path: root/vcl/source/filter/wmf/enhwmf.cxx

/* -*- 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 "winmtf.hxx"
#include <osl/endian.h>
#include <basegfx/matrix/b2dhommatrix.hxx>
#include <boost/bind.hpp>
#include <vcl/dibtools.hxx>
#include <boost/scoped_array.hpp>

using namespace std;

// GDI-Array

#define EMR_HEADER                      1
#define EMR_POLYBEZIER                  2
#define EMR_POLYGON                     3
#define EMR_POLYLINE                    4
#define EMR_POLYBEZIERTO                5
#define EMR_POLYLINETO                  6
#define EMR_POLYPOLYLINE                7
#define EMR_POLYPOLYGON                 8
#define EMR_SETWINDOWEXTEX              9
#define EMR_SETWINDOWORGEX              10
#define EMR_SETVIEWPORTEXTEX            11
#define EMR_SETVIEWPORTORGEX            12
#define EMR_SETBRUSHORGEX               13
#define EMR_EOF                         14
#define EMR_SETPIXELV                   15
#define EMR_SETMAPPERFLAGS              16
#define EMR_SETMAPMODE                  17
#define EMR_SETBKMODE                   18
#define EMR_SETPOLYFILLMODE             19
#define EMR_SETROP2                     20
#define EMR_SETSTRETCHBLTMODE           21
#define EMR_SETTEXTALIGN                22
#define EMR_SETCOLORADJUSTMENT          23
#define EMR_SETTEXTCOLOR                24
#define EMR_SETBKCOLOR                  25
#define EMR_OFFSETCLIPRGN               26
#define EMR_MOVETOEX                    27
#define EMR_SETMETARGN                  28
#define EMR_EXCLUDECLIPRECT             29
#define EMR_INTERSECTCLIPRECT           30
#define EMR_SCALEVIEWPORTEXTEX          31
#define EMR_SCALEWINDOWEXTEX            32
#define EMR_SAVEDC                      33
#define EMR_RESTOREDC                   34
#define EMR_SETWORLDTRANSFORM           35
#define EMR_MODIFYWORLDTRANSFORM        36
#define EMR_SELECTOBJECT                37
#define EMR_CREATEPEN                   38
#define EMR_CREATEBRUSHINDIRECT         39
#define EMR_DELETEOBJECT                40
#define EMR_ANGLEARC                    41
#define EMR_ELLIPSE                     42
#define EMR_RECTANGLE                   43
#define EMR_ROUNDRECT                   44
#define EMR_ARC                         45
#define EMR_CHORD                       46
#define EMR_PIE                         47
#define EMR_SELECTPALETTE               48
#define EMR_CREATEPALETTE               49
#define EMR_SETPALETTEENTRIES           50
#define EMR_RESIZEPALETTE               51
#define EMR_REALIZEPALETTE              52
#define EMR_EXTFLOODFILL                53
#define EMR_LINETO                      54
#define EMR_ARCTO                       55
#define EMR_POLYDRAW                    56
#define EMR_SETARCDIRECTION             57
#define EMR_SETMITERLIMIT               58
#define EMR_BEGINPATH                   59
#define EMR_ENDPATH                     60
#define EMR_CLOSEFIGURE                 61
#define EMR_FILLPATH                    62
#define EMR_STROKEANDFILLPATH           63
#define EMR_STROKEPATH                  64
#define EMR_FLATTENPATH                 65
#define EMR_WIDENPATH                   66
#define EMR_SELECTCLIPPATH              67
#define EMR_ABORTPATH                   68

#define EMR_GDICOMMENT                  70
#define EMR_FILLRGN                     71
#define EMR_FRAMERGN                    72
#define EMR_INVERTRGN                   73
#define EMR_PAINTRGN                    74
#define EMR_EXTSELECTCLIPRGN            75
#define EMR_BITBLT                      76
#define EMR_STRETCHBLT                  77
#define EMR_MASKBLT                     78
#define EMR_PLGBLT                      79
#define EMR_SETDIBITSTODEVICE           80
#define EMR_STRETCHDIBITS               81
#define EMR_EXTCREATEFONTINDIRECTW      82
#define EMR_EXTTEXTOUTA                 83
#define EMR_EXTTEXTOUTW                 84
#define EMR_POLYBEZIER16                85
#define EMR_POLYGON16                   86
#define EMR_POLYLINE16                  87
#define EMR_POLYBEZIERTO16              88
#define EMR_POLYLINETO16                89
#define EMR_POLYPOLYLINE16              90
#define EMR_POLYPOLYGON16               91
#define EMR_POLYDRAW16                  92
#define EMR_CREATEMONOBRUSH             93
#define EMR_CREATEDIBPATTERNBRUSHPT     94
#define EMR_EXTCREATEPEN                95
#define EMR_POLYTEXTOUTA                96
#define EMR_POLYTEXTOUTW                97

// WINDOWS VERSION >= 0x400
#define EMR_SETICMMODE                  98
#define EMR_CREATECOLORSPACE            99
#define EMR_SETCOLORSPACE              100
#define EMR_DELETECOLORSPACE           101
#define EMR_GLSRECORD                  102
#define EMR_GLSBOUNDEDRECORD           103
#define EMR_PIXELFORMAT                104

// WINDOWS VERSION >= 0x500
#define EMR_DRAWESCAPE                 105
#define EMR_EXTESCAPE                  106
#define EMR_STARTDOC                   107
#define EMR_SMALLTEXTOUT               108
#define EMR_FORCEUFIMAPPING            109
#define EMR_NAMEDESCAPE                110
#define EMR_COLORCORRECTPALETTE        111
#define EMR_SETICMPROFILEA             112
#define EMR_SETICMPROFILEW             113
#define EMR_ALPHABLEND                 114
#define EMR_ALPHADIBBLEND              115
#define EMR_TRANSPARENTBLT             116
#define EMR_TRANSPARENTDIB             117
#define EMR_GRADIENTFILL               118
#define EMR_SETLINKEDUFIS              119
#define EMR_SETTEXTJUSTIFICATION       120


#ifdef OSL_BIGENDIAN
// little endian <-> big endian switch
static float GetSwapFloat( SvStream& rSt )
{
    float   fTmp;
    sal_Int8* pPtr = (sal_Int8*)&fTmp;
    rSt.ReadSChar( pPtr[3] );
    rSt.ReadSChar( pPtr[2] );
    rSt.ReadSChar( pPtr[1] );
    rSt.ReadSChar( pPtr[0] );
    return fTmp;
}
#endif

struct BLENDFUNCTION{
    unsigned char aBlendOperation;
    unsigned char aBlendFlags;
    unsigned char aSrcConstantAlpha;
    unsigned char aAlphaFormat;

    friend SvStream& operator>>( SvStream& rIn, BLENDFUNCTION& rBlendFun );
};

SvStream& operator>>( SvStream& rIn, BLENDFUNCTION& rBlendFun )
{
    rIn.ReadUChar( rBlendFun.aBlendOperation ).ReadUChar( rBlendFun.aBlendFlags ).ReadUChar( rBlendFun.aSrcConstantAlpha ).ReadUChar( rBlendFun.aAlphaFormat );
    return rIn;
}

SvStream& operator>>( SvStream& rIn, XForm& rXForm )
{
    if ( sizeof( float ) != 4 )
    {
        OSL_FAIL( "EnhWMFReader::sizeof( float ) != 4" );
        rXForm = XForm();
    }
    else
    {
#ifdef OSL_BIGENDIAN
    rXForm.eM11 = GetSwapFloat( rIn );
    rXForm.eM12 = GetSwapFloat( rIn );
    rXForm.eM21 = GetSwapFloat( rIn );
    rXForm.eM22 = GetSwapFloat( rIn );
    rXForm.eDx = GetSwapFloat( rIn );
    rXForm.eDy = GetSwapFloat( rIn );
#else
    rIn.ReadFloat( rXForm.eM11 ).ReadFloat( rXForm.eM12 ).ReadFloat( rXForm.eM21 ).ReadFloat( rXForm.eM22 )
           .ReadFloat( rXForm.eDx ).ReadFloat( rXForm.eDy );
#endif
    }
    return rIn;
}

static bool ImplReadRegion( PolyPolygon& rPolyPoly, SvStream& rSt, sal_uInt32 nLen )
{
    bool bOk = false;
    if ( nLen )
    {
        sal_uInt32 nHdSize, nType, nCount, nRgnSize, i;
        rSt.ReadUInt32( nHdSize )
           .ReadUInt32( nType )
           .ReadUInt32( nCount )
           .ReadUInt32( nRgnSize );

        if ( nCount && ( nType == RDH_RECTANGLES ) &&
                ( nLen >= ( ( nCount << 4 ) + ( nHdSize - 16 ) ) ) )
        {
            sal_Int32 nx1, ny1, nx2, ny2;

            for ( i = 0; i < nCount; i++ )
            {
                rSt.ReadInt32( nx1 ).ReadInt32( ny1 ).ReadInt32( nx2 ).ReadInt32( ny2 );

                Rectangle aRect( Point( nx1, ny1 ), Point( nx2, ny2 ) );
                Polygon aPolygon( aRect );
                PolyPolygon aPolyPolyOr1( aPolygon );
                PolyPolygon aPolyPolyOr2( rPolyPoly );
                rPolyPoly.GetUnion( aPolyPolyOr1, aPolyPolyOr2 );
                rPolyPoly = aPolyPolyOr2;
            }
            bOk = true;
        }
    }
    return bOk;
}

void EnhWMFReader::ReadEMFPlusComment(sal_uInt32 length, bool& bHaveDC)
{
    if (!bEMFPlus) {
        pOut->PassEMFPlusHeaderInfo();

#if OSL_DEBUG_LEVEL > 1
        // debug code - write the stream to debug file /tmp/emf-stream.emf
        int pos = pWMF->Tell();
        pWMF->Seek(0);
        SvFileStream file( OUString( "/tmp/emf-stream.emf" ), STREAM_WRITE | STREAM_TRUNC );

        pWMF->WriteStream(file);
        file.Flush();
        file.Close();

        pWMF->Seek( pos );
#endif

    }
    bEMFPlus = true;

    sal_Size pos = pWMF->Tell();
    void *buffer = malloc( length );
    pOut->PassEMFPlus( buffer, pWMF->Read( buffer, length ) );
    free( buffer );
    pWMF->Seek( pos );

    bHaveDC = false;

    OSL_ASSERT(length >= 4);
    // reduce by 32bit length itself, skip in SeekRel if
    // impossibly unavailable
    sal_uInt32 nRemainder = length >= 4 ? length-4 : length;

    const size_t nRequiredHeaderSize = 12;
    while (nRemainder >= nRequiredHeaderSize)
    {
        sal_uInt16 type(0), flags(0);
        sal_uInt32 size(0), dataSize(0);

        pWMF->ReadUInt16( type ).ReadUInt16( flags ).ReadUInt32( size ).ReadUInt32( dataSize );
        nRemainder -= nRequiredHeaderSize;

        SAL_INFO ("vcl.emf", "\t\tEMF+ record type: " << std::hex << type << std::dec);

        // GetDC
        if( type == 16388 ) {
            bHaveDC = true;
            SAL_INFO ("vcl.emf", "\t\tEMF+ lock DC (device context)");
        }

        // Get the length of the remaining data of this record based
        // on the alleged size
        sal_uInt32 nRemainingRecordData = size >= nRequiredHeaderSize ?
            size-nRequiredHeaderSize : 0;
        // clip to available size
        nRemainingRecordData = std::min(nRemainingRecordData, nRemainder);
        pWMF->SeekRel(nRemainingRecordData);
        nRemainder -= nRemainingRecordData;
    }
    pWMF->SeekRel(nRemainder);
}

/**
 * Reads polygons from the stream.
 * The \<class T> parameter is for the type of the points (sal_uInt32 or sal_uInt16).
 * The \<class Drawer> parameter is a boost binding for the method that will draw the polygon.
 * skipFirst: if the first point read is the 0th point or the 1st point in the array.
 * */
template <class T, class Drawer>
void EnhWMFReader::ReadAndDrawPolygon(Drawer drawer, const bool skipFirst)
{
    sal_uInt32 nPoints(0), nStartIndex(0);
    pWMF->SeekRel( 16 );
    pWMF->ReadUInt32( nPoints );
    if (skipFirst)
    {
        nPoints ++;
        nStartIndex ++;
    }

    Polygon aPolygon = ReadPolygon<T>(nStartIndex, nPoints);
    drawer(pOut, aPolygon, skipFirst, bRecordPath);
}


/**
 * Reads polygons from the stream.
 * The \<class T> parameter is for the type of the points
 * nStartIndex: which is the starting index in the polygon of the first point read
 * nPoints: number of points
 * pWMF: the stream containings the polygons
 * */
template <class T>
Polygon EnhWMFReader::ReadPolygon(sal_uInt32 nStartIndex, sal_uInt32 nPoints)
{
    bool bRecordOk = nPoints <= SAL_MAX_UINT16;
    SAL_WARN_IF(!bRecordOk, "vcl.filter", "polygon record has more polygons than we can handle");
    if (!bRecordOk)
        return Polygon();

    Polygon aPolygon(nPoints);
    for (sal_uInt16 i = nStartIndex ; i < nPoints && pWMF->good(); i++ )
    {
        T nX, nY;
        *pWMF >> nX >> nY;
        if (!pWMF->good())
            break;
        aPolygon[ i ] = Point( nX, nY );
    }

    return aPolygon;
}

/**
 * Reads a polyline from the WMF file and draws it
 * The \<class T> parameter refers to the type of the points. (e.g. sal_uInt16 or sal_uInt32)
 * */
template <class T>
void EnhWMFReader::ReadAndDrawPolyLine()
{
    sal_uInt32  nPoints;
    sal_Int32   i, nPoly(0), nGesPoints(0);
    pWMF->SeekRel( 0x10 );
    // Number of Polygons:
    pWMF->ReadInt32( nPoly ).ReadInt32( nGesPoints );

    // taking the amount of points of each polygon, retrieving the total number of points
    if ( pWMF->good() &&
         ( static_cast< sal_uInt32 >(nPoly) < SAL_MAX_UINT32 / sizeof(sal_uInt16) ) &&
         ( static_cast< sal_uInt32 >( nPoly ) * sizeof(sal_uInt16) ) <= ( nEndPos - pWMF->Tell() )
       )
    {
        boost::scoped_array<sal_uInt16> pnPoints(new sal_uInt16[ nPoly ]);
        for ( i = 0; i < nPoly && pWMF->good(); i++ )
        {
            pWMF->ReadUInt32( nPoints );
            pnPoints[ i ] = (sal_uInt16)nPoints;
        }
        // Get polygon points:
        for ( i = 0; ( i < nPoly ) && pWMF->good(); i++ )
        {
            Polygon aPolygon = ReadPolygon<T>(0, pnPoints[i]);
            pOut->DrawPolyLine( aPolygon, false, bRecordPath );
        }
    }
}

// these are referenced from inside the templates

SvStream& operator>>(SvStream& rStream, sal_Int16 &n)
{
    return rStream.ReadInt16(n);
}

SvStream& operator>>(SvStream& rStream, sal_Int32 &n)
{
    return rStream.ReadInt32(n);
}

/**
 * Reads a poly polygon from the WMF file and draws it.
 * The \<class T> parameter refers to the type of the points. (e.g. sal_uInt16 or sal_uInt32)
 * */
template <class T>
void EnhWMFReader::ReadAndDrawPolyPolygon()
{
    sal_uInt32 nPoly(0), nGesPoints(0), nReadPoints(0);
    pWMF->SeekRel( 0x10 );
    // Number of polygons
    pWMF->ReadUInt32( nPoly ).ReadUInt32( nGesPoints );
    if ( pWMF->good() &&
        ( nGesPoints < SAL_MAX_UINT32 / sizeof(Point) ) && //check against numeric overflowing
        ( nPoly < SAL_MAX_UINT32 / sizeof(sal_uInt16) ) &&
        ( (  nPoly * sizeof( sal_uInt16 ) ) <= ( nEndPos - pWMF->Tell() ) ))
    {
        // Get number of points in each polygon
        boost::scoped_array<sal_uInt16> pnPoints(new sal_uInt16[ nPoly ]);
        for (sal_uInt32 i = 0; i < nPoly && pWMF->good(); ++i)
        {
            sal_uInt32 nPoints(0);
            pWMF->ReadUInt32( nPoints );
            pnPoints[ i ] = (sal_uInt16)nPoints;
        }
        if ( pWMF->good() && ( nGesPoints * (sizeof(T)+sizeof(T)) ) <= ( nEndPos - pWMF->Tell() ) )
        {
            // Get polygon points
            PolyPolygon aPolyPoly(nPoly, nPoly);
            for (sal_uInt32 i = 0; i < nPoly && pWMF->good(); ++i)
            {
                const sal_uInt16 nPointCount(pnPoints[i]);
                boost::scoped_array<Point> pPtAry(new Point[nPointCount]);
                for (sal_uInt16 j = 0; j < nPointCount && pWMF->good(); ++j)
                {
                    T nX(0), nY(0);
                    *pWMF >> nX >> nY;
                    pPtAry[ j ] = Point( nX, nY );
                    ++nReadPoints;
                }

                aPolyPoly.Insert(Polygon(nPointCount, pPtAry.get()));
            }

            pOut->DrawPolyPolygon( aPolyPoly, bRecordPath );
        }

        OSL_ENSURE(nReadPoints == nGesPoints, "The number Points processed from EMR_POLYPOLYGON is unequal imported number (!)");

    }
}

bool EnhWMFReader::ReadEnhWMF()
{
    sal_uInt32  nStretchBltMode = 0;
    sal_uInt32  nRecType(0), nRecSize(0), nNextPos(0),
                nW(0), nH(0), nColor(0), nIndex(0),
                nDat32(0), nNom1(0), nDen1(0), nNom2(0), nDen2(0);
    sal_Int32   nX32(0), nY32(0), nx32(0), ny32(0);

    bool    bFlag(false), bStatus = ReadHeader();
    bool    bHaveDC = false;

    static bool bEnableEMFPlus = ( getenv( "EMF_PLUS_DISABLE" ) == NULL );

    while( bStatus && nRecordCount-- && pWMF->good())
    {
        pWMF->ReadUInt32( nRecType ).ReadUInt32( nRecSize );

        if ( !pWMF->good() || ( nRecSize < 8 ) || ( nRecSize & 3 ) )     // Parameters are always divisible by 4
        {
            bStatus = false;
            break;
        }

        nNextPos = pWMF->Tell() + ( nRecSize - 8 );

        if ( !pWMF->good() || nNextPos > nEndPos )
        {
            bStatus = false;
            break;
        }

        if(  !aBmpSaveList.empty()
          && ( nRecType != EMR_STRETCHBLT )
          && ( nRecType != EMR_STRETCHDIBITS )
          ) {
            pOut->ResolveBitmapActions( aBmpSaveList );
        }

        bFlag = false;

        SAL_INFO ("vcl.emf", "0x" << std::hex << (nNextPos - nRecSize) <<  "-0x" << nNextPos << " record type: " << std::dec << nRecType << " size: " <<  nRecSize << std::dec);

        if( bEnableEMFPlus && nRecType == EMR_GDICOMMENT ) {
            sal_uInt32 length;

            pWMF->ReadUInt32( length );

            SAL_INFO("vcl.emf", "\tGDI comment, length: " << length);

            if( pWMF->good() && length >= 4 ) {
                sal_uInt32 id;

                pWMF->ReadUInt32( id );

                SAL_INFO ("vcl.emf", "\t\tbegin " << (char)(id & 0xff) << (char)((id & 0xff00) >> 8) << (char)((id & 0xff0000) >> 16) << (char)((id & 0xff000000) >> 24) << " id: 0x" << std::hex << id << std::dec);

                // EMF+ comment (FIXME: BE?)
                if( id == 0x2B464D45 && nRecSize >= 12 )
                    ReadEMFPlusComment( length, bHaveDC );
                // GDIC comment, doesn't do anything useful yet
                else if( id == 0x43494447 && nRecSize >= 12 ) {
                    // TODO: ReadGDIComment()
                } else {
                    SAL_INFO ("vcl.emf", "\t\tunknown id: 0x" << std::hex << id << std::dec);
                }
            }
        }
        else if( !bEMFPlus || bHaveDC || nRecType == EMR_EOF )
        {
            switch( nRecType )
            {
                case EMR_POLYBEZIERTO :
                    ReadAndDrawPolygon<sal_Int32>(boost::bind(&WinMtfOutput::DrawPolyBezier, _1, _2, _3, _4), true);
                break;
                case EMR_POLYBEZIER :
                    ReadAndDrawPolygon<sal_Int32>(boost::bind(&WinMtfOutput::DrawPolyBezier, _1, _2, _3, _4), false);
                break;

                case EMR_POLYGON :
                    ReadAndDrawPolygon<sal_Int32>(boost::bind(&WinMtfOutput::DrawPolygon, _1, _2, _3, _4), false);
                break;

                case EMR_POLYLINETO :
                    ReadAndDrawPolygon<sal_Int32>(boost::bind(&WinMtfOutput::DrawPolyLine, _1, _2, _3, _4), true);
                break;
                case EMR_POLYLINE :
                    ReadAndDrawPolygon<sal_Int32>(boost::bind(&WinMtfOutput::DrawPolyLine, _1, _2, _3, _4), false);
                break;

                case EMR_POLYPOLYLINE :
                    ReadAndDrawPolyLine<sal_Int32>();
                break;

                case EMR_POLYPOLYGON :
                    ReadAndDrawPolyPolygon<sal_Int32>();
                break;

                case EMR_SETWINDOWEXTEX :
                {                                                       // #75383#
                    pWMF->ReadUInt32( nW ).ReadUInt32( nH );
                    pOut->SetWinExt( Size( nW, nH ), true);
                }
                break;

                case EMR_SETWINDOWORGEX :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 );
                    pOut->SetWinOrg( Point( nX32, nY32 ), true);
                }
                break;

                case EMR_SCALEWINDOWEXTEX :
                {
                    pWMF->ReadUInt32( nNom1 ).ReadUInt32( nDen1 ).ReadUInt32( nNom2 ).ReadUInt32( nDen2 );
                    pOut->ScaleWinExt( (double)nNom1 / nDen1, (double)nNom2 / nDen2 );
                }
                break;

                case EMR_SETVIEWPORTORGEX :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 );
                    pOut->SetDevOrg( Point( nX32, nY32 ) );
                }
                break;

                case EMR_SCALEVIEWPORTEXTEX :
                {
                    pWMF->ReadUInt32( nNom1 ).ReadUInt32( nDen1 ).ReadUInt32( nNom2 ).ReadUInt32( nDen2 );
                    pOut->ScaleDevExt( (double)nNom1 / nDen1, (double)nNom2 / nDen2 );
                }
                break;

                case EMR_SETVIEWPORTEXTEX :
                {
                    pWMF->ReadUInt32( nW ).ReadUInt32( nH );
                    pOut->SetDevExt( Size( nW, nH ) );
                }
                break;

                case EMR_EOF :
                    nRecordCount = 0;           // #76846#
                break;

                case EMR_SETPIXELV :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 );
                    pOut->DrawPixel( Point( nX32, nY32 ), ReadColor() );
                }
                break;

                case EMR_SETMAPMODE :
                {
                    sal_uInt32 nMapMode;
                    pWMF->ReadUInt32( nMapMode );
                    pOut->SetMapMode( nMapMode );
                }
                break;

                case EMR_SETBKMODE :
                {
                    pWMF->ReadUInt32( nDat32 );
                    pOut->SetBkMode( nDat32 );
                }
                break;

                case EMR_SETPOLYFILLMODE :
                break;

                case EMR_SETROP2 :
                {
                    pWMF->ReadUInt32( nDat32 );
                    pOut->SetRasterOp( nDat32 );
                }
                break;

                case EMR_SETSTRETCHBLTMODE :
                {
                    pWMF->ReadUInt32( nStretchBltMode );
                }
                break;

                case EMR_SETTEXTALIGN :
                {
                    pWMF->ReadUInt32( nDat32 );
                    pOut->SetTextAlign( nDat32 );
                }
                break;

                case EMR_SETTEXTCOLOR :
                {
                    pOut->SetTextColor( ReadColor() );
                }
                break;

                case EMR_SETBKCOLOR :
                {
                    pOut->SetBkColor( ReadColor() );
                }
                break;

                case EMR_OFFSETCLIPRGN :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 );
                    pOut->MoveClipRegion( Size( nX32, nY32 ) );
                }
                break;

                case EMR_MOVETOEX :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 );
                    pOut->MoveTo( Point( nX32, nY32 ), bRecordPath );
                }
                break;

                case EMR_INTERSECTCLIPRECT :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 );
                    pOut->IntersectClipRect( ReadRectangle( nX32, nY32, nx32, ny32 ) );
                }
                break;

                case EMR_SAVEDC :
                {
                    pOut->Push();
                }
                break;

                case EMR_RESTOREDC :
                {
                    pOut->Pop();
                }
                break;

                case EMR_SETWORLDTRANSFORM :
                {
                    XForm aTempXForm;
                    *pWMF >> aTempXForm;
                    pOut->SetWorldTransform( aTempXForm );
                }
                break;

                case EMR_MODIFYWORLDTRANSFORM :
                {
                    sal_uInt32  nMode;
                    XForm   aTempXForm;
                    *pWMF >> aTempXForm;
                    pWMF->ReadUInt32( nMode );
                    pOut->ModifyWorldTransform( aTempXForm, nMode );
                }
                break;

                case EMR_SELECTOBJECT :
                {
                    pWMF->ReadUInt32( nIndex );
                    pOut->SelectObject( nIndex );
                }
                break;

                case EMR_CREATEPEN :
                {
                    pWMF->ReadUInt32( nIndex );
                    if ( ( nIndex & ENHMETA_STOCK_OBJECT ) == 0 )
                    {

                        LineInfo    aLineInfo;
                        sal_uInt32      nStyle;
                        Size        aSize;
                        // #fdo39428 Remove SvStream operator>>(long&)
                        sal_Int32 nTmpW(0), nTmpH(0);

                        pWMF->ReadUInt32( nStyle ).ReadInt32( nTmpW ).ReadInt32( nTmpH );
                        aSize.Width() = nTmpW;
                        aSize.Height() = nTmpH;

                        if ( aSize.Width() )
                            aLineInfo.SetWidth( aSize.Width() );

                        bool bTransparent = false;
                        switch( nStyle & 0xFF )
                        {
                            case PS_DASHDOTDOT :
                                aLineInfo.SetStyle( LINE_DASH );
                                aLineInfo.SetDashCount( 1 );
                                aLineInfo.SetDotCount( 2 );
                                aLineInfo.SetDashLen( 150 );
                                aLineInfo.SetDotLen( 30 );
                                aLineInfo.SetDistance( 50 );
                            break;
                            case PS_DASHDOT :
                                aLineInfo.SetStyle( LINE_DASH );
                                aLineInfo.SetDashCount( 1 );
                                aLineInfo.SetDotCount( 1 );
                                aLineInfo.SetDashLen( 150 );
                                aLineInfo.SetDotLen( 30 );
                                aLineInfo.SetDistance( 90 );
                            break;
                            case PS_DOT :
                                aLineInfo.SetStyle( LINE_DASH );
                                aLineInfo.SetDashCount( 0 );
                                aLineInfo.SetDotCount( 1 );
                                aLineInfo.SetDotLen( 30 );
                                aLineInfo.SetDistance( 50 );
                            break;
                            case PS_DASH :
                                aLineInfo.SetStyle( LINE_DASH );
                                aLineInfo.SetDashCount( 1 );
                                aLineInfo.SetDotCount( 0 );
                                aLineInfo.SetDashLen( 225 );
                                aLineInfo.SetDistance( 100 );
                            break;
                            case PS_NULL :
                                bTransparent = true;
                                aLineInfo.SetStyle( LINE_NONE );
                            break;
                            case PS_INSIDEFRAME :
                            case PS_SOLID :
                            default :
                                aLineInfo.SetStyle( LINE_SOLID );
                        }
                        switch( nStyle & 0xF00 )
                        {
                            case PS_ENDCAP_ROUND :
                                aLineInfo.SetLineCap( com::sun::star::drawing::LineCap_ROUND );
                            break;
                            case PS_ENDCAP_SQUARE :
                                aLineInfo.SetLineCap( com::sun::star::drawing::LineCap_SQUARE );
                            break;
                            case PS_ENDCAP_FLAT :
                            default :
                                aLineInfo.SetLineCap( com::sun::star::drawing::LineCap_BUTT );
                        }
                        switch( nStyle & 0xF000 )
                        {
                            case PS_JOIN_ROUND :
                                aLineInfo.SetLineJoin ( basegfx::B2DLINEJOIN_ROUND );
                            break;
                            case PS_JOIN_MITER :
                                aLineInfo.SetLineJoin ( basegfx::B2DLINEJOIN_MITER );
                            break;
                            case PS_JOIN_BEVEL :
                                aLineInfo.SetLineJoin ( basegfx::B2DLINEJOIN_BEVEL );
                            break;
                            default :
                                aLineInfo.SetLineJoin ( basegfx::B2DLINEJOIN_NONE );
                        }
                        pOut->CreateObject( nIndex, GDI_PEN, new WinMtfLineStyle( ReadColor(), aLineInfo, bTransparent ) );
                    }
                }
                break;

                case EMR_EXTCREATEPEN :
                {
                    sal_Int32   elpHatch;
                    sal_uInt32  offBmi, cbBmi, offBits, cbBits, nStyle, nWidth, nBrushStyle, elpNumEntries;
                    Color       aColorRef;

                    pWMF->ReadUInt32( nIndex );
                    if ( ( nIndex & ENHMETA_STOCK_OBJECT ) == 0 )
                    {
                        pWMF->ReadUInt32( offBmi ).ReadUInt32( cbBmi ).ReadUInt32( offBits ).ReadUInt32( cbBits ). ReadUInt32( nStyle ).ReadUInt32( nWidth ).ReadUInt32( nBrushStyle );
                         aColorRef = ReadColor();
                         pWMF->ReadInt32( elpHatch ).ReadUInt32( elpNumEntries );

                        LineInfo    aLineInfo;
                        if ( nWidth )
                            aLineInfo.SetWidth( nWidth );

                        bool bTransparent = false;
                        sal_uInt16 nDashCount = 0;
                        sal_uInt16 nDotCount = 0;

                        switch( nStyle & PS_STYLE_MASK )
                        {
                            case PS_DASHDOTDOT :
                                nDotCount++;
                            case PS_DASHDOT :
                                nDashCount++;
                            case PS_DOT :
                                nDotCount++;
                            break;
                            case PS_DASH :
                                nDashCount++;
                            break;
                            case PS_NULL :
                                bTransparent = true;
                                aLineInfo.SetStyle( LINE_NONE );
                            break;

                            case PS_INSIDEFRAME :
                            case PS_SOLID :
                            default :
                                aLineInfo.SetStyle( LINE_SOLID );
                        }
                        if ( nDashCount | nDotCount )
                        {
                            aLineInfo.SetStyle( LINE_DASH );
                            aLineInfo.SetDashCount( nDashCount );
                            aLineInfo.SetDotCount( nDotCount );
                        }
                        pOut->CreateObject( nIndex, GDI_PEN, new WinMtfLineStyle( aColorRef, aLineInfo, bTransparent ) );
                    }
                }
                break;

                case EMR_CREATEBRUSHINDIRECT :
                {
                    sal_uInt32  nStyle;
                    pWMF->ReadUInt32( nIndex );
                    if ( ( nIndex & ENHMETA_STOCK_OBJECT ) == 0 )
                    {
                        pWMF->ReadUInt32( nStyle );
                        pOut->CreateObject( nIndex, GDI_BRUSH, new WinMtfFillStyle( ReadColor(), ( nStyle == BS_HOLLOW ) ? true : false ) );
                    }
                }
                break;

                case EMR_DELETEOBJECT :
                {
                    pWMF->ReadUInt32( nIndex );
                    if ( ( nIndex & ENHMETA_STOCK_OBJECT ) == 0 )
                        pOut->DeleteObject( nIndex );
                }
                break;

                case EMR_ELLIPSE :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 );
                    pOut->DrawEllipse( ReadRectangle( nX32, nY32, nx32, ny32 ) );
                }
                break;

                case EMR_RECTANGLE :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 );
                    pOut->DrawRect( ReadRectangle( nX32, nY32, nx32, ny32 ) );
                }
                break;

                case EMR_ROUNDRECT :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 ).ReadUInt32( nW ).ReadUInt32( nH );
                    Size aSize( Size( nW, nH ) );
                    pOut->DrawRoundRect( ReadRectangle( nX32, nY32, nx32, ny32 ), aSize );
                }
                break;

                case EMR_ARC :
                {
                    sal_uInt32 nStartX, nStartY, nEndX, nEndY;
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 ).ReadUInt32( nStartX ).ReadUInt32( nStartY ).ReadUInt32( nEndX ).ReadUInt32( nEndY );
                    pOut->DrawArc( ReadRectangle( nX32, nY32, nx32, ny32 ), Point( nStartX, nStartY ), Point( nEndX, nEndY ) );
                }
                break;

                case EMR_CHORD :
                {
                    sal_uInt32 nStartX, nStartY, nEndX, nEndY;
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 ).ReadUInt32( nStartX ).ReadUInt32( nStartY ).ReadUInt32( nEndX ).ReadUInt32( nEndY );
                    pOut->DrawChord( ReadRectangle( nX32, nY32, nx32, ny32 ), Point( nStartX, nStartY ), Point( nEndX, nEndY ) );
                }
                break;

                case EMR_PIE :
                {
                    sal_uInt32 nStartX, nStartY, nEndX, nEndY;
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 ).ReadUInt32( nStartX ).ReadUInt32( nStartY ).ReadUInt32( nEndX ).ReadUInt32( nEndY );
                    const Rectangle aRect( ReadRectangle( nX32, nY32, nx32, ny32 ));

                    // #i73608# OutputDevice deviates from WMF
                    // semantics. start==end means full ellipse here.
                    if( nStartX == nEndX && nStartY == nEndY )
                        pOut->DrawEllipse( aRect );
                    else
                        pOut->DrawPie( aRect, Point( nStartX, nStartY ), Point( nEndX, nEndY ) );
                }
                break;

                case EMR_LINETO :
                {
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 );
                    pOut->LineTo( Point( nX32, nY32 ), bRecordPath );
                }
                break;

                case EMR_ARCTO :
                {
                    sal_uInt32 nStartX, nStartY, nEndX, nEndY;
                    pWMF->ReadInt32( nX32 ).ReadInt32( nY32 ).ReadInt32( nx32 ).ReadInt32( ny32 ).ReadUInt32( nStartX ).ReadUInt32( nStartY ).ReadUInt32( nEndX ).ReadUInt32( nEndY );
                    pOut->DrawArc( ReadRectangle( nX32, nY32, nx32, ny32 ), Point( nStartX, nStartY ), Point( nEndX, nEndY ), true );
                }
                break;

                case EMR_BEGINPATH :
                {
                    pOut->ClearPath();
                    bRecordPath = true;
                }
                break;

                case EMR_ABORTPATH :
                    pOut->ClearPath();
                case EMR_ENDPATH :
                    bRecordPath = false;
                break;

                case EMR_CLOSEFIGURE :
                    pOut->ClosePath();
                break;

                case EMR_FILLPATH :
                    pOut->StrokeAndFillPath( false, true );
                break;

                case EMR_STROKEANDFILLPATH :
                    pOut->StrokeAndFillPath( true, true );
                break;

                case EMR_STROKEPATH :
                    pOut->StrokeAndFillPath( true, false );
                break;

                case EMR_SELECTCLIPPATH :
                {
                    sal_Int32 nClippingMode;
                    pWMF->ReadInt32( nClippingMode );
                    pOut->SetClipPath( pOut->GetPathObj(), nClippingMode, true );
                }
                break;

                case EMR_EXTSELECTCLIPRGN :
                {
                    sal_Int32 iMode, cbRgnData;
                    pWMF->ReadInt32( cbRgnData )
                         .ReadInt32( iMode );

                    PolyPolygon aPolyPoly;
                    if ( cbRgnData )
                        ImplReadRegion( aPolyPoly, *pWMF, nRecSize );
                    pOut->SetClipPath( aPolyPoly, iMode, true );
                }
                break;

                case EMR_ALPHABLEND:
                {
                    sal_Int32 xDest(0), yDest(0), cxDest(0), cyDest(0);

                    BLENDFUNCTION aFunc;
                    sal_Int32 xSrc(0), ySrc(0), cxSrc(0), cySrc(0);
                    XForm xformSrc;
                    sal_uInt32 BkColorSrc(0), iUsageSrc(0), offBmiSrc(0);
                    sal_uInt32 cbBmiSrc(0), offBitsSrc(0), cbBitsSrc(0);

                    sal_uInt32   nStart = pWMF->Tell() - 8;
                    pWMF->SeekRel( 0x10 );

                    pWMF->ReadInt32( xDest ).ReadInt32( yDest ).ReadInt32( cxDest ).ReadInt32( cyDest );
                    *pWMF >> aFunc;
                    pWMF->ReadInt32( xSrc ).ReadInt32( ySrc );
                    *pWMF >> xformSrc;
                    pWMF->ReadUInt32( BkColorSrc ).ReadUInt32( iUsageSrc ).ReadUInt32( offBmiSrc ).ReadUInt32( cbBmiSrc )
                               .ReadUInt32( offBitsSrc ).ReadUInt32( cbBitsSrc ).ReadInt32( cxSrc ).ReadInt32( cySrc ) ;

                    sal_uInt32  dwRop = SRCAND|SRCINVERT;

                    Bitmap      aBitmap;
                    Rectangle   aRect( Point( xDest, yDest ), Size( cxDest+1, cyDest+1 ) );

                    if ( (cbBitsSrc > (SAL_MAX_UINT32 - 14)) || ((SAL_MAX_UINT32 - 14) - cbBitsSrc < cbBmiSrc) )
                        bStatus = false;
                    else
                    {
                        sal_uInt32 nSize = cbBmiSrc + cbBitsSrc + 14;
                        if ( nSize <= ( nEndPos - nStartPos ) )
                        {
                            char* pBuf = new char[ nSize ];
                            SvMemoryStream aTmp( pBuf, nSize, STREAM_READ | STREAM_WRITE );
                            aTmp.ObjectOwnsMemory( true );
                            aTmp.WriteUChar( (sal_uInt8)'B' )
                                .WriteUChar( (sal_uInt8)'M' )
                                .WriteUInt32( (sal_uInt32)cbBitsSrc )
                                .WriteUInt16( (sal_uInt16)0 )
                                .WriteUInt16( (sal_uInt16)0 )
                                .WriteUInt32( (sal_uInt32)cbBmiSrc + 14 );
                            pWMF->Seek( nStart + offBmiSrc );
                            pWMF->Read( pBuf + 14, cbBmiSrc );
                            pWMF->Seek( nStart + offBitsSrc );
                            pWMF->Read( pBuf + 14 + cbBmiSrc, cbBitsSrc );
                            aTmp.Seek( 0 );
                            ReadDIB(aBitmap, aTmp, true);

                            // test if it is sensible to crop
                            if ( ( cxSrc > 0 ) && ( cySrc > 0 ) &&
                                ( xSrc >= 0 ) && ( ySrc >= 0 ) &&
                                    ( xSrc + cxSrc <= aBitmap.GetSizePixel().Width() ) &&
                                        ( ySrc + cySrc <= aBitmap.GetSizePixel().Height() ) )
                            {
                                Rectangle aCropRect( Point( xSrc, ySrc ), Size( cxSrc, cySrc ) );
                                aBitmap.Crop( aCropRect );
                            }
                            aBmpSaveList.push_back( new BSaveStruct( aBitmap, aRect, dwRop, pOut->GetFillStyle () ) );
                        }
                    }
                }
                break;

                case EMR_BITBLT :   // PASSTHROUGH INTENDED
                case EMR_STRETCHBLT :
                {
                    sal_Int32   xDest, yDest, cxDest, cyDest, xSrc, ySrc, cxSrc, cySrc;
                    sal_uInt32  dwRop, iUsageSrc, offBmiSrc, cbBmiSrc, offBitsSrc, cbBitsSrc;
                    XForm   xformSrc;

                    sal_uInt32  nStart = pWMF->Tell() - 8;

                    pWMF->SeekRel( 0x10 );
                    pWMF->ReadInt32( xDest ).ReadInt32( yDest ).ReadInt32( cxDest ).ReadInt32( cyDest ).ReadUInt32( dwRop ).ReadInt32( xSrc ).ReadInt32( ySrc )
                            >> xformSrc;
                    pWMF->ReadUInt32( nColor ).ReadUInt32( iUsageSrc ).ReadUInt32( offBmiSrc ).ReadUInt32( cbBmiSrc )
                               .ReadUInt32( offBitsSrc ).ReadUInt32( cbBitsSrc );

                    if ( nRecType == EMR_STRETCHBLT )
                        pWMF->ReadInt32( cxSrc ).ReadInt32( cySrc );
                    else
                        cxSrc = cySrc = 0;

                    Bitmap      aBitmap;
                    Rectangle   aRect( Point( xDest, yDest ), Size( cxDest, cyDest ) );

                    cxDest = abs( (int)cxDest );        // sj: i37894, size can be negative
                    cyDest = abs( (int)cyDest );        // and also 122889

                    if ( (cbBitsSrc > (SAL_MAX_UINT32 - 14)) || ((SAL_MAX_UINT32 - 14) - cbBitsSrc < cbBmiSrc) )
                        bStatus = false;
                    else
                    {
                        sal_uInt32 nSize = cbBmiSrc + cbBitsSrc + 14;
                        if ( nSize <= ( nEndPos - nStartPos ) )
                        {
                            char* pBuf = new char[ nSize ];
                            SvMemoryStream aTmp( pBuf, nSize, STREAM_READ | STREAM_WRITE );
                            aTmp.ObjectOwnsMemory( true );
                            aTmp.WriteUChar( (sal_uInt8)'B' )
                                .WriteUChar( (sal_uInt8)'M' )
                                .WriteUInt32( (sal_uInt32)cbBitsSrc )
                                .WriteUInt16( (sal_uInt16)0 )
                                .WriteUInt16( (sal_uInt16)0 )
                                .WriteUInt32( (sal_uInt32)cbBmiSrc + 14 );
                            pWMF->Seek( nStart + offBmiSrc );
                            pWMF->Read( pBuf + 14, cbBmiSrc );
                            pWMF->Seek( nStart + offBitsSrc );
                            pWMF->Read( pBuf + 14 + cbBmiSrc, cbBitsSrc );
                            aTmp.Seek( 0 );
                            ReadDIB(aBitmap, aTmp, true);

                            // test if it is sensible to crop
                            if ( ( cxSrc > 0 ) && ( cySrc > 0 ) &&
                                ( xSrc >= 0 ) && ( ySrc >= 0 ) &&
                                    ( xSrc + cxSrc <= aBitmap.GetSizePixel().Width() ) &&
                                        ( ySrc + cySrc <= aBitmap.GetSizePixel().Height() ) )
                            {
                                Rectangle aCropRect( Point( xSrc, ySrc ), Size( cxSrc, cySrc ) );
                                aBitmap.Crop( aCropRect );
                            }
                            aBmpSaveList.push_back( new BSaveStruct( aBitmap, aRect, dwRop, pOut->GetFillStyle () ) );
                        }
                    }
                }
                break;

                case EMR_STRETCHDIBITS :
                {
                    sal_Int32   xDest, yDest, xSrc, ySrc, cxSrc, cySrc, cxDest, cyDest;
                    sal_uInt32  offBmiSrc, cbBmiSrc, offBitsSrc, cbBitsSrc, iUsageSrc, dwRop;
                    sal_uInt32  nStart = pWMF->Tell() - 8;

                    pWMF->SeekRel( 0x10 );
                    pWMF->ReadInt32( xDest )
                         .ReadInt32( yDest )
                         .ReadInt32( xSrc )
                         .ReadInt32( ySrc )
                         .ReadInt32( cxSrc )
                         .ReadInt32( cySrc )
                         .ReadUInt32( offBmiSrc )
                         .ReadUInt32( cbBmiSrc )
                         .ReadUInt32( offBitsSrc )
                         .ReadUInt32( cbBitsSrc )
                         .ReadUInt32( iUsageSrc )
                         .ReadUInt32( dwRop )
                         .ReadInt32( cxDest )
                         .ReadInt32( cyDest );

                    Bitmap      aBitmap;
                    Rectangle   aRect( Point( xDest, yDest ), Size( cxDest, cyDest ) );

                    cxDest = abs( (int)cxDest );        // sj: i37894, size can be negative
                    cyDest = abs( (int)cyDest );        // and also 122889

                    if (  ((SAL_MAX_UINT32 - 14)             < cbBitsSrc)
                       || ((SAL_MAX_UINT32 - 14) - cbBitsSrc < cbBmiSrc )
                       )
                    {
                        bStatus = false;
                    }
                    else
                    {
                        sal_uInt32 nSize = cbBmiSrc + cbBitsSrc + 14;
                        if ( nSize <= ( nEndPos - nStartPos ) )
                        {
                            char* pBuf = new char[ nSize ];
                            SvMemoryStream aTmp( pBuf, nSize, STREAM_READ | STREAM_WRITE );
                            aTmp.ObjectOwnsMemory( true );
                            aTmp.WriteUChar( (sal_uInt8)'B' )
                               .WriteUChar( (sal_uInt8)'M' )
                               .WriteUInt32( (sal_uInt32)cbBitsSrc )
                               .WriteUInt16( (sal_uInt16)0 )
                               .WriteUInt16( (sal_uInt16)0 )
                               .WriteUInt32( (sal_uInt32)cbBmiSrc + 14 );
                            pWMF->Seek( nStart + offBmiSrc );
                            pWMF->Read( pBuf + 14, cbBmiSrc );
                            pWMF->Seek( nStart + offBitsSrc );
                            pWMF->Read( pBuf + 14 + cbBmiSrc, cbBitsSrc );
                            aTmp.Seek( 0 );
                            ReadDIB(aBitmap, aTmp, true);

                            // test if it is sensible to crop
                            if ( ( cxSrc > 0 ) && ( cySrc > 0 ) &&
                                ( xSrc >= 0 ) && ( ySrc >= 0 ) &&
                                    ( xSrc + cxSrc <= aBitmap.GetSizePixel().Width() ) &&
                                        ( ySrc + cySrc <= aBitmap.GetSizePixel().Height() ) )
                            {
                                Rectangle aCropRect( Point( xSrc, ySrc ), Size( cxSrc, cySrc ) );
                                aBitmap.Crop( aCropRect );
                            }
                        aBmpSaveList.push_back( new BSaveStruct( aBitmap, aRect, dwRop, pOut->GetFillStyle () ) );
                        }
                    }
                }
                break;

                case EMR_EXTCREATEFONTINDIRECTW :
                {
                    pWMF->ReadUInt32( nIndex );
                    if ( ( nIndex & ENHMETA_STOCK_OBJECT ) == 0 )
                    {
                        LOGFONTW aLogFont;
                        pWMF->ReadInt32( aLogFont.lfHeight )
                             .ReadInt32( aLogFont.lfWidth )
                             .ReadInt32( aLogFont.lfEscapement )
                             .ReadInt32( aLogFont.lfOrientation )
                             .ReadInt32( aLogFont.lfWeight )
                             .ReadUChar( aLogFont.lfItalic )
                             .ReadUChar( aLogFont.lfUnderline )
                             .ReadUChar( aLogFont.lfStrikeOut )
                             .ReadUChar( aLogFont.lfCharSet )
                             .ReadUChar( aLogFont.lfOutPrecision )
                             .ReadUChar( aLogFont.lfClipPrecision )
                             .ReadUChar( aLogFont.lfQuality )
                             .ReadUChar( aLogFont.lfPitchAndFamily );

                        sal_Unicode lfFaceName[ LF_FACESIZE ];

                        for ( int i = 0; i < LF_FACESIZE; i++ )
                        {
                            sal_uInt16 nChar;
                            pWMF->ReadUInt16( nChar );
                            lfFaceName[ i ] = nChar;
                        }
                        aLogFont.alfFaceName = OUString( lfFaceName );

                        // #i123216# Not used in the test case of #121382# (always identity in XForm), also
                        // no hints in ms docu if FontSize should be scaled with WT. Using with the example
                        // from #i123216# creates errors, so removing.

                        // // #i121382# Need to apply WorldTransform to FontHeight/Width; this should be completely
                        // // changed to basegfx::B2DHomMatrix instead of 'struct XForm', but not now due to time
                        // // constraints and dangers
                        // const XForm& rXF = pOut->GetWorldTransform();
                        // const basegfx::B2DHomMatrix aWT(rXF.eM11, rXF.eM21, rXF.eDx, rXF.eM12, rXF.eM22, rXF.eDy);
                        // const basegfx::B2DVector aTransVec(aWT * basegfx::B2DVector(aLogFont.lfWidth, aLogFont.lfHeight));
                        // aLogFont.lfWidth = aTransVec.getX();
                        // aLogFont.lfHeight = aTransVec.getY();

                        pOut->CreateObject( nIndex, GDI_FONT, new WinMtfFontStyle( aLogFont ) );
                    }
                }
                break;

                case EMR_EXTTEXTOUTA :
                    bFlag = true;
                case EMR_EXTTEXTOUTW :
                {
                    sal_Int32   nLeft, nTop, nRight, nBottom, ptlReferenceX, ptlReferenceY, nGfxMode, nXScale, nYScale;
                    sal_uInt32  nCurPos, nOffString, nOptions, offDx;
                    sal_Int32   nLen;
                    sal_Int32*  pDX = NULL;

                    nCurPos = pWMF->Tell() - 8;

                    pWMF->ReadInt32( nLeft ).ReadInt32( nTop ).ReadInt32( nRight ).ReadInt32( nBottom ).ReadInt32( nGfxMode ).ReadInt32( nXScale ).ReadInt32( nYScale )
                       .ReadInt32( ptlReferenceX ).ReadInt32( ptlReferenceY ).ReadInt32( nLen ).ReadUInt32( nOffString ).ReadUInt32( nOptions );

                    pWMF->SeekRel( 0x10 );
                    pWMF->ReadUInt32( offDx );

                    sal_Int32 nTextLayoutMode = TEXT_LAYOUT_DEFAULT;
                    if ( nOptions & ETO_RTLREADING )
                        nTextLayoutMode = TEXT_LAYOUT_BIDI_RTL | TEXT_LAYOUT_TEXTORIGIN_LEFT;
                    pOut->SetTextLayoutMode( nTextLayoutMode );
                    DBG_ASSERT( ( nOptions & ( ETO_PDY | ETO_GLYPH_INDEX ) ) == 0, "SJ: ETO_PDY || ETO_GLYPH_INDEX in EMF" );

                    Point aPos( ptlReferenceX, ptlReferenceY );
                    if ( nLen && nLen < static_cast<sal_Int32>( SAL_MAX_UINT32 / sizeof(sal_Int32) ) )
                    {
                        if ( offDx && (( nCurPos + offDx + nLen * 4 ) <= nNextPos ) )
                        {
                            pWMF->Seek( nCurPos + offDx );
                            if ( ( nLen * sizeof(sal_uInt32) ) <= ( nEndPos - pWMF->Tell() ) )
                            {
                                pDX = new sal_Int32[ nLen ];
                                sal_Int32 i;
                                for ( i = 0; i < nLen; i++ )
                                    pWMF->ReadInt32( pDX[ i ] );
                            }
                        }
                        pWMF->Seek( nCurPos + nOffString );
                        OUString aText;
                        if ( bFlag )
                        {
                            if ( nLen <= static_cast<sal_Int32>( nEndPos - pWMF->Tell() ) )
                            {
                                boost::scoped_array<sal_Char> pBuf(new sal_Char[ nLen ]);
                                pWMF->Read( pBuf.get(), nLen );
                                aText = OUString( pBuf.get(), (sal_uInt16)nLen, pOut->GetCharSet() );
                                pBuf.reset();

                                if ( aText.getLength() != nLen )
                                {
                                    sal_uInt16 i, j;
                                    sal_Int32* pOldDx = pDX;
                                    pDX = new sal_Int32[ aText.getLength() ];
                                    for ( i = 0, j = 0; i < aText.getLength(); i++ )
                                    {
                                        sal_Unicode cUniChar = aText[i];
                                        OString aCharacter(&cUniChar, 1, pOut->GetCharSet());
                                        pDX[ i ] = 0;
                                        for (sal_Int32 k = 0; ( k < aCharacter.getLength() ) && ( j < nLen ) && ( i < aText.getLength() ); ++k)
                                            pDX[ i ] += pOldDx[ j++ ];
                                    }
                                    delete[] pOldDx;
                                }
                            }
                        }
                        else
                        {
                            if ( ( nLen * sizeof(sal_Unicode) ) <= ( nEndPos - pWMF->Tell() ) )
                            {
                                boost::scoped_array<sal_Unicode> pBuf(new sal_Unicode[ nLen ]);
                                pWMF->Read( pBuf.get(), nLen << 1 );
#ifdef OSL_BIGENDIAN
                                sal_Char nTmp, *pTmp = (sal_Char*)( pBuf.get() + nLen );
                                while ( pTmp-- != (sal_Char*)pBuf.get() )
                                {
                                    nTmp = *pTmp--;
                                    pTmp[ 1 ] = *pTmp;
                                    *pTmp = nTmp;
                                }
#endif
                                aText = OUString(pBuf.get(), nLen);
                            }
                        }
                        pOut->DrawText( aPos, aText, pDX, bRecordPath, nGfxMode );
                    }
                    delete[] pDX;
                }
                break;

                case EMR_POLYBEZIERTO16 :
                    ReadAndDrawPolygon<sal_Int16>(boost::bind(&WinMtfOutput::DrawPolyBezier, _1, _2, _3, _4), true);
                    break;
                case EMR_POLYBEZIER16 :
                    ReadAndDrawPolygon<sal_Int16>(boost::bind(&WinMtfOutput::DrawPolyBezier, _1, _2, _3, _4), false);
                break;

                case EMR_POLYGON16 :
                    ReadAndDrawPolygon<sal_Int16>(boost::bind(&WinMtfOutput::DrawPolygon, _1, _2, _3, _4), false);
                break;

                case EMR_POLYLINETO16 :
                    ReadAndDrawPolygon<sal_Int16>(boost::bind(&WinMtfOutput::DrawPolyLine, _1, _2, _3, _4), true);
                    break;
                case EMR_POLYLINE16 :
                    ReadAndDrawPolygon<sal_Int16>(boost::bind(&WinMtfOutput::DrawPolyLine, _1, _2, _3, _4), false);
                break;

                case EMR_POLYPOLYLINE16 :
                    ReadAndDrawPolyLine<sal_Int16>();
                    break;

                case EMR_POLYPOLYGON16 :
                    ReadAndDrawPolyPolygon<sal_Int16>();
                break;

                case EMR_FILLRGN :
                {
                    sal_uInt32 nLen;
                    PolyPolygon aPolyPoly;
                    pWMF->SeekRel( 0x10 );
                    pWMF->ReadUInt32( nLen ).ReadUInt32( nIndex );

                    if ( ImplReadRegion( aPolyPoly, *pWMF, nRecSize ) )
                    {
                        pOut->Push();
                        pOut->SelectObject( nIndex );
                        pOut->DrawPolyPolygon( aPolyPoly, false );
                        pOut->Pop();
                    }
                }
                break;

                case EMR_CREATEDIBPATTERNBRUSHPT :
                {
                    sal_uInt32  nStart = pWMF->Tell() - 8;
                    Bitmap aBitmap;

                    pWMF->ReadUInt32( nIndex );

                    if ( ( nIndex & ENHMETA_STOCK_OBJECT ) == 0 )
                    {
                        sal_uInt32 usage, offBmi, cbBmi, offBits, cbBits;

                        pWMF->ReadUInt32( usage );
                        pWMF->ReadUInt32( offBmi );
                        pWMF->ReadUInt32( cbBmi );
                        pWMF->ReadUInt32( offBits );
                        pWMF->ReadUInt32( cbBits );

                        if ( (cbBits > (SAL_MAX_UINT32 - 14)) || ((SAL_MAX_UINT32 - 14) - cbBits < cbBmi) )
                           bStatus = false;
                        else if ( offBmi )
                        {
                            sal_uInt32  nSize = cbBmi + cbBits + 14;
                            if ( nSize <= ( nEndPos - nStartPos ) )
                            {
                                char*   pBuf = new char[ nSize ];

                                SvMemoryStream aTmp( pBuf, nSize, STREAM_READ | STREAM_WRITE );
                                aTmp.ObjectOwnsMemory( true );
                                aTmp.WriteUChar( (sal_uInt8)'B' )
                                    .WriteUChar( (sal_uInt8)'M' )
                                    .WriteUInt32( (sal_uInt32)cbBits )
                                    .WriteUInt16( (sal_uInt16)0 )
                                    .WriteUInt16( (sal_uInt16)0 )
                                    .WriteUInt32( (sal_uInt32)cbBmi + 14 );
                                pWMF->Seek( nStart + offBmi );
                                pWMF->Read( pBuf + 14, cbBmi );
                                pWMF->Seek( nStart + offBits );
                                pWMF->Read( pBuf + 14 + cbBmi, cbBits );
                                aTmp.Seek( 0 );
                                ReadDIB(aBitmap, aTmp, true);
                            }
                        }
                    }

                    pOut->CreateObject( nIndex, GDI_BRUSH, new WinMtfFillStyle( aBitmap ) );
                }
                break;

                case EMR_MASKBLT :                  SAL_INFO("vcl.emf", "not implemented '" << "MaskBlt" << "'");                   break;
                case EMR_PLGBLT :                   SAL_INFO("vcl.emf", "not implemented '" << "PlgBlt" << "'");                    break;
                case EMR_SETDIBITSTODEVICE :        SAL_INFO("vcl.emf", "not implemented '" << "SetDIBitsToDevice" << "'");         break;
                case EMR_FRAMERGN :                 SAL_INFO("vcl.emf", "not implemented '" << "FrameRgn" << "'");                  break;
                case EMR_INVERTRGN :                SAL_INFO("vcl.emf", "not implemented '" << "InvertRgn" << "'");                 break;
                case EMR_PAINTRGN :                 SAL_INFO("vcl.emf", "not implemented '" << "PaintRgn" << "'");                  break;
                case EMR_FLATTENPATH :              SAL_INFO("vcl.emf", "not implemented '" << "FlattenPath" << "'");               break;
                case EMR_WIDENPATH :                SAL_INFO("vcl.emf", "not implemented '" << "WidenPath" << "'");                 break;
                case EMR_POLYDRAW :                 SAL_INFO("vcl.emf", "not implemented '" << "Polydraw" << "'");                  break;
                case EMR_SETARCDIRECTION :          SAL_INFO("vcl.emf", "not implemented '" << "SetArcDirection" << "'");           break;
                case EMR_SETPALETTEENTRIES :        SAL_INFO("vcl.emf", "not implemented '" << "SetPaletteEntries" << "'");         break;
                case EMR_RESIZEPALETTE :            SAL_INFO("vcl.emf", "not implemented '" << "ResizePalette" << "'");             break;
                case EMR_EXTFLOODFILL :             SAL_INFO("vcl.emf", "not implemented '" << "ExtFloodFill" << "'");              break;
                case EMR_ANGLEARC :                 SAL_INFO("vcl.emf", "not implemented '" << "AngleArc" << "'");                  break;
                case EMR_SETCOLORADJUSTMENT :       SAL_INFO("vcl.emf", "not implemented '" << "SetColorAdjustment" << "'");        break;
                case EMR_POLYDRAW16 :               SAL_INFO("vcl.emf", "not implemented '" << "PolyDraw16" << "'");                break;
                case EMR_POLYTEXTOUTA :             SAL_INFO("vcl.emf", "not implemented '" << "PolyTextOutA" << "'");              break;
                case EMR_POLYTEXTOUTW :             SAL_INFO("vcl.emf", "not implemented '" << "PolyTextOutW" << "'");              break;
                case EMR_CREATECOLORSPACE :         SAL_INFO("vcl.emf", "not implemented '" << "CreateColorSpace" << "'");          break;
                case EMR_SETCOLORSPACE :            SAL_INFO("vcl.emf", "not implemented '" << "SetColorSpace" << "'");             break;
                case EMR_DELETECOLORSPACE :         SAL_INFO("vcl.emf", "not implemented '" << "DeleteColorSpace" << "'");          break;
                case EMR_GLSRECORD :                SAL_INFO("vcl.emf", "not implemented '" << "GlsRecord" << "'");                 break;
                case EMR_GLSBOUNDEDRECORD :         SAL_INFO("vcl.emf", "not implemented '" << "GlsBoundRecord" << "'");            break;
                case EMR_PIXELFORMAT :              SAL_INFO("vcl.emf", "not implemented '" << "PixelFormat" << "'");               break;
                case EMR_DRAWESCAPE :               SAL_INFO("vcl.emf", "not implemented '" << "DrawEscape" << "'");                break;
                case EMR_EXTESCAPE :                SAL_INFO("vcl.emf", "not implemented '" << "ExtEscape" << "'");                 break;
                case EMR_STARTDOC :                 SAL_INFO("vcl.emf", "not implemented '" << "StartDoc" << "'");                  break;
                case EMR_SMALLTEXTOUT :             SAL_INFO("vcl.emf", "not implemented '" << "SmallTextOut" << "'");              break;
                case EMR_FORCEUFIMAPPING :          SAL_INFO("vcl.emf", "not implemented '" << "ForceUFIMapping" << "'");           break;
                case EMR_NAMEDESCAPE :              SAL_INFO("vcl.emf", "not implemented '" << "NamedEscape" << "'");               break;
                case EMR_COLORCORRECTPALETTE :      SAL_INFO("vcl.emf", "not implemented '" << "ColorCorrectPalette" << "'");       break;
                case EMR_SETICMPROFILEA :           SAL_INFO("vcl.emf", "not implemented '" << "SetICMProfileA" << "'");            break;
                case EMR_SETICMPROFILEW :           SAL_INFO("vcl.emf", "not implemented '" << "SetICMProfileW" << "'");            break;
                case EMR_TRANSPARENTBLT :           SAL_INFO("vcl.emf", "not implemented '" << "TransparenBlt" << "'");             break;
                case EMR_TRANSPARENTDIB :           SAL_INFO("vcl.emf", "not implemented '" << "TransparenDib" << "'");             break;
                case EMR_GRADIENTFILL :             SAL_INFO("vcl.emf", "not implemented '" << "GradientFill" << "'");              break;
                case EMR_SETLINKEDUFIS :            SAL_INFO("vcl.emf", "not implemented '" << "SetLinkedUFIS" << "'");             break;

                case EMR_SETMAPPERFLAGS :           SAL_INFO("vcl.emf", "not implemented '" << "SetMapperFlags" << "'");            break;
                case EMR_SETICMMODE :               SAL_INFO("vcl.emf", "not implemented '" << "SetICMMode" << "'");                break;
                case EMR_CREATEMONOBRUSH :          SAL_INFO("vcl.emf", "not implemented '" << "CreateMonoBrush" << "'");           break;
                case EMR_SETBRUSHORGEX :            SAL_INFO("vcl.emf", "not implemented '" << "SetBrushOrgEx" << "'");             break;
                case EMR_SETMETARGN :               SAL_INFO("vcl.emf", "not implemented '" << "SetMetArgn" << "'");                break;
                case EMR_SETMITERLIMIT :            SAL_INFO("vcl.emf", "not implemented '" << "SetMiterLimit" << "'");             break;
                case EMR_EXCLUDECLIPRECT :          SAL_INFO("vcl.emf", "not implemented '" << "ExcludeClipRect" << "'");           break;
                case EMR_REALIZEPALETTE :           SAL_INFO("vcl.emf", "not implemented '" << "RealizePalette" << "'");            break;
                case EMR_SELECTPALETTE :            SAL_INFO("vcl.emf", "not implemented '" << "SelectPalette" << "'");             break;
                case EMR_CREATEPALETTE :            SAL_INFO("vcl.emf", "not implemented '" << "CreatePalette" << "'");             break;
                case EMR_ALPHADIBBLEND :            SAL_INFO("vcl.emf", "not implemented '" << "AlphaDibBlend" << "'");             break;
                case EMR_SETTEXTJUSTIFICATION :     SAL_INFO("vcl.emf", "not implemented '" << "SetTextJustification" << "'");      break;

                case EMR_GDICOMMENT :
                case EMR_HEADER :               // has already been read at ReadHeader()
                break;

                default :                           SAL_INFO("vcl.emf", "Unknown Meta Action");                                     break;
            }
        }
        pWMF->Seek( nNextPos );
    }
    if( !aBmpSaveList.empty() )
        pOut->ResolveBitmapActions( aBmpSaveList );

    if ( bStatus )
        pWMF->Seek(nEndPos);

    return bStatus;
};


bool EnhWMFReader::ReadHeader()
{
    sal_uInt32      nType, nSignature, nVersion;
    sal_uInt32      nHeaderSize, nPalEntries;
    sal_Int32       nLeft, nTop, nRight, nBottom;

    // Spare me the METAFILEHEADER here
    // Reading the METAHEADER - EMR_HEADER ([MS-EMF] section 2.3.4.2 EMR_HEADER Record Types)
    pWMF->ReadUInt32( nType ).ReadUInt32( nHeaderSize );
    if ( nType != 1 ) { // per [MS-EMF] 2.3.4.2 EMF Header Record Types, type MUST be 0x00000001
        SAL_WARN("vcl.emf", "EMF header type is not set to 0x00000001 - possibly corrupted file?");
        return false;
    }

    // Start reading the EMR_HEADER Header object

    // bound size (RectL object, see [MS-WMF] section 2.2.2.19)
    Rectangle rclBounds;    // rectangle in logical units
    pWMF->ReadInt32( nLeft ).ReadInt32( nTop ).ReadInt32( nRight ).ReadInt32( nBottom );
    rclBounds.Left() = nLeft;
    rclBounds.Top() = nTop;
    rclBounds.Right() = nRight;
    rclBounds.Bottom() = nBottom;

    // picture frame size (RectL object)
    Rectangle rclFrame;     // rectangle in device units 1/100th mm
    pWMF->ReadInt32( nLeft ).ReadInt32( nTop ).ReadInt32( nRight ).ReadInt32( nBottom );
    rclFrame.Left() = nLeft;
    rclFrame.Top() = nTop;
    rclFrame.Right() = nRight;
    rclFrame.Bottom() = nBottom;

    pWMF->ReadUInt32( nSignature );

    // nSignature MUST be the ASCII characters "FME", see [WS-EMF] 2.2.9 Header Object
    // and 2.1.14 FormatSignature Enumeration
    if ( nSignature != 0x464d4520 ) {
        SAL_WARN("vcl.emf", "EMF\t\tSignature is not 0x464d4520 (\"FME\") - possibly corrupted file?");
        return false;
    }

    pWMF->ReadUInt32( nVersion );  // according to [WS-EMF] 2.2.9, this SHOULD be 0x0001000, however
                        // Microsoft note that not even Windows checks this...
    if ( nVersion != 0x00010000 ) {
        SAL_WARN("vcl.emf", "EMF\t\tThis really should be 0x00010000, though not absolutely essential...");
    }

    pWMF->ReadUInt32( nEndPos );                                   // size of metafile
    nEndPos += nStartPos;

    sal_uInt32 nStrmPos = pWMF->Tell();                 // checking if nEndPos is valid
    pWMF->Seek( STREAM_SEEK_TO_END );
    sal_uInt32 nActualFileSize = pWMF->Tell();

    if ( nActualFileSize < nEndPos ) {
        SAL_WARN("vcl.emf", "EMF\t\tEMF Header object records number of bytes as " << nEndPos
                            << ", however the file size is actually " << nActualFileSize
                            << " bytes. Possible file corruption?");
        nEndPos = nActualFileSize;
    }
    pWMF->Seek( nStrmPos );

    pWMF->ReadInt32( nRecordCount );

    if ( !nRecordCount ) {
        SAL_WARN("vcl.emf", "EMF\t\tEMF Header object shows record counter as 0! This shouldn't "
                            "be possible... indicator of possible file corruption?");
        return false;
    }

    // the number of "handles", or graphics objects used in the metafile

    sal_uInt16 nHandlesCount;
    pWMF->ReadUInt16( nHandlesCount );

    // the next 2 bytes are reserved, but according to [MS-EMF] section 2.2.9
    // it MUST be 0x000 and MUST be ignored... the thing is, having such a specific
    // value is actually pretty useful in checking if there is possible corruption

    sal_uInt16 nReserved;
    pWMF->ReadUInt16( nReserved );

    if ( nReserved != 0x0000 ) {
        SAL_WARN("vcl.emf", "EMF\t\tEMF Header object's reserved field is NOT 0x0000... possible "
                            "corruption?");
    }

    // The next 4 bytes specifies the number of characters in the metafile description.
    // The 4 bytes after that specific the offset from this record that contains the
    // metafile description... zero means no description string.
    // For now, we ignore it.

    pWMF->SeekRel( 0x8 );

    sal_Int32 nPixX, nPixY, nMillX, nMillY;
    pWMF->ReadUInt32( nPalEntries ).ReadInt32( nPixX ).ReadInt32( nPixY ).ReadInt32( nMillX ).ReadInt32( nMillY );

    pOut->SetrclFrame( rclFrame );
    pOut->SetrclBounds( rclBounds );
    pOut->SetRefPix( Size( nPixX, nPixY ) );
    pOut->SetRefMill( Size( nMillX, nMillY ) );

    pWMF->Seek( nStartPos + nHeaderSize );
    return true;
}


Rectangle  EnhWMFReader::ReadRectangle( sal_Int32 x1, sal_Int32 y1, sal_Int32 x2, sal_Int32 y2 )
{
    Point aTL ( Point( x1, y1 ) );
    Point aBR( Point( --x2, --y2 ) );
    return Rectangle( aTL, aBR );
}

EnhWMFReader::~EnhWMFReader()
{

};

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