be written out as .png,

// and somewhen later enable the support unconditionally.

static bool supportNativeWebp()

{

    const char* const testname = getenv("LO_TESTNAME");

    if(testname == nullptr)

        return false;

    // Enable support only for those unittests that test it.

    if( std::string_view("_anonymous_namespace___GraphicTest__testUnloadedGraphicLoading_") == testname

        || std::string_view("VclFiltersTest__testExportImport_") == testname

        || o3tl::starts_with(std::string_view(testname), "WebpFilterTest__"))

        return true;

    return false;

}


static std::vector< GraphicFilter* > gaFilterHdlList;


static std::mutex& getListMutex()

{

    static std::mutex s_aListProtection;

    return s_aListProtection;

}


namespace {


class ImpFilterOutputStream : public ::cppu::WeakImplHelper< css::io::XOutputStream >

{

    SvStream&               mrStm;


    virtual void SAL_CALL   writeBytes( const css::uno::Sequence< sal_Int8 >& rData ) override

        { mrStm.WriteBytes(rData.getConstArray(), rData.getLength()); }

    virtual void SAL_CALL   flush() override

        { mrStm.FlushBuffer(); }

    virtual void SAL_CALL   closeOutput() override {}


public:


    explicit ImpFilterOutputStream( SvStream& rStm ) : mrStm( rStm ) {}

};


}


// Helper functions


sal_uInt8* ImplSearchEntry( sal_uInt8* pSource, sal_uInt8 const * pDest, sal_uLong nComp, sal_uLong nSize )

{

    while ( nComp-- >= nSize )

    {

        sal_uLong i;

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

        {

            if ( ( pSource[i]&~0x20 ) != ( pDest[i]&~0x20 ) )

                break;

        }

        if ( i == nSize )

            return pSource;

        pSource++;

    }

    return nullptr;

}


static OUString ImpGetExtension( std::u16string_view rPath )

{

    OUString        aExt;

    INetURLObject   aURL( rPath );

    aExt = aURL.GetFileExtension().toAsciiUpperCase();

    return aExt;

}


ErrCode GraphicFilter::ImpTestOrFindFormat( std::u16string_view rPath, SvStream& rStream, sal_uInt16& rFormat )

{

    // determine or check the filter/format by reading into it

    if( rFormat == GRFILTER_FORMAT_DONTKNOW )

    {

        OUString aFormatExt;

        if (vcl::peekGraphicFormat(rStream, aFormatExt, false))

        {

            rFormat = pConfig->GetImportFormatNumberForExtension( aFormatExt );

            if( rFormat != GRFILTER_FORMAT_DONTKNOW )

                return ERRCODE_NONE;

        }

        // determine filter by file extension

        if( !rPath.empty() )

        {

            OUString aExt( ImpGetExtension( rPath ) );

            rFormat = pConfig->GetImportFormatNumberForExtension( aExt );

            if( rFormat != GRFILTER_FORMAT_DONTKNOW )

                return ERRCODE_NONE;

        }

        return ERRCODE_GRFILTER_FORMATERROR;

    }

    else

    {

        OUString aTmpStr( pConfig->GetImportFormatExtension( rFormat ) );

        aTmpStr = aTmpStr.toAsciiUpperCase();

        if (!vcl::peekGraphicFormat(rStream, aTmpStr, true))

            return ERRCODE_GRFILTER_FORMATERROR;

        if ( pConfig->GetImportFormatExtension( rFormat ).equalsIgnoreAsciiCase( "pcd" ) )

        {

            sal_Int32 nBase = 2;    // default Base0

            if ( pConfig->GetImportFilterType( rFormat ).equalsIgnoreAsciiCase( "pcd_Photo_CD_Base4" ) )

                nBase = 1;

            else if ( pConfig->GetImportFilterType( rFormat ).equalsIgnoreAsciiCase( "pcd_Photo_CD_Base16" ) )

                nBase = 0;

            FilterConfigItem aFilterConfigItem( u"Office.Common/Filter/Graphic/Import/PCD" );

            aFilterConfigItem.WriteInt32( "Resolution", nBase );

        }

    }


    return ERRCODE_NONE;

}


static Graphic ImpGetScaledGraphic( const Graphic& rGraphic, FilterConfigItem& rConfigItem )

{

    Graphic     aGraphic;


    sal_Int32 nLogicalWidth = rConfigItem.ReadInt32( "LogicalWidth", 0 );

    sal_Int32 nLogicalHeight = rConfigItem.ReadInt32( "LogicalHeight", 0 );


    if ( rGraphic.GetType() != GraphicType::NONE )

    {

        sal_Int32 nMode = rConfigItem.ReadInt32( "ExportMode", -1 );


        if ( nMode == -1 )  // the property is not there, this is possible, if the graphic filter

        {                   // is called via UnoGraphicExporter and not from a graphic export Dialog

            nMode = 0;      // then we are defaulting this mode to 0

            if ( nLogicalWidth || nLogicalHeight )

                nMode = 2;

        }


        Size aOriginalSize;

        Size aPrefSize( rGraphic.GetPrefSize() );

        MapMode aPrefMapMode( rGraphic.GetPrefMapMode() );

        if (aPrefMapMode.GetMapUnit() == MapUnit::MapPixel)

            aOriginalSize = Application::GetDefaultDevice()->PixelToLogic(aPrefSize, MapMode(MapUnit::Map100thMM));

        else

            aOriginalSize = OutputDevice::LogicToLogic(aPrefSize, aPrefMapMode, MapMode(MapUnit::Map100thMM));

        if ( !nLogicalWidth )

            nLogicalWidth = aOriginalSize.Width();

        if ( !nLogicalHeight )

            nLogicalHeight = aOriginalSize.Height();

        if( rGraphic.GetType() == GraphicType::Bitmap )

        {


            // Resolution is set

            if( nMode == 1 )

            {

                BitmapEx    aBitmap( rGraphic.GetBitmapEx() );

                MapMode     aMap( MapUnit::Map100thInch );


                sal_Int32   nDPI = rConfigItem.ReadInt32( "Resolution", 75 );

                Fraction    aFrac( 1, std::clamp( nDPI, sal_Int32(75), sal_Int32(600) ) );


                aMap.SetScaleX( aFrac );

                aMap.SetScaleY( aFrac );


                Size aOldSize = aBitmap.GetSizePixel();

                aGraphic = rGraphic;

                aGraphic.SetPrefMapMode( aMap );

                aGraphic.SetPrefSize( Size( aOldSize.Width() * 100,

                                            aOldSize.Height() * 100 ) );

            }

            // Size is set

            else if( nMode == 2 )

            {

               aGraphic = rGraphic;

               aGraphic.SetPrefMapMode( MapMode( MapUnit::Map100thMM ) );

               aGraphic.SetPrefSize( Size( nLogicalWidth, nLogicalHeight ) );

            }

            else

                aGraphic = rGraphic;


            sal_Int32 nColors = rConfigItem.ReadInt32( "Color", 0 );

            if ( nColors )  // graphic conversion necessary ?

            {

                BitmapEx aBmpEx( aGraphic.GetBitmapEx() );

                aBmpEx.Convert( static_cast<BmpConversion>(nColors) );   // the entries in the xml section have the same meaning as

                aGraphic = aBmpEx;                          // they have in the BmpConversion enum, so it should be

            }                                               // allowed to cast them

        }

        else

        {

            if( ( nMode == 1 ) || ( nMode == 2 ) )

            {

                GDIMetaFile aMtf( rGraphic.GetGDIMetaFile() );

                Size aNewSize( OutputDevice::LogicToLogic(Size(nLogicalWidth, nLogicalHeight), MapMode(MapUnit::Map100thMM), aMtf.GetPrefMapMode()) );


                if( aNewSize.Width() && aNewSize.Height() )

                {

                    const Size aPreferredSize( aMtf.GetPrefSize() );

                    aMtf.Scale( Fraction( aNewSize.Width(), aPreferredSize.Width() ),

                                Fraction( aNewSize.Height(), aPreferredSize.Height() ) );

                }

                aGraphic = Graphic( aMtf );

            }

            else

                aGraphic = rGraphic;

        }


    }

    else

        aGraphic = rGraphic;


    return aGraphic;

}


GraphicFilter::GraphicFilter( bool bConfig )

    : bUseConfig(bConfig)

{

    ImplInit();

}


GraphicFilter::~GraphicFilter()

{

    {

        std::scoped_lock aGuard( getListMutex() );

        auto it = std::find(gaFilterHdlList.begin(), gaFilterHdlList.end(), this);

        if( it != gaFilterHdlList.end() )

            gaFilterHdlList.erase( it );


        if( gaFilterHdlList.empty() )

            delete pConfig;

    }


    mxErrorEx.reset();

}


void GraphicFilter::ImplInit()

{

    {

        std::scoped_lock aGuard( getListMutex() );


        if ( gaFilterHdlList.empty() )

            pConfig = new FilterConfigCache( bUseConfig );

        else

            pConfig = gaFilterHdlList.front()->pConfig;


        gaFilterHdlList.push_back( this );

    }


    if( bUseConfig )

    {

        OUString url("$BRAND_BASE_DIR/" LIBO_LIB_FOLDER);

        rtl::Bootstrap::expandMacros(url); //TODO: detect failure

        osl::FileBase::getSystemPathFromFileURL(url, aFilterPath);

    }


    mxErrorEx = ERRCODE_NONE;

}


ErrCode GraphicFilter::ImplSetError( ErrCode nError, const SvStream* pStm )

{

    mxErrorEx = pStm ? pStm->GetError() : ERRCODE_NONE;

    return nError;

}


sal_uInt16 GraphicFilter::GetImportFormatCount() const

{

    return pConfig->GetImportFormatCount();

}


sal_uInt16 GraphicFilter::GetImportFormatNumber( std::u16string_view rFormatName )

{

    return pConfig->GetImportFormatNumber( rFormatName );

}


sal_uInt16 GraphicFilter::GetImportFormatNumberForShortName( std::u16string_view rShortName )

{

    return pConfig->GetImportFormatNumberForShortName( rShortName );

}


sal_uInt16 GraphicFilter::GetImportFormatNumberForTypeName( std::u16string_view rType )

{

    return pConfig->GetImportFormatNumberForTypeName( rType );

}


OUString GraphicFilter::GetImportFormatName( sal_uInt16 nFormat )

{

    return pConfig->GetImportFormatName( nFormat );

}


OUString GraphicFilter::GetImportFormatTypeName( sal_uInt16 nFormat )

{

    return pConfig->GetImportFilterTypeName( nFormat );

}


#ifdef _WIN32

OUString GraphicFilter::GetImportFormatMediaType( sal_uInt16 nFormat )

{

    return pConfig->GetImportFormatMediaType( nFormat );

}

#endif


OUString GraphicFilter::GetImportFormatShortName( sal_uInt16 nFormat )

{

    return pConfig->GetImportFormatShortName( nFormat );

}


OUString GraphicFilter::GetImportWildcard( sal_uInt16 nFormat, sal_Int32 nEntry )

{

    return pConfig->GetImportWildcard( nFormat, nEntry );

}


sal_uInt16 GraphicFilter::GetExportFormatCount() const

{

    return pConfig->GetExportFormatCount();

}


sal_uInt16 GraphicFilter::GetExportFormatNumber( std::u16string_view rFormatName )

{

    return pConfig->GetExportFormatNumber( rFormatName );

}


sal_uInt16 GraphicFilter::GetExportFormatNumberForMediaType( std::u16string_view rMediaType )

{

    return pConfig->GetExportFormatNumberForMediaType( rMediaType );

}


sal_uInt16 GraphicFilter::GetExportFormatNumberForShortName( std::u16string_view rShortName )

{

    return pConfig->GetExportFormatNumberForShortName( rShortName );

}


OUString GraphicFilter::GetExportInternalFilterName( sal_uInt16 nFormat )

{

    return pConfig->GetExportInternalFilterName( nFormat );

}


sal_uInt16 GraphicFilter::GetExportFormatNumberForTypeName( std::u16string_view rType )

{

    return pConfig->GetExportFormatNumberForTypeName( rType );

}


OUString GraphicFilter::GetExportFormatName( sal_uInt16 nFormat )

{

    return pConfig->GetExportFormatName( nFormat );

}


OUString GraphicFilter::GetExportFormatMediaType( sal_uInt16 nFormat )

{

    return pConfig->GetExportFormatMediaType( nFormat );

}


OUString GraphicFilter::GetExportFormatShortName( sal_uInt16 nFormat )

{

    return pConfig->GetExportFormatShortName( nFormat );

}


OUString GraphicFilter::GetExportWildcard( sal_uInt16 nFormat )

{

    return pConfig->GetExportWildcard( nFormat, 0 );

}


bool GraphicFilter::IsExportPixelFormat( sal_uInt16 nFormat )

{

    return pConfig->IsExportPixelFormat( nFormat );

}


ErrCode GraphicFilter::CanImportGraphic( const INetURLObject& rPath,

                                        sal_uInt16 nFormat, sal_uInt16* pDeterminedFormat )

{

    ErrCode  nRetValue = ERRCODE_GRFILTER_FORMATERROR;

    SAL_WARN_IF( rPath.GetProtocol() == INetProtocol::NotValid, "vcl.filter", "GraphicFilter::CanImportGraphic() : ProtType == INetProtocol::NotValid" );


    OUString    aMainUrl( rPath.GetMainURL( INetURLObject::DecodeMechanism::NONE ) );

    std::unique_ptr<SvStream> xStream(::utl::UcbStreamHelper::CreateStream( aMainUrl, StreamMode::READ | StreamMode::SHARE_DENYNONE ));

    if (xStream)

    {

        nRetValue = CanImportGraphic( aMainUrl, *xStream, nFormat, pDeterminedFormat );

    }

    return nRetValue;

}


ErrCode GraphicFilter::CanImportGraphic( std::u16string_view rMainUrl, SvStream& rIStream,

                                        sal_uInt16 nFormat, sal_uInt16* pDeterminedFormat )

{

    sal_uInt64 nStreamPos = rIStream.Tell();

    ErrCode nRes = ImpTestOrFindFormat( rMainUrl, rIStream, nFormat );


    rIStream.Seek(nStreamPos);


    if( nRes==ERRCODE_NONE && pDeterminedFormat!=nullptr )

        *pDeterminedFormat = nFormat;


    return ImplSetError( nRes, &rIStream );

}


//SJ: TODO, we need to create a GraphicImporter component

ErrCode GraphicFilter::ImportGraphic( Graphic& rGraphic, const INetURLObject& rPath,

                                     sal_uInt16 nFormat, sal_uInt16 * pDeterminedFormat, GraphicFilterImportFlags nImportFlags )

{

    ErrCode nRetValue = ERRCODE_GRFILTER_FORMATERROR;

    SAL_WARN_IF( rPath.GetProtocol() == INetProtocol::NotValid, "vcl.filter", "GraphicFilter::ImportGraphic() : ProtType == INetProtocol::NotValid" );


    OUString    aMainUrl( rPath.GetMainURL( INetURLObject::DecodeMechanism::NONE ) );

    std::unique_ptr<SvStream> xStream(::utl::UcbStreamHelper::CreateStream( aMainUrl, StreamMode::READ | StreamMode::SHARE_DENYNONE ));

    if (xStream)

    {

        nRetValue = ImportGraphic( rGraphic, aMainUrl, *xStream, nFormat, pDeterminedFormat, nImportFlags );

    }

    return nRetValue;

}


namespace {


struct GraphicImportContext

{

    std::unique_ptr<SvStream> m_pStream;

    std::shared_ptr<Graphic> m_pGraphic;

    std::unique_ptr<BitmapScopedWriteAccess> m_pAccess;

    std::unique_ptr<AlphaScopedWriteAccess> m_pAlphaAccess;

    // Need to have an AlphaMask instance to keep its lifetime.

    AlphaMask mAlphaMask;

    ErrCode m_nStatus = ERRCODE_GRFILTER_FILTERERROR;

    GfxLinkType m_eLinkType = GfxLinkType::NONE;

    sal_uInt64 m_nStreamBegin = 0;

    GraphicFilterImportFlags m_nImportFlags = GraphicFilterImportFlags::NONE;

};


class GraphicImportTask : public comphelper::ThreadTask

{

    GraphicImportContext& m_rContext;

public:

    GraphicImportTask(const std::shared_ptr<comphelper::ThreadTaskTag>& pTag, GraphicImportContext& rContext);

    void doWork() override;

    static void doImport(GraphicImportContext& rContext);

};


}


GraphicImportTask::GraphicImportTask(const std::shared_ptr<comphelper::ThreadTaskTag>& pTag, GraphicImportContext& rContext)

    : comphelper::ThreadTask(pTag),

      m_rContext(rContext)

{

}


void GraphicImportTask::doWork()

{

    GraphicImportTask::doImport(m_rContext);

}


void GraphicImportTask::doImport(GraphicImportContext& rContext)

{

    if(rContext.m_eLinkType == GfxLinkType::NativeJpg)

    {

        if (!ImportJPEG(*rContext.m_pStream, *rContext.m_pGraphic, rContext.m_nImportFlags | GraphicFilterImportFlags::UseExistingBitmap, rContext.m_pAccess.get()))

            rContext.m_nStatus = ERRCODE_GRFILTER_FILTERERROR;

    }

    else if(rContext.m_eLinkType == GfxLinkType::NativePng)

    {

        if (!vcl::ImportPNG(*rContext.m_pStream, *rContext.m_pGraphic,

            rContext.m_nImportFlags | GraphicFilterImportFlags::UseExistingBitmap,

            rContext.m_pAccess.get(), rContext.m_pAlphaAccess.get()))

        {

            rContext.m_nStatus = ERRCODE_GRFILTER_FILTERERROR;

        }

    }

}


void GraphicFilter::ImportGraphics(std::vector< std::shared_ptr<Graphic> >& rGraphics, std::vector< std::unique_ptr<SvStream> > vStreams)

{

    static bool bThreads = !getenv("VCL_NO_THREAD_IMPORT");

    std::vector<GraphicImportContext> aContexts;

    aContexts.reserve(vStreams.size());

    comphelper::ThreadPool& rSharedPool = comphelper::ThreadPool::getSharedOptimalPool();

    std::shared_ptr<comphelper::ThreadTaskTag> pTag = comphelper::ThreadPool::createThreadTaskTag();


    for (auto& pStream : vStreams)

    {

        aContexts.emplace_back();

        GraphicImportContext& rContext = aContexts.back();


        if (pStream)

        {

            rContext.m_pStream = std::move(pStream);

            rContext.m_pGraphic = std::make_shared<Graphic>();

            rContext.m_nStatus = ERRCODE_NONE;


            // Detect the format.

            ResetLastError();

            rContext.m_nStreamBegin = rContext.m_pStream->Tell();

            sal_uInt16 nFormat = GRFILTER_FORMAT_DONTKNOW;

            rContext.m_nStatus = ImpTestOrFindFormat(u"", *rContext.m_pStream, nFormat);

            rContext.m_pStream->Seek(rContext.m_nStreamBegin);


            // Import the graphic.

            if (rContext.m_nStatus == ERRCODE_NONE && !rContext.m_pStream->GetError())

            {

                OUString aFilterName = pConfig->GetImportFilterName(nFormat);


                if (aFilterName.equalsIgnoreAsciiCase(IMP_JPEG))

                {

                    rContext.m_eLinkType = GfxLinkType::NativeJpg;

                    rContext.m_nImportFlags = GraphicFilterImportFlags::SetLogsizeForJpeg;


                    if (ImportJPEG( *rContext.m_pStream, *rContext.m_pGraphic, rContext.m_nImportFlags | GraphicFilterImportFlags::OnlyCreateBitmap, nullptr))

                    {

                        Bitmap& rBitmap = const_cast<Bitmap&>(rContext.m_pGraphic->GetBitmapExRef().GetBitmap());

                        rContext.m_pAccess = std::make_unique<BitmapScopedWriteAccess>(rBitmap);

                        rContext.m_pStream->Seek(rContext.m_nStreamBegin);

                        if (bThreads)

                            rSharedPool.pushTask(std::make_unique<GraphicImportTask>(pTag, rContext));

                        else

                            GraphicImportTask::doImport(rContext);

                    }

                    else

                        rContext.m_nStatus = ERRCODE_GRFILTER_FILTERERROR;

                }

                else if (aFilterName.equalsIgnoreAsciiCase(IMP_PNG))

                {

                    rContext.m_eLinkType = GfxLinkType::NativePng;


                    if (vcl::ImportPNG( *rContext.m_pStream, *rContext.m_pGraphic, rContext.m_nImportFlags | GraphicFilterImportFlags::OnlyCreateBitmap, nullptr, nullptr))

                    {

                        const BitmapEx& rBitmapEx = rContext.m_pGraphic->GetBitmapExRef();

                        Bitmap& rBitmap = const_cast<Bitmap&>(rBitmapEx.GetBitmap());

                        rContext.m_pAccess = std::make_unique<BitmapScopedWriteAccess>(rBitmap);

                        if(rBitmapEx.IsAlpha())

                        {

                            // The separate alpha bitmap causes a number of complications. Not only

                            // we need to have an extra bitmap access for it, but we also need

                            // to keep an AlphaMask instance in the context. This is because

                            // BitmapEx internally keeps Bitmap and not AlphaMask (because the Bitmap

                            // may be also a mask, not alpha). So BitmapEx::GetAlpha() returns

                            // a temporary, and direct access to the Bitmap wouldn't work

                            // with AlphaScopedBitmapAccess. *sigh*

                            rContext.mAlphaMask = rBitmapEx.GetAlpha();

                            rContext.m_pAlphaAccess = std::make_unique<AlphaScopedWriteAccess>(rContext.mAlphaMask);

                        }

                        rContext.m_pStream->Seek(rContext.m_nStreamBegin);

                        if (bThreads)

                            rSharedPool.pushTask(std::make_unique<GraphicImportTask>(pTag, rContext));

                        else

                            GraphicImportTask::doImport(rContext);

                    }

                    else

                        rContext.m_nStatus = ERRCODE_GRFILTER_FILTERERROR;

                }

                else

                    rContext.m_nStatus = ERRCODE_GRFILTER_FILTERERROR;

            }

        }

    }


    rSharedPool.waitUntilDone(pTag);


    // Process data after import.

    for (auto& rContext : aContexts)

    {

        if(rContext.m_pAlphaAccess) // Need to move the AlphaMask back to the BitmapEx.

            *rContext.m_pGraphic = BitmapEx( rContext.m_pGraphic->GetBitmapExRef().GetBitmap(), rContext.mAlphaMask );

        rContext.m_pAccess.reset();

        rContext.m_pAlphaAccess.reset();


        if (rContext.m_nStatus == ERRCODE_NONE && (rContext.m_eLinkType != GfxLinkType::NONE) && !rContext.m_pGraphic->GetReaderContext())

        {

            std::unique_ptr<sal_uInt8[]> pGraphicContent;


            const sal_uInt64 nStreamEnd = rContext.m_pStream->Tell();

            sal_Int32 nGraphicContentSize = nStreamEnd - rContext.m_nStreamBegin;


            if (nGraphicContentSize > 0)

            {

                try

                {

                    pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);

                }

                catch (const std::bad_alloc&)

                {

                    rContext.m_nStatus = ERRCODE_GRFILTER_TOOBIG;

                }


                if (rContext.m_nStatus == ERRCODE_NONE)

                {

                    rContext.m_pStream->Seek(rContext.m_nStreamBegin);

                    rContext.m_pStream->ReadBytes(pGraphicContent.get(), nGraphicContentSize);

                }

            }


            if (rContext.m_nStatus == ERRCODE_NONE)

                rContext.m_pGraphic->SetGfxLink(std::make_shared<GfxLink>(std::move(pGraphicContent), nGraphicContentSize, rContext.m_eLinkType));

        }


        if (rContext.m_nStatus != ERRCODE_NONE)

            rContext.m_pGraphic = nullptr;


        rGraphics.push_back(rContext.m_pGraphic);

    }

}


void GraphicFilter::MakeGraphicsAvailableThreaded(std::vector<Graphic*>& graphics)

{

    // Graphic::makeAvailable() is not thread-safe. Only the jpeg and png loaders are, so here

    // we process only jpeg and png images that also have their stream data, load new Graphic's

    // from them and then update the passed objects using them.

    std::vector< Graphic* > toLoad;

    for(auto graphic : graphics)

    {

        // Need to use GetSharedGfxLink, to access the pointer without copying.

        if(!graphic->isAvailable() && graphic->IsGfxLink()

            && graphic->GetSharedGfxLink()->GetDataSize() != 0

            && (graphic->GetSharedGfxLink()->GetType() == GfxLinkType::NativeJpg

                || graphic->GetSharedGfxLink()->GetType() == GfxLinkType::NativePng))

        {

            // Graphic objects share internal ImpGraphic, do not process any of those twice.

            const auto predicate = [graphic](Graphic* item) { return item->ImplGetImpGraphic() == graphic->ImplGetImpGraphic(); };

            if( std::find_if(toLoad.begin(), toLoad.end(), predicate ) == toLoad.end())

                toLoad.push_back( graphic );

        }

    }

    if( toLoad.empty())

        return;

    std::vector< std::unique_ptr<SvStream>> streams;

    for( auto graphic : toLoad )

    {

        streams.push_back( std::make_unique<SvMemoryStream>( const_cast<sal_uInt8*>(graphic->GetSharedGfxLink()->GetData()),

            graphic->GetSharedGfxLink()->GetDataSize(), StreamMode::READ | StreamMode::WRITE));

    }

    std::vector< std::shared_ptr<Graphic>> loadedGraphics;

    ImportGraphics(loadedGraphics, std::move(streams));

    assert(loadedGraphics.size() == toLoad.size());

    for( size_t i = 0; i < toLoad.size(); ++i )

    {

        if(loadedGraphics[ i ] != nullptr)

            toLoad[ i ]->ImplGetImpGraphic()->updateFromLoadedGraphic(loadedGraphics[ i ]->ImplGetImpGraphic());

    }

}


Graphic GraphicFilter::ImportUnloadedGraphic(SvStream& rIStream, sal_uInt64 sizeLimit,

                                             const Size* pSizeHint)

{

    Graphic aGraphic;

    sal_uInt16 nFormat = GRFILTER_FORMAT_DONTKNOW;

    GfxLinkType eLinkType = GfxLinkType::NONE;


    ResetLastError();


    const sal_uInt64 nStreamBegin = rIStream.Tell();


    rIStream.Seek(nStreamBegin);


    ErrCode nStatus = ImpTestOrFindFormat(u"", rIStream, nFormat);


    rIStream.Seek(nStreamBegin);

    sal_uInt32 nStreamLength(rIStream.remainingSize());

    if (sizeLimit && sizeLimit < nStreamLength)

        nStreamLength = sizeLimit;


    OUString aFilterName = pConfig->GetImportFilterName(nFormat);


    std::unique_ptr<sal_uInt8[]> pGraphicContent;

    sal_Int32 nGraphicContentSize = 0;


    // read graphic

    {

        if (aFilterName.equalsIgnoreAsciiCase(IMP_GIF))

        {

            eLinkType = GfxLinkType::NativeGif;

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PNG))

        {

            // check if this PNG contains a GIF chunk!

            pGraphicContent = vcl::PngImageReader::getMicrosoftGifChunk(rIStream, &nGraphicContentSize);

            if( pGraphicContent )

                eLinkType = GfxLinkType::NativeGif;

            else

                eLinkType = GfxLinkType::NativePng;

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_JPEG))

        {

            eLinkType = GfxLinkType::NativeJpg;

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_SVG))

        {

            bool bOkay(false);


            if (nStreamLength > 0)

            {

                std::vector<sal_uInt8> aTwoBytes(2);

                rIStream.ReadBytes(aTwoBytes.data(), 2);

                rIStream.Seek(nStreamBegin);


                if (aTwoBytes[0] == 0x1F && aTwoBytes[1] == 0x8B)

                {

                    SvMemoryStream aMemStream;

                    ZCodec aCodec;

                    tools::Long nMemoryLength;


                    aCodec.BeginCompression(ZCODEC_DEFAULT_COMPRESSION, /*gzLib*/true);

                    nMemoryLength = aCodec.Decompress(rIStream, aMemStream);

                    aCodec.EndCompression();


                    if (!rIStream.GetError() && nMemoryLength >= 0)

                    {

                        nGraphicContentSize = nMemoryLength;

                        pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);


                        aMemStream.Seek(STREAM_SEEK_TO_BEGIN);

                        aMemStream.ReadBytes(pGraphicContent.get(), nGraphicContentSize);


                        bOkay = true;

                    }

                }

                else

                {

                    nGraphicContentSize = nStreamLength;

                    pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);

                    rIStream.ReadBytes(pGraphicContent.get(), nStreamLength);


                    bOkay = true;

                }

            }


            if (bOkay)

            {

                eLinkType = GfxLinkType::NativeSvg;

            }

            else

            {

                nStatus = ERRCODE_GRFILTER_FILTERERROR;

            }

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_BMP))

        {

            eLinkType = GfxLinkType::NativeBmp;

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_MOV))

        {

            eLinkType = GfxLinkType::NativeMov;

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_WMF) ||

                aFilterName.equalsIgnoreAsciiCase(IMP_EMF) ||

                aFilterName.equalsIgnoreAsciiCase(IMP_WMZ) ||

                aFilterName.equalsIgnoreAsciiCase(IMP_EMZ))

        {

            nGraphicContentSize = nStreamLength;

            pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);

            rIStream.Seek(nStreamBegin);

            if (ZCodec::IsZCompressed(rIStream))

            {

                ZCodec aCodec;

                SvMemoryStream aMemStream;

                tools::Long nMemoryLength;

                aCodec.BeginCompression(ZCODEC_DEFAULT_COMPRESSION, /*gzLib*/true);

                nMemoryLength = aCodec.Decompress(rIStream, aMemStream);

                aCodec.EndCompression();


                if (!rIStream.GetError() && nMemoryLength >= 0)

                {

                    nGraphicContentSize = nMemoryLength;

                    pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);


                    aMemStream.Seek(STREAM_SEEK_TO_BEGIN);

                    aMemStream.ReadBytes(pGraphicContent.get(), nGraphicContentSize);

                }

            }

            else

            {

                rIStream.ReadBytes(pGraphicContent.get(), nStreamLength);

            }

            if (!rIStream.GetError())

            {

                eLinkType = GfxLinkType::NativeWmf;

            }

            else

            {

                nStatus = ERRCODE_GRFILTER_FILTERERROR;

            }

        }

        else if (aFilterName == IMP_PDF)

        {

            eLinkType = GfxLinkType::NativePdf;

        }

        else if (aFilterName == IMP_TIFF)

        {

            eLinkType = GfxLinkType::NativeTif;

        }

        else if (aFilterName == IMP_PICT)

        {

            eLinkType = GfxLinkType::NativePct;

        }

        else if (aFilterName == IMP_MET)

        {

            eLinkType = GfxLinkType::NativeMet;

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_WEBP))

        {

            if(supportNativeWebp())

                eLinkType = GfxLinkType::NativeWebp;

            else

                nStatus = ERRCODE_GRFILTER_FILTERERROR;

        }

        else

        {

            nStatus = ERRCODE_GRFILTER_FILTERERROR;

        }

    }


    if (nStatus == ERRCODE_NONE && eLinkType != GfxLinkType::NONE)

    {

        if (!pGraphicContent)

        {

            nGraphicContentSize = nStreamLength;


            if (nGraphicContentSize > 0)

            {

                try

                {

                    pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);

                }

                catch (const std::bad_alloc&)

                {

                    nStatus = ERRCODE_GRFILTER_TOOBIG;

                }


                if (nStatus == ERRCODE_NONE)

                {

                    rIStream.Seek(nStreamBegin);

                    nGraphicContentSize = rIStream.ReadBytes(pGraphicContent.get(), nGraphicContentSize);

                }

            }

        }


        if( nStatus == ERRCODE_NONE )

        {

            bool bAnimated = false;

            Size aLogicSize;

            if (eLinkType == GfxLinkType::NativeGif)

            {

                SvMemoryStream aMemoryStream(pGraphicContent.get(), nGraphicContentSize, StreamMode::READ);

                bAnimated = IsGIFAnimated(aMemoryStream, aLogicSize);

                if (!pSizeHint && aLogicSize.getWidth() && aLogicSize.getHeight())

                {

                    pSizeHint = &aLogicSize;

                }

            }

            aGraphic.SetGfxLink(std::make_shared<GfxLink>(std::move(pGraphicContent), nGraphicContentSize, eLinkType));

            aGraphic.ImplGetImpGraphic()->setPrepared(bAnimated, pSizeHint);

        }

    }


    // Set error code or try to set native buffer

    if (nStatus != ERRCODE_NONE)

        ImplSetError(nStatus, &rIStream);

    if (nStatus != ERRCODE_NONE || eLinkType == GfxLinkType::NONE)

        rIStream.Seek(nStreamBegin);


    return aGraphic;

}


ErrCode GraphicFilter::readGIF(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (ImportGIF(rStream, rGraphic))

    {

        rLinkType = GfxLinkType::NativeGif;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readPNG(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType, std::unique_ptr<sal_uInt8[]> & rpGraphicContent,

    sal_Int32& rGraphicContentSize)

{

    ErrCode aReturnCode = ERRCODE_NONE;


    // check if this PNG contains a GIF chunk!

    rpGraphicContent = vcl::PngImageReader::getMicrosoftGifChunk(rStream, &rGraphicContentSize);

    if( rpGraphicContent )

    {

        SvMemoryStream aIStrm(rpGraphicContent.get(), rGraphicContentSize, StreamMode::READ);

        ImportGIF(aIStrm, rGraphic);

        rLinkType = GfxLinkType::NativeGif;

        return aReturnCode;

    }


    // PNG has no GIF chunk

    vcl::PngImageReader aPNGReader(rStream);

    BitmapEx aBitmapEx(aPNGReader.read());

    if (!aBitmapEx.IsEmpty())

    {

        rGraphic = aBitmapEx;

        rLinkType = GfxLinkType::NativePng;

    }

    else

        aReturnCode = ERRCODE_GRFILTER_FILTERERROR;


    return aReturnCode;

}


ErrCode GraphicFilter::readJPEG(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType, GraphicFilterImportFlags nImportFlags)

{

    ErrCode aReturnCode = ERRCODE_NONE;


    // set LOGSIZE flag always, if not explicitly disabled

    // (see #90508 and #106763)

    if (!(nImportFlags & GraphicFilterImportFlags::DontSetLogsizeForJpeg))

    {

        nImportFlags |= GraphicFilterImportFlags::SetLogsizeForJpeg;

    }


    sal_uInt64 nPosition = rStream.Tell();

    if (!ImportJPEG(rStream, rGraphic, nImportFlags | GraphicFilterImportFlags::OnlyCreateBitmap, nullptr))

        aReturnCode = ERRCODE_GRFILTER_FILTERERROR;

    else

    {

        Bitmap& rBitmap = const_cast<Bitmap&>(rGraphic.GetBitmapExRef().GetBitmap());

        BitmapScopedWriteAccess pWriteAccess(rBitmap);

        rStream.Seek(nPosition);

        if (!ImportJPEG(rStream, rGraphic, nImportFlags | GraphicFilterImportFlags::UseExistingBitmap, &pWriteAccess))

            aReturnCode = ERRCODE_GRFILTER_FILTERERROR;

        else

            rLinkType = GfxLinkType::NativeJpg;

    }


    return aReturnCode;

}


ErrCode GraphicFilter::readSVG(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType, std::unique_ptr<sal_uInt8[]> & rpGraphicContent,

    sal_Int32& rGraphicContentSize)

{

    ErrCode aReturnCode = ERRCODE_NONE;


    const sal_uInt64 nStreamPosition(rStream.Tell());

    const sal_uInt64 nStreamLength(rStream.remainingSize());


    bool bOkay(false);


    if (nStreamLength > 0)

    {

        std::vector<sal_uInt8> aTwoBytes(2);

        rStream.ReadBytes(aTwoBytes.data(), 2);

        rStream.Seek(nStreamPosition);


        if (aTwoBytes[0] == 0x1F && aTwoBytes[1] == 0x8B)

        {

            SvMemoryStream aMemStream;

            ZCodec aCodec;

            tools::Long nMemoryLength;


            aCodec.BeginCompression(ZCODEC_DEFAULT_COMPRESSION, /*gzLib*/true);

            nMemoryLength = aCodec.Decompress(rStream, aMemStream);

            aCodec.EndCompression();


            if (!rStream.GetError() && nMemoryLength >= 0)

            {

                VectorGraphicDataArray aNewData(nMemoryLength);

                aMemStream.Seek(STREAM_SEEK_TO_BEGIN);

                aMemStream.ReadBytes(aNewData.getArray(), nMemoryLength);


                // Make a uncompressed copy for GfxLink

                rGraphicContentSize = nMemoryLength;

                rpGraphicContent.reset(new sal_uInt8[rGraphicContentSize]);

                std::copy(std::cbegin(aNewData), std::cend(aNewData), rpGraphicContent.get());


                if (!aMemStream.GetError())

                {

                    BinaryDataContainer aDataContainer(reinterpret_cast<const sal_uInt8*>(aNewData.getConstArray()), aNewData.getLength());

                    auto aVectorGraphicDataPtr = std::make_shared<VectorGraphicData>(aDataContainer, VectorGraphicDataType::Svg);

                    rGraphic = Graphic(aVectorGraphicDataPtr);

                    bOkay = true;

                }

            }

        }

        else

        {

            VectorGraphicDataArray aNewData(nStreamLength);

            rStream.ReadBytes(aNewData.getArray(), nStreamLength);


            if (!rStream.GetError())

            {

                BinaryDataContainer aDataContainer(reinterpret_cast<const sal_uInt8*>(aNewData.getConstArray()), aNewData.getLength());

                auto aVectorGraphicDataPtr = std::make_shared<VectorGraphicData>(aDataContainer, VectorGraphicDataType::Svg);

                rGraphic = Graphic(aVectorGraphicDataPtr);

                bOkay = true;

            }

        }

    }


    if (bOkay)

    {

        rLinkType = GfxLinkType::NativeSvg;

    }

    else

    {

        aReturnCode = ERRCODE_GRFILTER_FILTERERROR;

    }


    return aReturnCode;

}


ErrCode GraphicFilter::readXBM(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportXBM(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readXPM(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportXPM(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readWMF_EMF(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType, VectorGraphicDataType eType)

{

    // use new UNO API service, do not directly import but create a

    // Graphic that contains the original data and decomposes to

    // primitives on demand

    sal_uInt32 nStreamLength(rStream.remainingSize());

    SvStream* aNewStream = &rStream;

    ErrCode aReturnCode = ERRCODE_GRFILTER_FILTERERROR;

    SvMemoryStream aMemStream;

    if (ZCodec::IsZCompressed(rStream))

    {

        ZCodec aCodec;

        aCodec.BeginCompression(ZCODEC_DEFAULT_COMPRESSION, /*gzLib*/true);

        auto nDecompressLength = aCodec.Decompress(rStream, aMemStream);

        aCodec.EndCompression();

        aMemStream.Seek(STREAM_SEEK_TO_BEGIN);

        if (nDecompressLength >= 0)

        {

            nStreamLength = nDecompressLength;

            aNewStream = &aMemStream;

        }

    }

    VectorGraphicDataArray aNewData(nStreamLength);

    aNewStream->ReadBytes(aNewData.getArray(), nStreamLength);

    if (!aNewStream->GetError())

    {

        const VectorGraphicDataType aDataType(eType);

        BinaryDataContainer aDataContainer(reinterpret_cast<const sal_uInt8*>(aNewData.getConstArray()), aNewData.getLength());


        auto aVectorGraphicDataPtr = std::make_shared<VectorGraphicData>(aDataContainer, aDataType);


        rGraphic = Graphic(aVectorGraphicDataPtr);

        rLinkType = GfxLinkType::NativeWmf;

        aReturnCode = ERRCODE_NONE;

    }


    return aReturnCode;

}


ErrCode GraphicFilter::readWMF(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    return readWMF_EMF(rStream, rGraphic, rLinkType,VectorGraphicDataType::Wmf);

}


ErrCode GraphicFilter::readEMF(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    return readWMF_EMF(rStream, rGraphic, rLinkType, VectorGraphicDataType::Emf);

}


ErrCode GraphicFilter::readPDF(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (vcl::ImportPDF(rStream, rGraphic))

    {

        rLinkType = GfxLinkType::NativePdf;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readTIFF(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (ImportTiffGraphicImport(rStream, rGraphic))

    {

        rLinkType = GfxLinkType::NativeTif;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readWithTypeSerializer(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType, std::u16string_view aFilterName)

{

    ErrCode aReturnCode = ERRCODE_GRFILTER_FILTERERROR;


    // SV internal filters for import bitmaps and MetaFiles

    TypeSerializer aSerializer(rStream);

    aSerializer.readGraphic(rGraphic);


    if (!rStream.GetError())

    {

        if (o3tl::equalsIgnoreAsciiCase(aFilterName, u"" IMP_MOV))

        {

            rGraphic.SetDefaultType();

            rStream.Seek(STREAM_SEEK_TO_END);

            rLinkType = GfxLinkType::NativeMov;

        }

        aReturnCode = ERRCODE_NONE;

    }

    return aReturnCode;

}


ErrCode GraphicFilter::readBMP(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (BmpReader(rStream, rGraphic))

    {

        rLinkType = GfxLinkType::NativeBmp;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readTGA(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportTgaGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readPICT(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (ImportPictGraphic(rStream, rGraphic))

    {

        rLinkType = GfxLinkType::NativePct;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readMET(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (ImportMetGraphic(rStream, rGraphic))

    {

        rLinkType = GfxLinkType::NativeMet;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readRAS(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportRasGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readPCX(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportPcxGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readEPS(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportEpsGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readPSD(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportPsdGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readPCD(SvStream & rStream, Graphic & rGraphic)

{

    std::unique_ptr<FilterConfigItem> pFilterConfigItem;

    if (!utl::ConfigManager::IsFuzzing())

    {

        OUString aFilterConfigPath( "Office.Common/Filter/Graphic/Import/PCD" );

        pFilterConfigItem = std::make_unique<FilterConfigItem>(aFilterConfigPath);

    }


    if (ImportPcdGraphic(rStream, rGraphic, pFilterConfigItem.get()))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readPBM(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportPbmGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readDXF(SvStream & rStream, Graphic & rGraphic)

{

    if (ImportDxfGraphic(rStream, rGraphic))

        return ERRCODE_NONE;

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::readWEBP(SvStream & rStream, Graphic & rGraphic, GfxLinkType & rLinkType)

{

    if (ImportWebpGraphic(rStream, rGraphic))

    {

        if(supportNativeWebp())

            rLinkType = GfxLinkType::NativeWebp;

        return ERRCODE_NONE;

    }

    else

        return ERRCODE_GRFILTER_FILTERERROR;

}


ErrCode GraphicFilter::ImportGraphic(Graphic& rGraphic, std::u16string_view rPath, SvStream& rIStream,

                                     sal_uInt16 nFormat, sal_uInt16* pDeterminedFormat, GraphicFilterImportFlags nImportFlags)

{

    OUString aFilterName;

    sal_uInt64 nStreamBegin;

    ErrCode nStatus;

    GfxLinkType eLinkType = GfxLinkType::NONE;

    const bool bLinkSet = rGraphic.IsGfxLink();


    std::unique_ptr<sal_uInt8[]> pGraphicContent;

    sal_Int32  nGraphicContentSize = 0;


    ResetLastError();


    std::shared_ptr<GraphicReader> pContext = rGraphic.GetReaderContext();

    bool  bDummyContext = rGraphic.IsDummyContext();

    if( !pContext || bDummyContext )

    {

        if( bDummyContext )

        {

            rGraphic.SetDummyContext( false );

            nStreamBegin = 0;

        }

        else

            nStreamBegin = rIStream.Tell();


        nStatus = ImpTestOrFindFormat( rPath, rIStream, nFormat );

        // if pending, return ERRCODE_NONE in order to request more bytes

        if( rIStream.GetError() == ERRCODE_IO_PENDING )

        {

            rGraphic.SetDummyContext(true);

            rIStream.ResetError();

            rIStream.Seek( nStreamBegin );

            return ImplSetError( ERRCODE_NONE );

        }


        rIStream.Seek( nStreamBegin );


        if( ( nStatus != ERRCODE_NONE ) || rIStream.GetError() )

            return ImplSetError( ( nStatus != ERRCODE_NONE ) ? nStatus : ERRCODE_GRFILTER_OPENERROR, &rIStream );


        if( pDeterminedFormat )

            *pDeterminedFormat = nFormat;


        aFilterName = pConfig->GetImportFilterName( nFormat );

    }

    else

    {

        aFilterName = pContext->GetUpperFilterName();


        nStreamBegin = 0;

        nStatus = ERRCODE_NONE;

    }


    // read graphic

    {

        if (aFilterName.equalsIgnoreAsciiCase(IMP_GIF))

        {

            nStatus = readGIF(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PNG))

        {

            nStatus = readPNG(rIStream, rGraphic, eLinkType, pGraphicContent, nGraphicContentSize);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_JPEG))

        {

            nStatus = readJPEG(rIStream, rGraphic, eLinkType, nImportFlags);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_SVG) || aFilterName.equalsIgnoreAsciiCase(IMP_SVGZ))

        {

            nStatus = readSVG(rIStream, rGraphic, eLinkType, pGraphicContent, nGraphicContentSize);

        }

        else if( aFilterName.equalsIgnoreAsciiCase( IMP_XBM ) )

        {

            nStatus = readXBM(rIStream, rGraphic);

        }

        else if( aFilterName.equalsIgnoreAsciiCase( IMP_XPM ) )

        {

            nStatus = readXPM(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_BMP))

        {

            nStatus = readBMP(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_SVMETAFILE))

        {

            nStatus = readWithTypeSerializer(rIStream, rGraphic, eLinkType, aFilterName);

        }

        else if( aFilterName.equalsIgnoreAsciiCase(IMP_MOV))

        {

            nStatus = readWithTypeSerializer(rIStream, rGraphic, eLinkType, aFilterName);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_WMF) || aFilterName.equalsIgnoreAsciiCase(IMP_WMZ))

        {

            nStatus = readWMF(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_EMF) || aFilterName.equalsIgnoreAsciiCase(IMP_EMZ))

        {

            nStatus = readEMF(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PDF))

        {

            nStatus = readPDF(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_TIFF) )

        {

            nStatus = readTIFF(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_TGA) )

        {

            nStatus = readTGA(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PICT))

        {

            nStatus = readPICT(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_MET))

        {

            nStatus = readMET(rIStream, rGraphic, eLinkType);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_RAS))

        {

            nStatus = readRAS(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PCX))

        {

            nStatus = readPCX(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_EPS))

        {

            nStatus = readEPS(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PSD))

        {

            nStatus = readPSD(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PCD))

        {

            nStatus = readPCD(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_PBM))

        {

            nStatus = readPBM(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_DXF))

        {

            nStatus = readDXF(rIStream, rGraphic);

        }

        else if (aFilterName.equalsIgnoreAsciiCase(IMP_WEBP))

        {

            nStatus = readWEBP(rIStream, rGraphic, eLinkType);

        }

        else

            nStatus = ERRCODE_GRFILTER_FILTERERROR;

    }


    if( nStatus == ERRCODE_NONE && ( eLinkType != GfxLinkType::NONE ) && !rGraphic.GetReaderContext() && !bLinkSet )

    {

        if (!pGraphicContent)

        {

            const sal_uInt64 nStreamEnd = rIStream.Tell();

            nGraphicContentSize = nStreamEnd - nStreamBegin;


            if (nGraphicContentSize > 0)

            {

                try

                {

                    pGraphicContent.reset(new sal_uInt8[nGraphicContentSize]);

                }

                catch (const std::bad_alloc&)

                {

                    nStatus = ERRCODE_GRFILTER_TOOBIG;

                }


                if( nStatus == ERRCODE_NONE )

                {

                    rIStream.Seek(nStreamBegin);

                    rIStream.ReadBytes(pGraphicContent.get(), nGraphicContentSize);

                }

            }

        }

        if( nStatus == ERRCODE_NONE )

        {

            rGraphic.SetGfxLink(std::make_shared<GfxLink>(std::move(pGraphicContent), nGraphicContentSize, eLinkType));

        }

    }


    // Set error code or try to set native buffer

    if( nStatus != ERRCODE_NONE )

    {

        ImplSetError( nStatus, &rIStream );

        rIStream.Seek( nStreamBegin );

        rGraphic.Clear();

    }


    return nStatus;

}


ErrCode GraphicFilter::ExportGraphic( const Graphic& rGraphic, const INetURLObject& rPath,

    sal_uInt16 nFormat, const css::uno::Sequence< css::beans::PropertyValue >* pFilterData )

{

    SAL_INFO( "vcl.filter", "GraphicFilter::ExportGraphic() (thb)" );

    ErrCode  nRetValue = ERRCODE_GRFILTER_FORMATERROR;

    SAL_WARN_IF( rPath.GetProtocol() == INetProtocol::NotValid, "vcl.filter", "GraphicFilter::ExportGraphic() : ProtType == INetProtocol::NotValid" );


    OUString aMainUrl(rPath.GetMainURL(INetURLObject::DecodeMechanism::NONE));

    bool bAlreadyExists = utl::UCBContentHelper::IsDocument(aMainUrl);


    std::unique_ptr<SvStream> xStream(::utl::UcbStreamHelper::CreateStream( aMainUrl, StreamMode::WRITE | StreamMode::TRUNC ));

    if (xStream)

    {

        nRetValue = ExportGraphic( rGraphic, aMainUrl, *xStream, nFormat, pFilterData );

        xStream.reset();


        if( ( ERRCODE_NONE != nRetValue ) && !bAlreadyExists )

            utl::UCBContentHelper::Kill(aMainUrl);

    }

    return nRetValue;

}


ErrCode GraphicFilter::ExportGraphic( const Graphic& rGraphic, std::u16string_view rPath,

    SvStream& rOStm, sal_uInt16 nFormat, const css::uno::Sequence< css::beans::PropertyValue >* pFilterData )

{

    SAL_INFO( "vcl.filter", "GraphicFilter::ExportGraphic() (thb)" );

    sal_uInt16 nFormatCount = GetExportFormatCount();


    ResetLastError();

    bool bShouldCompress = false;

    SvMemoryStream rCompressableStm;


    if( nFormat == GRFILTER_FORMAT_DONTKNOW )

    {

        OUString aExt = ImpGetExtension( rPath );

        for( sal_uInt16 i = 0; i < nFormatCount; i++ )

        {

            if ( pConfig->GetExportFormatExtension( i ).equalsIgnoreAsciiCase( aExt ) )

            {

                nFormat=i;

                break;

            }

        }

    }

    if( nFormat >= nFormatCount )

        return ImplSetError( ERRCODE_GRFILTER_FORMATERROR );


    FilterConfigItem aConfigItem( pFilterData );

    OUString aFilterName( pConfig->GetExportFilterName( nFormat ) );

    ErrCode     nStatus = ERRCODE_NONE;

    GraphicType eType;

    Graphic     aGraphic = ImpGetScaledGraphic( rGraphic, aConfigItem );

    eType = aGraphic.GetType();


    if( pConfig->IsExportPixelFormat( nFormat ) )

    {

        if( eType != GraphicType::Bitmap )

        {

            Size aSizePixel;

            sal_uLong nBitsPerPixel,nNeededMem,nMaxMem;

            ScopedVclPtrInstance< VirtualDevice > aVirDev;


            nMaxMem = 1024;

            nMaxMem *= 1024; // In Bytes


            // Calculate how big the image would normally be:

            aSizePixel=aVirDev->LogicToPixel(aGraphic.GetPrefSize(),aGraphic.GetPrefMapMode());


            // Calculate how much memory the image will take up

            nBitsPerPixel=aVirDev->GetBitCount();

            nNeededMem=(static_cast<sal_uLong>(aSizePixel.Width())*static_cast<sal_uLong>(aSizePixel.Height())*nBitsPerPixel+7)/8;


            // is the image larger than available memory?

            if (nMaxMem<nNeededMem)

            {

                double fFak=sqrt(static_cast<double>(nMaxMem)/static_cast<double>(nNeededMem));

                aSizePixel.setWidth(static_cast<sal_uLong>(static_cast<double>(aSizePixel.Width())*fFak) );

                aSizePixel.setHeight(static_cast<sal_uLong>(static_cast<double>(aSizePixel.Height())*fFak) );

            }


            aVirDev->SetMapMode(MapMode(MapUnit::MapPixel));

            aVirDev->SetOutputSizePixel(aSizePixel);

            Graphic aGraphic2=aGraphic;

            aGraphic2.Draw(*aVirDev, Point(0, 0), aSizePixel); // this changes the MapMode

            aVirDev->SetMapMode(MapMode(MapUnit::MapPixel));

            aGraphic=Graphic(aVirDev->GetBitmapEx(Point(0,0),aSizePixel));

        }

    }

    if( rOStm.GetError() )

        nStatus = ERRCODE_GRFILTER_IOERROR;

    if( ERRCODE_NONE == nStatus )

    {

            if( aFilterName.equalsIgnoreAsciiCase( EXP_BMP ) )

            {

                if (!BmpWriter(rOStm, aGraphic, &aConfigItem))

                    nStatus = ERRCODE_GRFILTER_FORMATERROR;

                if (rOStm.GetError())

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if (aFilterName.equalsIgnoreAsciiCase(EXP_TIFF))

            {

                if (!ExportTiffGraphicImport(rOStm, aGraphic, &aConfigItem))

                    nStatus = ERRCODE_GRFILTER_FORMATERROR;


                if( rOStm.GetError() )

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if (aFilterName.equalsIgnoreAsciiCase(EXP_GIF))

            {

                if (!ExportGifGraphic(rOStm, aGraphic, &aConfigItem))

                    nStatus = ERRCODE_GRFILTER_FORMATERROR;


                if( rOStm.GetError() )

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if( aFilterName.equalsIgnoreAsciiCase( EXP_SVMETAFILE ) )

            {

                sal_Int32 nVersion = aConfigItem.ReadInt32( "Version", 0 ) ;

                if ( nVersion )

                    rOStm.SetVersion( nVersion );


                // #i119735# just use GetGDIMetaFile, it will create a buffered version of contained bitmap now automatically

                GDIMetaFile aMTF(aGraphic.GetGDIMetaFile());


                SvmWriter aWriter( rOStm );

                aWriter.Write( aMTF );


                if( rOStm.GetError() )

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if ( aFilterName.equalsIgnoreAsciiCase( EXP_WMF ) || aFilterName.equalsIgnoreAsciiCase( EXP_WMZ ) )

            {

                bool bDone(false);

                SvStream* rTempStm = &rOStm;

                if (aFilterName.equalsIgnoreAsciiCase(EXP_WMZ))

                {

                    // Write to a different stream so that we can compress to rOStm later

                    rCompressableStm.SetBufferSize( rOStm.GetBufferSize() );

                    rTempStm = &rCompressableStm;

                    bShouldCompress = true;

                }

                // do we have a native Vector Graphic Data RenderGraphic, whose data can be written directly?

                auto const & rVectorGraphicDataPtr(rGraphic.getVectorGraphicData());


                bool bIsEMF = rGraphic.GetGfxLink().IsEMF();


                // VectorGraphicDataType::Wmf means WMF or EMF, allow direct write in the WMF case

                // only.

                if (rVectorGraphicDataPtr

                    && rVectorGraphicDataPtr->getType() == VectorGraphicDataType::Wmf

                    && !rVectorGraphicDataPtr->getBinaryDataContainer().isEmpty()

                    && !bIsEMF)

                {

                    auto & aDataContainer = rVectorGraphicDataPtr->getBinaryDataContainer();

                    rTempStm->WriteBytes(aDataContainer.getData(), aDataContainer.getSize());


                    if (rTempStm->GetError())

                    {

                        nStatus = ERRCODE_GRFILTER_IOERROR;

                    }

                    else

                    {

                        bDone = true;

                    }

                }


                if (!bDone)

                {

                    // #i119735# just use GetGDIMetaFile, it will create a buffered version of contained bitmap now automatically

                    if (!ConvertGraphicToWMF(aGraphic, *rTempStm, &aConfigItem))

                        nStatus = ERRCODE_GRFILTER_FORMATERROR;


                    if (rTempStm->GetError())

                        nStatus = ERRCODE_GRFILTER_IOERROR;

                }

            }

            else if ( aFilterName.equalsIgnoreAsciiCase( EXP_EMF ) || aFilterName.equalsIgnoreAsciiCase( EXP_EMZ ) )

            {

                bool bDone(false);

                SvStream* rTempStm = &rOStm;

                if (aFilterName.equalsIgnoreAsciiCase(EXP_EMZ))

                {

                    // Write to a different stream so that we can compress to rOStm later

                    rCompressableStm.SetBufferSize( rOStm.GetBufferSize() );

                    rTempStm = &rCompressableStm;

                    bShouldCompress = true;

                }

                // do we have a native Vector Graphic Data RenderGraphic, whose data can be written directly?

                auto const & rVectorGraphicDataPtr(rGraphic.getVectorGraphicData());


                if (rVectorGraphicDataPtr

                    && rVectorGraphicDataPtr->getType() == VectorGraphicDataType::Emf

                    && !rVectorGraphicDataPtr->getBinaryDataContainer().isEmpty())

                {

                    auto & aDataContainer = rVectorGraphicDataPtr->getBinaryDataContainer();

                    rTempStm->WriteBytes(aDataContainer.getData(), aDataContainer.getSize());


                    if (rTempStm->GetError())

                    {

                        nStatus = ERRCODE_GRFILTER_IOERROR;

                    }

                    else

                    {

                        bDone = true;

                    }

                }


                if (!bDone)

                {

                    // #i119735# just use GetGDIMetaFile, it will create a buffered version of contained bitmap now automatically

                    if (!ConvertGDIMetaFileToEMF(aGraphic.GetGDIMetaFile(), *rTempStm))

                        nStatus = ERRCODE_GRFILTER_FORMATERROR;


                    if (rTempStm->GetError())

                        nStatus = ERRCODE_GRFILTER_IOERROR;

                }

            }

            else if( aFilterName.equalsIgnoreAsciiCase( EXP_JPEG ) )

            {

                bool bExportedGrayJPEG = false;

                if( !ExportJPEG( rOStm, aGraphic, pFilterData, &bExportedGrayJPEG ) )

                    nStatus = ERRCODE_GRFILTER_FORMATERROR;


                if( rOStm.GetError() )

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if (aFilterName.equalsIgnoreAsciiCase(EXP_EPS))

            {

                if (!ExportEpsGraphic(rOStm, aGraphic, &aConfigItem))

                    nStatus = ERRCODE_GRFILTER_FORMATERROR;


                if (rOStm.GetError())

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if ( aFilterName.equalsIgnoreAsciiCase( EXP_PNG ) )

            {

                auto aBitmapEx = aGraphic.GetBitmapEx();

                vcl::PngImageWriter aPNGWriter( rOStm );

                if ( pFilterData )

                    aPNGWriter.setParameters( *pFilterData );

                aPNGWriter.write( aBitmapEx );


                if( rOStm.GetError() )

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else if( aFilterName.equalsIgnoreAsciiCase( EXP_SVG ) || aFilterName.equalsIgnoreAsciiCase( EXP_SVGZ ) )

            {

                bool bDone(false);

                SvStream* rTempStm = &rOStm;

                if (aFilterName.equalsIgnoreAsciiCase(EXP_SVGZ))

                {

                    // Write to a different stream so that we can compress to rOStm later

                    rCompressableStm.SetBufferSize(rOStm.GetBufferSize());

                    rTempStm = &rCompressableStm;

                    bShouldCompress = true;

                }


                // do we have a native Vector Graphic Data RenderGraphic, whose data can be written directly?

                auto const & rVectorGraphicDataPtr(rGraphic.getVectorGraphicData());


                if (rVectorGraphicDataPtr

                    && rVectorGraphicDataPtr->getType()  ==  VectorGraphicDataType::Svg

                    && !rVectorGraphicDataPtr->getBinaryDataContainer().isEmpty())

                {

                    auto & aDataContainer = rVectorGraphicDataPtr->getBinaryDataContainer();

                    rTempStm->WriteBytes(aDataContainer.getData(), aDataContainer.getSize());


                    if( rTempStm->GetError() )

                    {

                        nStatus = ERRCODE_GRFILTER_IOERROR;

                    }

                    else

                    {

                        bDone = true;

                    }

                }


                if( !bDone )

                {

                    // do the normal GDIMetaFile export instead

                    try

                    {

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


                        css::uno::Reference< css::xml::sax::XDocumentHandler > xSaxWriter(

                            css::xml::sax::Writer::create( xContext ), css::uno::UNO_QUERY_THROW);

                        css::uno::Sequence< css::uno::Any > aArguments{ css::uno::Any(

                            aConfigItem.GetFilterData()) };

                        css::uno::Reference< css::svg::XSVGWriter > xSVGWriter(

                            xContext->getServiceManager()->createInstanceWithArgumentsAndContext( "com.sun.star.svg.SVGWriter", aArguments, xContext),

                                css::uno::UNO_QUERY );

                        if( xSaxWriter.is() && xSVGWriter.is() )

                        {

                            css::uno::Reference< css::io::XActiveDataSource > xActiveDataSource(

                                xSaxWriter, css::uno::UNO_QUERY );


                            if( xActiveDataSource.is() )

                            {

                                const css::uno::Reference< css::uno::XInterface > xStmIf(

                                    static_cast< ::cppu::OWeakObject* >( new ImpFilterOutputStream( *rTempStm ) ) );


                                SvMemoryStream aMemStm( 65535, 65535 );


                                // #i119735# just use GetGDIMetaFile, it will create a buffered version of contained bitmap now automatically

                                SvmWriter aWriter( aMemStm );

                                aWriter.Write( aGraphic.GetGDIMetaFile() );


                                xActiveDataSource->setOutputStream( css::uno::Reference< css::io::XOutputStream >(

                                    xStmIf, css::uno::UNO_QUERY ) );

                                css::uno::Sequence< sal_Int8 > aMtfSeq( static_cast<sal_Int8 const *>(aMemStm.GetData()), aMemStm.Tell() );

                                xSVGWriter->write( xSaxWriter, aMtfSeq );

                            }

                        }

                    }

                    catch(const css::uno::Exception&)

                    {

                        nStatus = ERRCODE_GRFILTER_IOERROR;

                    }

                }

            }

            else if (aFilterName.equalsIgnoreAsciiCase(EXP_WEBP))

            {

                if (!ExportWebpGraphic(rOStm, aGraphic, &aConfigItem))

                    nStatus = ERRCODE_GRFILTER_FORMATERROR;


                if( rOStm.GetError() )

                    nStatus = ERRCODE_GRFILTER_IOERROR;

            }

            else

                nStatus = ERRCODE_GRFILTER_FILTERERROR;

    }

    if( nStatus != ERRCODE_NONE )

    {

        ImplSetError( nStatus, &rOStm );

    }

    else if ( bShouldCompress )

    {

        sal_uInt32 nUncompressedCRC32

            = rtl_crc32( 0, rCompressableStm.GetData(), rCompressableStm.GetSize() );

        ZCodec aCodec;

        rCompressableStm.Seek( 0 );

        aCodec.BeginCompression( ZCODEC_DEFAULT_COMPRESSION, /*gzLib*/true );

        // the inner modify time/filename doesn't really matter in this context because

        // compressed graphic formats are meant to be opened as is - not to be extracted

        aCodec.SetCompressionMetadata( "inner", 0, nUncompressedCRC32 );

        aCodec.Compress( rCompressableStm, rOStm );

        tools::Long nCompressedLength = aCodec.EndCompression();

        if ( rOStm.GetError() || nCompressedLength <= 0 )

            nStatus = ERRCODE_GRFILTER_IOERROR;

    }

    return nStatus;

}


void GraphicFilter::ResetLastError()

{

    mxErrorEx = ERRCODE_NONE;

}


Link<ConvertData&,bool> GraphicFilter::GetFilterCallback() const

{

    Link<ConvertData&,bool> aLink( LINK( const_cast<GraphicFilter*>(this), GraphicFilter, FilterCallback ) );

    return aLink;

}


IMPL_LINK( GraphicFilter, FilterCallback, ConvertData&, rData, bool )

{

    bool bRet = false;


    sal_uInt16      nFormat = GRFILTER_FORMAT_DONTKNOW;

    OUString aShortName;

    css::uno::Sequence< css::beans::PropertyValue > aFilterData;

    switch( rData.mnFormat )

    {

        case ConvertDataFormat::BMP: aShortName = BMP_SHORTNAME; break;

        case ConvertDataFormat::GIF: aShortName = GIF_SHORTNAME; break;

        case ConvertDataFormat::JPG: aShortName = JPG_SHORTNAME; break;

        case ConvertDataFormat::MET: aShortName = MET_SHORTNAME; break;

        case ConvertDataFormat::PCT: aShortName = PCT_SHORTNAME; break;

        case ConvertDataFormat::PNG: aShortName = PNG_SHORTNAME; break;

        case ConvertDataFormat::SVM: aShortName = SVM_SHORTNAME; break;

        case ConvertDataFormat::TIF: aShortName = TIF_SHORTNAME; break;

        case ConvertDataFormat::WMF: aShortName = WMF_SHORTNAME; break;

        case ConvertDataFormat::EMF: aShortName = EMF_SHORTNAME; break;

        case ConvertDataFormat::SVG: aShortName = SVG_SHORTNAME; break;

        case ConvertDataFormat::WEBP: aShortName = WEBP_SHORTNAME; break;


        default:

        break;

    }

    if( GraphicType::NONE == rData.maGraphic.GetType() || rData.maGraphic.GetReaderContext() ) // Import

    {

        // Import

        nFormat = GetImportFormatNumberForShortName( aShortName );

        bRet = ImportGraphic( rData.maGraphic, u"", rData.mrStm, nFormat ) == ERRCODE_NONE;

    }

    else if( !aShortName.isEmpty() )

    {

        // Export

#if defined(IOS) || defined(ANDROID)

        if (aShortName == PNG_SHORTNAME)

        {

            aFilterData.realloc(aFilterData.getLength() + 1);

            auto pFilterData = aFilterData.getArray();

            pFilterData[aFilterData.getLength() - 1].Name = "Compression";

            // We "know" that this gets passed to zlib's deflateInit2_(). 1 means best speed.

            pFilterData[aFilterData.getLength() - 1].Value <<= static_cast<sal_Int32>(1);

        }

#endif

        nFormat = GetExportFormatNumberForShortName( aShortName );

        bRet = ExportGraphic( rData.maGraphic, u"", rData.mrStm, nFormat, &aFilterData ) == ERRCODE_NONE;

    }


    return bRet;

}


namespace

{

    class StandardGraphicFilter

    {

    public:

        StandardGraphicFilter()

        {

            m_aFilter.GetImportFormatCount();

        }

        GraphicFilter m_aFilter;

    };

}


GraphicFilter& GraphicFilter::GetGraphicFilter()

{

    static StandardGraphicFilter gStandardFilter;

    return gStandardFilter.m_aFilter;

}


ErrCode GraphicFilter::LoadGraphic( const OUString &rPath, const OUString &rFilterName,

                 Graphic& rGraphic, GraphicFilter* pFilter,

                 sal_uInt16* pDeterminedFormat )

{

    if ( !pFilter )

        pFilter = &GetGraphicFilter();


    const sal_uInt16 nFilter = !rFilterName.isEmpty() && pFilter->GetImportFormatCount()

                    ? pFilter->GetImportFormatNumber( rFilterName )

                    : GRFILTER_FORMAT_DONTKNOW;


    INetURLObject aURL( rPath );

    if ( aURL.HasError() )

    {

        aURL.SetSmartProtocol( INetProtocol::File );

        aURL.SetSmartURL( rPath );

    }


    std::unique_ptr<SvStream> pStream;

    if ( INetProtocol::File != aURL.GetProtocol() )

        pStream = ::utl::UcbStreamHelper::CreateStream( rPath, StreamMode::READ );


    ErrCode nRes = ERRCODE_NONE;

    if ( !pStream )

        nRes = pFilter->ImportGraphic( rGraphic, aURL, nFilter, pDeterminedFormat );

    else

        nRes = pFilter->ImportGraphic( rGraphic, rPath, *pStream, nFilter, pDeterminedFormat );


#ifdef DBG_UTIL

    OUString aReturnString;


    if (nRes == ERRCODE_GRFILTER_OPENERROR)

            aReturnString="open error";

    else if (nRes == ERRCODE_GRFILTER_IOERROR)

            aReturnString="IO error";

    else if (nRes == ERRCODE_GRFILTER_FORMATERROR)

            aReturnString="format error";

    else if (nRes == ERRCODE_GRFILTER_VERSIONERROR)

            aReturnString="version error";

    else if (nRes == ERRCODE_GRFILTER_FILTERERROR)

            aReturnString="filter error";

    else if (nRes == ERRCODE_GRFILTER_TOOBIG)

            aReturnString="graphic is too big";


    SAL_INFO_IF( nRes, "vcl.filter", "Problem importing graphic " << rPath << ". Reason: " << aReturnString );

#endif


    return nRes;

}


ErrCode GraphicFilter::compressAsPNG(const Graphic& rGraphic, SvStream& rOutputStream)

{

    css::uno::Sequence< css::beans::PropertyValue > aFilterData{ comphelper::makePropertyValue(

        "Compression", sal_uInt32(9)) };


    sal_uInt16 nFilterFormat = GetExportFormatNumberForShortName(u"PNG");

    return ExportGraphic(rGraphic, u"", rOutputStream, nFilterFormat, &aFilterData);

}


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

BmpReader
bool BmpReader(SvStream &rStream, Graphic &rGraphic)
Definition: BmpReader.cxx:23

BmpReader.hxx

BmpWriter
bool BmpWriter(SvStream &rStream, const Graphic &rGraphic, FilterConfigItem *pFilterConfigItem)
Definition: BmpWriter.cxx:23

BmpWriter.hxx

DxfReader.hxx

EpsReader.hxx

EpsWriter.hxx

FilterConfigCache.hxx

FilterConfigItem.hxx

GifWriter.hxx

GraphicFormatDetector.hxx

GraphicReader.hxx

MetReader.hxx

PbmReader.hxx

PcdReader.hxx

PcxReader.hxx

PictReader.hxx

PngImageReader.hxx

PngImageWriter.hxx

PsdReader.hxx

RasReader.hxx

SvmWriter.hxx

TgaReader.hxx

TiffReader.hxx

TiffWriter.hxx

TypeSerializer.hxx

xStream
Reference< XInputStream > xStream

WebpReader.hxx

WebpWriter.hxx

XpmReader.hxx

m_nStatus
oslInterlockedCount m_nStatus

AlphaMask
Definition: alpha.hxx:33

Application::GetDefaultDevice
static OutputDevice * GetDefaultDevice()
Get the default "device" (in this case the default window).
Definition: svapp.cxx:1166

BinaryDataContainer
Container for the binary data, whose responsibility is to manage the make it as simple as possible to...
Definition: BinaryDataContainer.hxx:23

BitmapEx
Definition: bitmapex.hxx:38

BitmapEx::GetAlpha
AlphaMask GetAlpha() const
Definition: BitmapEx.cxx:215

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

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

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

BitmapEx::GetBitmap
Bitmap GetBitmap(Color aTransparentReplaceColor) const
Definition: BitmapEx.cxx:203

BitmapEx::GetSizePixel
const Size & GetSizePixel() const
Definition: bitmapex.hxx:72

Bitmap
Definition: include/vcl/bitmap.hxx:104

ErrCode

FilterConfigCache
Cache to keep list of graphic filters + the filters themselves.
Definition: FilterConfigCache.hxx:28

FilterConfigCache::IsExportPixelFormat
bool IsExportPixelFormat(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:484

FilterConfigCache::GetExportFormatNumberForShortName
sal_uInt16 GetExportFormatNumberForShortName(std::u16string_view rShortName)
Definition: FilterConfigCache.cxx:417

FilterConfigCache::GetImportFormatName
OUString GetImportFormatName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:336

FilterConfigCache::GetImportFormatNumber
sal_uInt16 GetImportFormatNumber(std::u16string_view rFormatName)
Definition: FilterConfigCache.cxx:284

FilterConfigCache::GetExportFormatNumber
sal_uInt16 GetExportFormatNumber(std::u16string_view rFormatName)
Definition: FilterConfigCache.cxx:393

FilterConfigCache::GetImportFormatNumberForShortName
sal_uInt16 GetImportFormatNumberForShortName(std::u16string_view rShortName)
Definition: FilterConfigCache.cxx:312

FilterConfigCache::GetExportWildcard
OUString GetExportWildcard(sal_uInt16 nFormat, sal_Int32 nEntry)
Definition: FilterConfigCache.cxx:476

FilterConfigCache::GetImportFormatShortName
OUString GetImportFormatShortName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:350

FilterConfigCache::GetImportFormatNumberForExtension
sal_uInt16 GetImportFormatNumberForExtension(std::u16string_view rExt)
get the index of the filter that matches this extension
Definition: FilterConfigCache.cxx:297

FilterConfigCache::GetImportWildcard
OUString GetImportWildcard(sal_uInt16 nFormat, sal_Int32 nEntry)
Definition: FilterConfigCache.cxx:378

FilterConfigCache::GetImportFilterTypeName
OUString GetImportFilterTypeName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:371

FilterConfigCache::GetExportFilterName
OUString GetExportFilterName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:386

FilterConfigCache::GetExportFormatShortName
OUString GetExportFormatShortName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:455

FilterConfigCache::GetExportFormatName
OUString GetExportFormatName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:441

FilterConfigCache::GetExportFormatExtension
OUString GetExportFormatExtension(sal_uInt16 nFormat, sal_Int32 nEntry=0)
Definition: FilterConfigCache.cxx:462

FilterConfigCache::GetImportFilterName
OUString GetImportFilterName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:277

FilterConfigCache::GetExportFormatNumberForTypeName
sal_uInt16 GetExportFormatNumberForTypeName(std::u16string_view rType)
Definition: FilterConfigCache.cxx:429

FilterConfigCache::GetImportFormatCount
sal_uInt16 GetImportFormatCount() const
Definition: FilterConfigCache.hxx:62

FilterConfigCache::GetExportFormatNumberForMediaType
sal_uInt16 GetExportFormatNumberForMediaType(std::u16string_view rMediaType)
Definition: FilterConfigCache.cxx:405

FilterConfigCache::GetImportFormatNumberForTypeName
sal_uInt16 GetImportFormatNumberForTypeName(std::u16string_view rType)
Definition: FilterConfigCache.cxx:324

FilterConfigCache::GetImportFormatExtension
OUString GetImportFormatExtension(sal_uInt16 nFormat, sal_Int32 nEntry=0)
Definition: FilterConfigCache.cxx:357

FilterConfigCache::GetImportFilterType
OUString GetImportFilterType(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:364

FilterConfigCache::GetExportFormatCount
sal_uInt16 GetExportFormatCount() const
Definition: FilterConfigCache.hxx:78

FilterConfigCache::GetExportFormatMediaType
OUString GetExportFormatMediaType(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:448

FilterConfigCache::GetImportFormatMediaType
OUString GetImportFormatMediaType(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:343

FilterConfigCache::GetExportInternalFilterName
OUString GetExportInternalFilterName(sal_uInt16 nFormat)
Definition: FilterConfigCache.cxx:469

FilterConfigItem
Definition: FilterConfigItem.hxx:41

FilterConfigItem::WriteInt32
void WriteInt32(const OUString &rKey, sal_Int32 nValue)
Definition: FilterConfigItem.cxx:342

FilterConfigItem::ReadInt32
sal_Int32 ReadInt32(const OUString &rKey, sal_Int32 nDefault)
Definition: FilterConfigItem.cxx:270

FilterConfigItem::GetFilterData
const css::uno::Sequence< css::beans::PropertyValue > & GetFilterData() const
Definition: FilterConfigItem.hxx:86

Fraction

GDIMetaFile
Definition: gdimtf.hxx:56

GDIMetaFile::Scale
void Scale(double fScaleX, double fScaleY)
Definition: gdimtf.cxx:726

GDIMetaFile::GetPrefSize
const Size & GetPrefSize() const
Definition: gdimtf.hxx:172

GDIMetaFile::GetPrefMapMode
const MapMode & GetPrefMapMode() const
Definition: gdimtf.hxx:175

GfxLink::IsEMF
bool IsEMF() const
Definition: gfxlink.cxx:167

GraphicFilter
Class to import and export graphic formats.
Definition: graphicfilter.hxx:228

GraphicFilter::ResetLastError
void ResetLastError()
Definition: graphicfilter.cxx:1878

GraphicFilter::GetImportFormatShortName
OUString GetImportFormatShortName(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:393

GraphicFilter::~GraphicFilter
~GraphicFilter()
Definition: graphicfilter.cxx:312

GraphicFilter::readSVG
static ErrCode readSVG(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType, std::unique_ptr< sal_uInt8[]> &rpGraphicContent, sal_Int32 &rGraphicContentSize)
Definition: graphicfilter.cxx:1029

GraphicFilter::readEPS
static ErrCode readEPS(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1267

GraphicFilter::readPNG
static ErrCode readPNG(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType, std::unique_ptr< sal_uInt8[]> &rpGraphicContent, sal_Int32 &rGraphicContentSize)
Definition: graphicfilter.cxx:972

GraphicFilter::GetExportFormatNumberForShortName
sal_uInt16 GetExportFormatNumberForShortName(std::u16string_view rShortName)
Definition: graphicfilter.cxx:418

GraphicFilter::readPSD
static ErrCode readPSD(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1275

GraphicFilter::readWithTypeSerializer
static ErrCode readWithTypeSerializer(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType, std::u16string_view aFilterName)
Definition: graphicfilter.cxx:1189

GraphicFilter::ImplSetError
ErrCode ImplSetError(ErrCode nError, const SvStream *pStm=nullptr)
Definition: graphicfilter.cxx:350

GraphicFilter::GetExportFormatNumberForTypeName
sal_uInt16 GetExportFormatNumberForTypeName(std::u16string_view rType)
Definition: graphicfilter.cxx:428

GraphicFilter::aFilterPath
OUString aFilterPath
Definition: graphicfilter.hxx:338

GraphicFilter::ImportUnloadedGraphic
Graphic ImportUnloadedGraphic(SvStream &rIStream, sal_uInt64 sizeLimit=0, const Size *pSizeHint=nullptr)
Definition: graphicfilter.cxx:739

GraphicFilter::MakeGraphicsAvailableThreaded
void MakeGraphicsAvailableThreaded(std::vector< Graphic * > &rGraphics)
Tries to ensure all Graphic objects are available (Graphic::isAvailable()).
Definition: graphicfilter.cxx:701

GraphicFilter::readPCD
static ErrCode readPCD(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1283

GraphicFilter::GetImportFormatNumberForTypeName
sal_uInt16 GetImportFormatNumberForTypeName(std::u16string_view rType)
Definition: graphicfilter.cxx:371

GraphicFilter::readWEBP
static ErrCode readWEBP(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1314

GraphicFilter::bUseConfig
bool bUseConfig
Definition: graphicfilter.hxx:349

GraphicFilter::GetExportWildcard
OUString GetExportWildcard(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:448

GraphicFilter::GetGraphicFilter
static GraphicFilter & GetGraphicFilter()
Definition: graphicfilter.cxx:1953

GraphicFilter::GetFilterCallback
Link< ConvertData &, bool > GetFilterCallback() const
Definition: graphicfilter.cxx:1883

GraphicFilter::readDXF
static ErrCode readDXF(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1306

GraphicFilter::IsExportPixelFormat
bool IsExportPixelFormat(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:453

GraphicFilter::readBMP
static ErrCode readBMP(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1210

GraphicFilter::readPDF
static ErrCode readPDF(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1167

GraphicFilter::readXPM
static ErrCode readXPM(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1110

GraphicFilter::GetExportFormatNumber
sal_uInt16 GetExportFormatNumber(std::u16string_view rFormatName)
Definition: graphicfilter.cxx:408

GraphicFilter::readJPEG
static ErrCode readJPEG(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType, GraphicFilterImportFlags nImportFlags)
Definition: graphicfilter.cxx:1001

GraphicFilter::readMET
static ErrCode readMET(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1240

GraphicFilter::readXBM
static ErrCode readXBM(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1102

GraphicFilter::GetExportFormatNumberForMediaType
sal_uInt16 GetExportFormatNumberForMediaType(std::u16string_view rShortName)
Definition: graphicfilter.cxx:413

GraphicFilter::GetImportFormatNumber
sal_uInt16 GetImportFormatNumber(std::u16string_view rFormatName)
Definition: graphicfilter.cxx:361

GraphicFilter::CanImportGraphic
ErrCode CanImportGraphic(const INetURLObject &rPath, sal_uInt16 nFormat, sal_uInt16 *pDeterminedFormat)
Definition: graphicfilter.cxx:458

GraphicFilter::GetExportFormatName
OUString GetExportFormatName(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:433

GraphicFilter::GetImportFormatName
OUString GetImportFormatName(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:376

GraphicFilter::readEMF
static ErrCode readEMF(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1162

GraphicFilter::ExportGraphic
ErrCode ExportGraphic(const Graphic &rGraphic, const INetURLObject &rPath, sal_uInt16 nFormat, const css::uno::Sequence< css::beans::PropertyValue > *pFilterData=nullptr)
Definition: graphicfilter.cxx:1524

GraphicFilter::readPICT
static ErrCode readPICT(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1229

GraphicFilter::readWMF_EMF
static ErrCode readWMF_EMF(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType, VectorGraphicDataType eType)
Definition: graphicfilter.cxx:1118

GraphicFilter::GetImportFormatCount
sal_uInt16 GetImportFormatCount() const
Definition: graphicfilter.cxx:356

GraphicFilter::GetExportFormatCount
sal_uInt16 GetExportFormatCount() const
Definition: graphicfilter.cxx:403

GraphicFilter::readWMF
static ErrCode readWMF(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1157

GraphicFilter::GetExportFormatShortName
OUString GetExportFormatShortName(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:443

GraphicFilter::readTGA
static ErrCode readTGA(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1221

GraphicFilter::GetImportFormatNumberForShortName
sal_uInt16 GetImportFormatNumberForShortName(std::u16string_view rShortName)
Definition: graphicfilter.cxx:366

GraphicFilter::readPBM
static ErrCode readPBM(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1298

GraphicFilter::ImpTestOrFindFormat
ErrCode ImpTestOrFindFormat(std::u16string_view rPath, SvStream &rStream, sal_uInt16 &rFormat)
Definition: graphicfilter.cxx:169

GraphicFilter::readRAS
static ErrCode readRAS(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1251

GraphicFilter::GraphicFilter
GraphicFilter(bool bUseConfig=true)
Definition: graphicfilter.cxx:306

GraphicFilter::GetImportWildcard
OUString GetImportWildcard(sal_uInt16 nFormat, sal_Int32 nEntry)
Definition: graphicfilter.cxx:398

GraphicFilter::ImportGraphic
ErrCode ImportGraphic(Graphic &rGraphic, const INetURLObject &rPath, sal_uInt16 nFormat=GRFILTER_FORMAT_DONTKNOW, sal_uInt16 *pDeterminedFormat=nullptr, GraphicFilterImportFlags nImportFlags=GraphicFilterImportFlags::NONE)
Definition: graphicfilter.cxx:488

GraphicFilter::readPCX
static ErrCode readPCX(SvStream &rStream, Graphic &rGraphic)
Definition: graphicfilter.cxx:1259

GraphicFilter::pConfig
FilterConfigCache * pConfig
Definition: graphicfilter.hxx:339

GraphicFilter::GetExportFormatMediaType
OUString GetExportFormatMediaType(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:438

GraphicFilter::readGIF
static ErrCode readGIF(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:961

GraphicFilter::LoadGraphic
static ErrCode LoadGraphic(const OUString &rPath, const OUString &rFilter, Graphic &rGraphic, GraphicFilter *pFilter=nullptr, sal_uInt16 *pDeterminedFormat=nullptr)
Definition: graphicfilter.cxx:1959

GraphicFilter::ImplInit
void ImplInit()
Definition: graphicfilter.cxx:327

GraphicFilter::GetExportInternalFilterName
OUString GetExportInternalFilterName(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:423

GraphicFilter::mxErrorEx
std::optional< ErrCode > mxErrorEx
Information about errors during the GraphicFilter operation.
Definition: graphicfilter.hxx:348

GraphicFilter::GetImportFormatTypeName
OUString GetImportFormatTypeName(sal_uInt16 nFormat)
Definition: graphicfilter.cxx:381

GraphicFilter::compressAsPNG
ErrCode compressAsPNG(const Graphic &rGraphic, SvStream &rOutputStream)
Definition: graphicfilter.cxx:2009

GraphicFilter::readTIFF
static ErrCode readTIFF(SvStream &rStream, Graphic &rGraphic, GfxLinkType &rLinkType)
Definition: graphicfilter.cxx:1178

GraphicFilter::ImportGraphics
void ImportGraphics(std::vector< std::shared_ptr< Graphic > > &rGraphics, std::vector< std::unique_ptr< SvStream > > vStreams)
Imports multiple graphics.
Definition: graphicfilter.cxx:570

Graphic
Definition: graph.hxx:83

Graphic::GetPrefSize
Size GetPrefSize() const
Definition: graph.cxx:363

Graphic::SetPrefMapMode
void SetPrefMapMode(const MapMode &rPrefMapMode)
Definition: graph.cxx:379

Graphic::SetDummyContext
void SetDummyContext(bool value)
Definition: graph.cxx:488

Graphic::GetGDIMetaFile
const GDIMetaFile & GetGDIMetaFile() const
Definition: graph.cxx:339

Graphic::IsDummyContext
bool IsDummyContext() const
Definition: graph.cxx:493

Graphic::GetType
GraphicType GetType() const
Definition: graph.cxx:293

Graphic::SetGfxLink
void SetGfxLink(const std::shared_ptr< GfxLink > &rGfxLink)
Definition: graph.cxx:498

Graphic::GetGfxLink
GfxLink GetGfxLink() const
Definition: graph.cxx:509

Graphic::GetBitmapExRef
const BitmapEx & GetBitmapExRef() const
Gives direct access to the contained BitmapEx.
Definition: graph.cxx:344

Graphic::GetBitmapEx
BitmapEx GetBitmapEx(const GraphicConversionParameters &rParameters=GraphicConversionParameters()) const
Definition: graph.cxx:329

Graphic::GetPrefMapMode
MapMode GetPrefMapMode() const
Definition: graph.cxx:374

Graphic::Clear
void Clear()
Definition: graph.cxx:287

Graphic::Draw
void Draw(OutputDevice &rOutDev, const Point &rDestPt) const
Definition: graph.cxx:428

Graphic::IsGfxLink
bool IsGfxLink() const
Definition: graph.cxx:514

Graphic::GetReaderContext
std::shared_ptr< GraphicReader > & GetReaderContext()
Definition: graph.cxx:478

Graphic::SetPrefSize
void SetPrefSize(const Size &rPrefSize)
Definition: graph.cxx:368

Graphic::getVectorGraphicData
const std::shared_ptr< VectorGraphicData > & getVectorGraphicData() const
Definition: graph.cxx:524

Graphic::SetDefaultType
void SetDefaultType()
Definition: graph.cxx:298

Graphic::ImplGetImpGraphic
SAL_DLLPRIVATE ImpGraphic * ImplGetImpGraphic() const
Definition: graph.hxx:89

INetURLObject

INetURLObject::DecodeMechanism::NONE
@ NONE

INetURLObject::GetMainURL
OUString GetMainURL(DecodeMechanism eMechanism, rtl_TextEncoding eCharset=RTL_TEXTENCODING_UTF8) const

INetURLObject::GetProtocol
INetProtocol GetProtocol() const

ImpGraphic::setPrepared
void setPrepared(bool bAnimated, const Size *pSizeHint)
Definition: impgraph.cxx:381

Link< ConvertData &, bool >

MapMode
Definition: mapmod.hxx:34

MapMode::GetMapUnit
MapUnit GetMapUnit() const
Definition: mapmod.cxx:150

OutputDevice::PixelToLogic
SAL_WARN_UNUSED_RESULT Point PixelToLogic(const Point &rDevicePt) const
Definition: map.cxx:1169

OutputDevice::LogicToLogic
SAL_WARN_UNUSED_RESULT Point LogicToLogic(const Point &rPtSource, const MapMode *pMapModeSource, const MapMode *pMapModeDest) const
Definition: map.cxx:1639

ScopedVclPtrInstance< VirtualDevice >

Size

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

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

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

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

Size::setHeight
void setHeight(tools::Long nHeight)

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

SvMemoryStream

SvMemoryStream::GetData
const void * GetData()

SvMemoryStream::GetSize
sal_uInt64 GetSize()

SvStream

SvStream::ResetError
virtual void ResetError()

SvStream::Tell
sal_uInt64 Tell() const

SvStream::SetBufferSize
void SetBufferSize(sal_uInt16 m_nBufSize)

SvStream::GetBufferSize
sal_uInt16 GetBufferSize() const

SvStream::WriteBytes
std::size_t WriteBytes(const void *pData, std::size_t nSize)

SvStream::SetVersion
void SetVersion(sal_Int32 n)

SvStream::Seek
sal_uInt64 Seek(sal_uInt64 nPos)

SvStream::ReadBytes
std::size_t ReadBytes(void *pData, std::size_t nSize)

SvStream::GetError
ErrCode GetError() const

SvStream::FlushBuffer
void FlushBuffer()

SvStream::remainingSize
sal_uInt64 remainingSize()

SvmWriter
Definition: SvmWriter.hxx:28

SvmWriter::Write
SvStream & Write(const GDIMetaFile &rMetaFile)
Definition: SvmWriter.cxx:38

TypeSerializer
Definition: TypeSerializer.hxx:41

TypeSerializer::readGraphic
void readGraphic(Graphic &rGraphic)
Definition: TypeSerializer.cxx:168

ZCodec

ZCodec::Decompress
tools::Long Decompress(SvStream &rIStm, SvStream &rOStm)

ZCodec::SetCompressionMetadata
void SetCompressionMetadata(const OString &sFilename, sal_uInt32 nLastModifiedTime, sal_uInt32 nInBufCRC32)

ZCodec::IsZCompressed
static bool IsZCompressed(SvStream &rIStm)

ZCodec::EndCompression
tools::Long EndCompression()

ZCodec::BeginCompression
void BeginCompression(int nCompressLevel=ZCODEC_DEFAULT_COMPRESSION, bool gzLib=false)

ZCodec::Compress
void Compress(SvStream &rIStm, SvStream &rOStm)

comphelper::ThreadPool

comphelper::ThreadPool::getSharedOptimalPool
static ThreadPool & getSharedOptimalPool()

comphelper::ThreadPool::waitUntilDone
void waitUntilDone(const std::shared_ptr< ThreadTaskTag > &, bool bJoin=true)

comphelper::ThreadPool::createThreadTaskTag
static std::shared_ptr< ThreadTaskTag > createThreadTaskTag()

comphelper::ThreadPool::pushTask
void pushTask(std::unique_ptr< ThreadTask > pTask)

comphelper::ThreadTask

comphelper::ThreadTask::doWork
virtual void doWork()=0

cppu::OWeakObject

utl::ConfigManager::IsFuzzing
static bool IsFuzzing()

utl::UcbStreamHelper::CreateStream
static std::unique_ptr< SvStream > CreateStream(const OUString &rFileName, StreamMode eOpenMode, css::uno::Reference< css::awt::XWindow > xParentWin=nullptr)

vcl::PngImageReader
Definition: PngImageReader.hxx:33

vcl::PngImageReader::read
bool read(BitmapEx &rBitmap)
Definition: PngImageReader.cxx:495

vcl::PngImageReader::getMicrosoftGifChunk
static std::unique_ptr< sal_uInt8[]> getMicrosoftGifChunk(SvStream &rStream, sal_Int32 *chunkSize=nullptr)
Definition: PngImageReader.cxx:504

vcl::PngImageWriter
Definition: PngImageWriter.hxx:30

vcl::PngImageWriter::setParameters
void setParameters(css::uno::Sequence< css::beans::PropertyValue > const &rParameters)
Definition: PngImageWriter.cxx:254

vcl::PngImageWriter::write
bool write(const BitmapEx &rBitmap)
Definition: PngImageWriter.cxx:313

vcl::ScopedBitmapAccess
This template handles BitmapAccess the RAII way.
Definition: scopedbitmapaccess.hxx:49

configmgr.hxx

aURL
URL aURL

u
float u

ExportGifGraphic
bool ExportGifGraphic(SvStream &rStream, const Graphic &rGraphic, FilterConfigItem *pConfigItem)
Definition: egif.cxx:543

ERRCODE_IO_PENDING
#define ERRCODE_IO_PENDING

ERRCODE_NONE
#define ERRCODE_NONE

ExportTiffGraphicImport
bool ExportTiffGraphicImport(SvStream &rStream, const Graphic &rGraphic, const FilterConfigItem *pFilterConfigItem)
Definition: etiff.cxx:580

nVersion
sal_Int16 nVersion

ExportEpsGraphic
bool ExportEpsGraphic(SvStream &rStream, const Graphic &rGraphic, FilterConfigItem *pFilterConfigItem)
Definition: filter/eps/eps.cxx:2661

fltcall.hxx

eType
DocumentType eType

fract.hxx

GfxLinkType
GfxLinkType
GfxLink graphic types that are supported by GfxLink.
Definition: gfxlink.hxx:37

GfxLinkType::NativePdf
@ NativePdf

GfxLinkType::NativeMov
@ NativeMov

GfxLinkType::NativePng
@ NativePng

GfxLinkType::NativeMet
@ NativeMet

GfxLinkType::NativeGif
@ NativeGif

GfxLinkType::NativeTif
@ NativeTif

GfxLinkType::NativeBmp
@ NativeBmp

GfxLinkType::NativeJpg
@ NativeJpg

GfxLinkType::NativeSvg
@ NativeSvg

GfxLinkType::NONE
@ NONE

GfxLinkType::NativeWebp
@ NativeWebp

GfxLinkType::NativePct
@ NativePct

GfxLinkType::NativeWmf
@ NativeWmf

ImportGIF
VCL_DLLPUBLIC bool ImportGIF(SvStream &rStm, Graphic &rGraphic)
Definition: gifread.cxx:969

IsGIFAnimated
bool IsGIFAnimated(SvStream &rStm, Size &rLogicSize)
Definition: gifread.cxx:956

gifread.hxx

GraphicType
GraphicType
Definition: graph.hxx:35

GraphicType::Bitmap
@ Bitmap

GraphicType::NONE
@ NONE

ImplSearchEntry
sal_uInt8 * ImplSearchEntry(sal_uInt8 *pSource, sal_uInt8 const *pDest, sal_uLong nComp, sal_uLong nSize)
Definition: graphicfilter.cxx:144

ImpGetExtension
static OUString ImpGetExtension(std::u16string_view rPath)
Definition: graphicfilter.cxx:161

ImpGetScaledGraphic
static Graphic ImpGetScaledGraphic(const Graphic &rGraphic, FilterConfigItem &rConfigItem)
Definition: graphicfilter.cxx:212

supportNativeWebp
static bool supportNativeWebp()
Definition: graphicfilter.cxx:102

getListMutex
static std::mutex & getListMutex()
Definition: graphicfilter.cxx:117

gaFilterHdlList
static std::vector< GraphicFilter * > gaFilterHdlList
Definition: graphicfilter.cxx:115

IMPL_LINK
IMPL_LINK(GraphicFilter, FilterCallback, ConvertData &, rData, bool)
Definition: graphicfilter.cxx:1889

graphicfilter.hxx

SVG_SHORTNAME
constexpr OUStringLiteral SVG_SHORTNAME
Definition: graphicfilter.hxx:124

GRFILTER_FORMAT_DONTKNOW
#define GRFILTER_FORMAT_DONTKNOW
Definition: graphicfilter.hxx:52

IMP_SVG
#define IMP_SVG
Definition: graphicfilter.hxx:81

MET_SHORTNAME
constexpr OUStringLiteral MET_SHORTNAME
Definition: graphicfilter.hxx:117

IMP_BMP
#define IMP_BMP
Definition: graphicfilter.hxx:69

EXP_SVMETAFILE
#define EXP_SVMETAFILE
Definition: graphicfilter.hxx:98

EXP_BMP
#define EXP_BMP
Definition: graphicfilter.hxx:97

IMP_TIFF
#define IMP_TIFF
Definition: graphicfilter.hxx:84

IMP_PICT
#define IMP_PICT
Definition: graphicfilter.hxx:86

EXP_SVGZ
#define EXP_SVGZ
Definition: graphicfilter.hxx:105

IMP_PNG
#define IMP_PNG
Definition: graphicfilter.hxx:77

PCT_SHORTNAME
constexpr OUStringLiteral PCT_SHORTNAME
Definition: graphicfilter.hxx:118

ERRCODE_GRFILTER_OPENERROR
#define ERRCODE_GRFILTER_OPENERROR
Definition: graphicfilter.hxx:42

IMP_PCD
#define IMP_PCD
Definition: graphicfilter.hxx:92

IMP_JPEG
#define IMP_JPEG
Definition: graphicfilter.hxx:78

GIF_SHORTNAME
constexpr OUStringLiteral GIF_SHORTNAME
Definition: graphicfilter.hxx:115

IMP_XBM
#define IMP_XBM
Definition: graphicfilter.hxx:79

EXP_EMZ
#define EXP_EMZ
Definition: graphicfilter.hxx:102

IMP_GIF
#define IMP_GIF
Definition: graphicfilter.hxx:76

EXP_WMZ
#define EXP_WMZ
Definition: graphicfilter.hxx:100

IMP_WEBP
#define IMP_WEBP
Definition: graphicfilter.hxx:95

WEBP_SHORTNAME
constexpr OUStringLiteral WEBP_SHORTNAME
Definition: graphicfilter.hxx:126

EXP_SVG
#define EXP_SVG
Definition: graphicfilter.hxx:104

TIF_SHORTNAME
constexpr OUStringLiteral TIF_SHORTNAME
Definition: graphicfilter.hxx:121

IMP_PSD
#define IMP_PSD
Definition: graphicfilter.hxx:91

WMF_SHORTNAME
constexpr OUStringLiteral WMF_SHORTNAME
Definition: graphicfilter.hxx:122

IMP_WMF
#define IMP_WMF
Definition: graphicfilter.hxx:72

IMP_XPM
#define IMP_XPM
Definition: graphicfilter.hxx:80

EXP_GIF
#define EXP_GIF
Definition: graphicfilter.hxx:110

BMP_SHORTNAME
constexpr OUStringLiteral BMP_SHORTNAME
Definition: graphicfilter.hxx:114

IMP_SVMETAFILE
#define IMP_SVMETAFILE
Definition: graphicfilter.hxx:71

IMP_DXF
#define IMP_DXF
Definition: graphicfilter.hxx:94

ERRCODE_GRFILTER_TOOBIG
#define ERRCODE_GRFILTER_TOOBIG
Definition: graphicfilter.hxx:47

IMP_EMF
#define IMP_EMF
Definition: graphicfilter.hxx:74

IMP_MET
#define IMP_MET
Definition: graphicfilter.hxx:87

IMP_TGA
#define IMP_TGA
Definition: graphicfilter.hxx:85

IMP_RAS
#define IMP_RAS
Definition: graphicfilter.hxx:88

IMP_WMZ
#define IMP_WMZ
Definition: graphicfilter.hxx:73

ERRCODE_GRFILTER_FORMATERROR
#define ERRCODE_GRFILTER_FORMATERROR
Definition: graphicfilter.hxx:44

EXP_TIFF
#define EXP_TIFF
Definition: graphicfilter.hxx:108

IMP_EMZ
#define IMP_EMZ
Definition: graphicfilter.hxx:75

ERRCODE_GRFILTER_FILTERERROR
#define ERRCODE_GRFILTER_FILTERERROR
Definition: graphicfilter.hxx:46

IMP_SVGZ
#define IMP_SVGZ
Definition: graphicfilter.hxx:82

ERRCODE_GRFILTER_IOERROR
#define ERRCODE_GRFILTER_IOERROR
Definition: graphicfilter.hxx:43

IMP_PCX
#define IMP_PCX
Definition: graphicfilter.hxx:89

GraphicFilterImportFlags
GraphicFilterImportFlags
Definition: graphicfilter.hxx:55

GraphicFilterImportFlags::UseExistingBitmap
@ UseExistingBitmap
Read pixel data into an existing bitmap.

GraphicFilterImportFlags::DontSetLogsizeForJpeg
@ DontSetLogsizeForJpeg

GraphicFilterImportFlags::SetLogsizeForJpeg
@ SetLogsizeForJpeg

GraphicFilterImportFlags::OnlyCreateBitmap
@ OnlyCreateBitmap
Only create a bitmap, do not read pixel data.

GraphicFilterImportFlags::NONE
@ NONE

EXP_EMF
#define EXP_EMF
Definition: graphicfilter.hxx:101

EXP_PNG
#define EXP_PNG
Definition: graphicfilter.hxx:107

JPG_SHORTNAME
constexpr OUStringLiteral JPG_SHORTNAME
Definition: graphicfilter.hxx:116

ERRCODE_GRFILTER_VERSIONERROR
#define ERRCODE_GRFILTER_VERSIONERROR
Definition: graphicfilter.hxx:45

IMP_PBM
#define IMP_PBM
Definition: graphicfilter.hxx:93

IMP_PDF
#define IMP_PDF
Definition: graphicfilter.hxx:83

EMF_SHORTNAME
constexpr OUStringLiteral EMF_SHORTNAME
Definition: graphicfilter.hxx:123

IMP_EPS
#define IMP_EPS
Definition: graphicfilter.hxx:90

PNG_SHORTNAME
constexpr OUStringLiteral PNG_SHORTNAME
Definition: graphicfilter.hxx:119

SVM_SHORTNAME
constexpr OUStringLiteral SVM_SHORTNAME
Definition: graphicfilter.hxx:120

EXP_EPS
#define EXP_EPS
Definition: graphicfilter.hxx:109

EXP_JPEG
#define EXP_JPEG
Definition: graphicfilter.hxx:103

EXP_WEBP
#define EXP_WEBP
Definition: graphicfilter.hxx:111

EXP_WMF
#define EXP_WMF
Definition: graphicfilter.hxx:99

IMP_MOV
#define IMP_MOV
Definition: graphicfilter.hxx:70

graphicfilter_internal.hxx

m_pStream
GtkMediaStream * m_pStream

ImportDxfGraphic
bool ImportDxfGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: idxf.cxx:28

ImportEpsGraphic
bool ImportEpsGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: ieps.cxx:582

impgraph.hxx

implbase.hxx

BmpConversion
BmpConversion
Definition: include/vcl/bitmap.hxx:70

aArguments
Sequence< PropertyValue > aArguments

ImportMetGraphic
bool ImportMetGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: ios2met.cxx:2860

ImportPbmGraphic
bool ImportPbmGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: ipbm.cxx:534

ImportPcdGraphic
bool ImportPcdGraphic(SvStream &rStream, Graphic &rGraphic, FilterConfigItem *pConfigItem)
Definition: ipcd.cxx:346

ImportPcxGraphic
bool ImportPcxGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: ipcx.cxx:402

ImportPictGraphic
bool ImportPictGraphic(SvStream &rIStm, Graphic &rGraphic)
Definition: ipict.cxx:2025

ImportPsdGraphic
bool ImportPsdGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: ipsd.cxx:769

ImportRasGraphic
bool ImportRasGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: iras.cxx:398

ImportTgaGraphic
bool ImportTgaGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: itga.cxx:783

ImportTiffGraphicImport
bool ImportTiffGraphicImport(SvStream &rTIFF, Graphic &rGraphic)
Definition: itiff.cxx:106

ExportJPEG
bool ExportJPEG(SvStream &rOutputStream, const Graphic &rGraphic, const css::uno::Sequence< css::beans::PropertyValue > *pFilterData, bool *pExportWasGrey)
Definition: jpeg.cxx:53

ImportJPEG
VCL_DLLPUBLIC bool ImportJPEG(SvStream &rInputStream, Graphic &rGraphic, GraphicFilterImportFlags nImportFlags, BitmapScopedWriteAccess *ppAccess)
Definition: jpeg.cxx:26

jpeg.hxx

LINK
#define LINK(Instance, Class, Member)

log.hxx

SAL_INFO_IF
#define SAL_INFO_IF(condition, area, stream)

SAL_WARN_IF
#define SAL_WARN_IF(condition, area, stream)

SAL_INFO
#define SAL_INFO(area, stream)

comphelper

comphelper::makePropertyValue
css::beans::PropertyValue makePropertyValue(const OUString &rName, T &&rValue)

i
int i

o3tl::equalsIgnoreAsciiCase
bool equalsIgnoreAsciiCase(std::u16string_view s1, std::u16string_view s2)

o3tl::starts_with
constexpr bool starts_with(std::basic_string_view< charT, traits > sv, std::basic_string_view< charT, traits > x) noexcept

tools::Long
long Long

utl::UCBContentHelper::IsDocument
UNOTOOLS_DLLPUBLIC bool IsDocument(OUString const &url)

utl::UCBContentHelper::Kill
UNOTOOLS_DLLPUBLIC bool Kill(OUString const &url)

vcl::ImportPDF
bool ImportPDF(SvStream &rStream, Graphic &rGraphic)
Imports a PDF stream into rGraphic.
Definition: pdfread.cxx:238

vcl::ImportPNG
bool ImportPNG(SvStream &rInputStream, Graphic &rGraphic, GraphicFilterImportFlags nImportFlags, BitmapScopedWriteAccess *pAccess, AlphaScopedWriteAccess *pAlphaAccess)
Definition: PngImageReader.cxx:516

vcl::peekGraphicFormat
bool peekGraphicFormat(SvStream &rStream, OUString &rFormatExtension, bool bTest)
Definition: GraphicFormatDetector.cxx:58

aMap
HashMap_OWString_Interface aMap

pdfread.hxx

png.hxx

processfactory.hxx

propertyvalue.hxx

ImportWebpGraphic
bool ImportWebpGraphic(SvStream &rStream, Graphic &rGraphic)
Definition: reader.cxx:298

salctype.hxx

ConvertDataFormat::SVM
@ SVM

ConvertDataFormat::WMF
@ WMF

ConvertDataFormat::PNG
@ PNG

ConvertDataFormat::JPG
@ JPG

ConvertDataFormat::TIF
@ TIF

ConvertDataFormat::GIF
@ GIF

ConvertDataFormat::BMP
@ BMP

ConvertDataFormat::EMF
@ EMF

ConvertDataFormat::WEBP
@ WEBP

ConvertDataFormat::PCT
@ PCT

ConvertDataFormat::SVG
@ SVG

ConvertDataFormat::MET
@ MET

SnapKind::Point
@ Point

sal_uLong
sal_uIntPtr sal_uLong

stream.hxx

STREAM_SEEK_TO_END
#define STREAM_SEEK_TO_END

STREAM_SEEK_TO_BEGIN
#define STREAM_SEEK_TO_BEGIN

string.hxx

string_view.hxx

ConvertData
Definition: salctype.hxx:48

m_rContext
const Reference< XComponentContext > & m_rContext

svapp.hxx

svlibrary.h

threadpool.hxx

sal_uInt8
unsigned char sal_uInt8

sal_Int8
signed char sal_Int8

ucbhelper.hxx

ucbstreamhelper.hxx

urlobj.hxx

vectorgraphicdata.hxx

VectorGraphicDataArray
css::uno::Sequence< sal_Int8 > VectorGraphicDataArray
Definition: vectorgraphicdata.hxx:35

VectorGraphicDataType
VectorGraphicDataType
Definition: vectorgraphicdata.hxx:50

VectorGraphicDataType::Svg
@ Svg

VectorGraphicDataType::Emf
@ Emf

VectorGraphicDataType::Wmf
@ Wmf

virdev.hxx

ConvertGraphicToWMF
bool ConvertGraphicToWMF(const Graphic &rGraphic, SvStream &rTargetStream, FilterConfigItem const *pConfigItem, bool bPlaceable)
Definition: wmf.cxx:87

ConvertGDIMetaFileToEMF
bool ConvertGDIMetaFileToEMF(const GDIMetaFile &rMTF, SvStream &rTargetStream)
Definition: wmf.cxx:113

wmf.hxx

ExportWebpGraphic
bool ExportWebpGraphic(SvStream &rStream, const Graphic &rGraphic, FilterConfigItem *pFilterConfigItem)
Definition: writer.cxx:193

ImportXBM
VCL_DLLPUBLIC bool ImportXBM(SvStream &rStm, Graphic &rGraphic)
Definition: xbmread.cxx:371

xbmread.hxx

ImportXPM
VCL_DLLPUBLIC bool ImportXPM(SvStream &rStm, Graphic &rGraphic)
Definition: xpmread.cxx:672

zcodec.hxx

ZCODEC_DEFAULT_COMPRESSION
#define ZCODEC_DEFAULT_COMPRESSION