summaryrefslogtreecommitdiff
path: root/vcl/win/gdi/salfont.cxx
blob: 10ec674c9f07a15b96d9ddd3d66218e04d964391 (plain)
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/* -*- 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 <sal/types.h>
#include <config_folders.h>

#include <algorithm>
#include <map>
#include <set>
#include <string.h>
#include <svsys.h>
#include <vector>

#include <basegfx/matrix/b2dhommatrixtools.hxx>
#include <basegfx/polygon/b2dpolygon.hxx>
#include <i18nlangtag/mslangid.hxx>
#include <osl/file.hxx>
#include <osl/process.h>
#include <rtl/bootstrap.hxx>
#include <tools/helpers.hxx>
#include <tools/stream.hxx>
#include <unotools/fontcfg.hxx>
#include <vcl/settings.hxx>
#include <vcl/sysdata.hxx>
#include <vcl/metric.hxx>
#include <vcl/fontcharmap.hxx>
#include <vcl/opengl/OpenGLWrapper.hxx>

#include "fontsubset.hxx"
#include "outdev.h"
#include "PhysicalFontCollection.hxx"
#include "PhysicalFontFace.hxx"
#include "sft.hxx"
#include "win/saldata.hxx"
#include "win/salgdi.h"
#include "impfontcharmap.hxx"
#include "impfontmetricdata.hxx"

using namespace vcl;

static const int MAXFONTHEIGHT = 2048;


inline FIXED FixedFromDouble( double d )
{
    const long l = (long) ( d * 65536. );
    return *reinterpret_cast<FIXED const *>(&l);
}

inline int IntTimes256FromFixed(FIXED f)
{
    int nFixedTimes256 = (f.value << 8) + ((f.fract+0x80) >> 8);
    return nFixedTimes256;
}

// raw font data with a scoped lifetime
class RawFontData
{
public:
    explicit    RawFontData( HDC, DWORD nTableTag=0 );
                ~RawFontData() { delete[] mpRawBytes; }
    const unsigned char*    get() const { return mpRawBytes; }
    const unsigned char*    steal() { unsigned char* p = mpRawBytes; mpRawBytes = nullptr; return p; }
    int               size() const { return mnByteCount; }

private:
    unsigned char*  mpRawBytes;
    unsigned        mnByteCount;
};

RawFontData::RawFontData( HDC hDC, DWORD nTableTag )
:   mpRawBytes( nullptr )
,   mnByteCount( 0 )
{
    // get required size in bytes
    mnByteCount = ::GetFontData( hDC, nTableTag, 0, nullptr, 0 );
    if( mnByteCount == GDI_ERROR )
        return;
    else if( !mnByteCount )
        return;

    // allocate the array
    mpRawBytes = new unsigned char[ mnByteCount ];

    // get raw data in chunks small enough for GetFontData()
    unsigned nRawDataOfs = 0;
    DWORD nMaxChunkSize = 0x100000;
    for(;;)
    {
        // calculate remaining raw data to get
        DWORD nFDGet = mnByteCount - nRawDataOfs;
        if( nFDGet <= 0 )
            break;
        // #i56745# limit GetFontData requests
        if( nFDGet > nMaxChunkSize )
            nFDGet = nMaxChunkSize;
        const DWORD nFDGot = ::GetFontData( hDC, nTableTag, nRawDataOfs,
            mpRawBytes + nRawDataOfs, nFDGet );
        if( !nFDGot )
            break;
        else if( nFDGot != GDI_ERROR )
            nRawDataOfs += nFDGot;
        else
        {
            // was the chunk too big? reduce it
            nMaxChunkSize /= 2;
            if( nMaxChunkSize < 0x10000 )
                break;
        }
    }

    // cleanup if the raw data is incomplete
    if( nRawDataOfs != mnByteCount )
    {
        delete[] mpRawBytes;
        mpRawBytes = nullptr;
    }
}

// platform specific font substitution hooks for glyph fallback enhancement

class WinPreMatchFontSubstititution
:    public ImplPreMatchFontSubstitution
{
public:
    bool FindFontSubstitute(FontSelectPattern&) const override;
};

class WinGlyphFallbackSubstititution
:    public ImplGlyphFallbackFontSubstitution
{
public:
    explicit WinGlyphFallbackSubstititution()
    {
        mhDC = GetDC(nullptr);
    };

    ~WinGlyphFallbackSubstititution() override
    {
        ReleaseDC(nullptr, mhDC);
    };

    bool FindFontSubstitute( FontSelectPattern&, OUString& rMissingChars ) const override;
private:
    HDC mhDC;
    bool HasMissingChars(PhysicalFontFace*, OUString& rMissingChars) const;
};

// does a font face hold the given missing characters?
bool WinGlyphFallbackSubstititution::HasMissingChars(PhysicalFontFace* pFace, OUString& rMissingChars) const
{
    WinFontFace* pWinFont = static_cast< WinFontFace* >(pFace);
    FontCharMapRef xFontCharMap = pWinFont->GetFontCharMap();
    if( !xFontCharMap.Is() )
    {
        // construct a Size structure as the parameter of constructor of class FontSelectPattern
        const Size aSize( pFace->GetWidth(), pFace->GetHeight() );
        // create a FontSelectPattern object for getting s LOGFONT
        const FontSelectPattern aFSD( *pFace, aSize, (float)aSize.Height(), 0, false );
        // construct log font
        LOGFONTW aLogFont;
        ImplGetLogFontFromFontSelect( mhDC, &aFSD, aLogFont, true );

        // create HFONT from log font
        HFONT hNewFont = ::CreateFontIndirectW( &aLogFont );
        // select the new font into device
        HFONT hOldFont = ::SelectFont( mhDC, hNewFont );

        // read CMAP table to update their xFontCharMap
        pWinFont->UpdateFromHDC( mhDC );

        // cleanup temporary font
        ::SelectFont( mhDC, hOldFont );
        ::DeleteFont( hNewFont );

        // get the new charmap
        xFontCharMap = pWinFont->GetFontCharMap();
    }

    // avoid fonts with unknown CMAP subtables for glyph fallback
    if( !xFontCharMap.Is() || xFontCharMap->IsDefaultMap() )
        return false;

    int nMatchCount = 0;
    std::vector<sal_UCS4> rRemainingCodes;
    const sal_Int32 nStrLen = rMissingChars.getLength();
    sal_Int32 nStrIdx = 0;
    while (nStrIdx < nStrLen)
    {
        const sal_UCS4 uChar = rMissingChars.iterateCodePoints( &nStrIdx );
        if (xFontCharMap->HasChar(uChar))
            nMatchCount++;
        else
            rRemainingCodes.push_back(uChar);
    }

    xFontCharMap = nullptr;

    if (nMatchCount > 0)
        rMissingChars = OUString(rRemainingCodes.data(), rRemainingCodes.size());

    return nMatchCount > 0;
}

namespace
{
    //used by 2-level font fallback
    PhysicalFontFamily* findDevFontListByLocale(const PhysicalFontCollection &rFontCollection,
                                                const LanguageTag& rLanguageTag )
    {
        // get the default font for a specified locale
        const utl::DefaultFontConfiguration& rDefaults = utl::DefaultFontConfiguration::get();
        const OUString aDefault = rDefaults.getUserInterfaceFont(rLanguageTag);
        return rFontCollection.FindFontFamilyByTokenNames(aDefault);
    }
}

// These are Win 3.1 bitmap fonts using "FON" font format
// which is not supported with "Direct Write" so let's substitute them
// with a font that is supported and always available.
// Based on:
// https://dxr.mozilla.org/mozilla-esr10/source/gfx/thebes/gfxDWriteFontList.cpp#1057
static const std::map<OUString, OUString> aBitmapFontSubs =
{
    { "MS Sans Serif", "Microsoft Sans Serif" },
    { "MS Serif",      "Times New Roman" },
    { "Small Fonts",   "Arial" },
    { "Courier",       "Courier New" },
    { "Roman",         "Times New Roman" },
    { "Script",        "Mistral" }
};

// TODO: See if Windows have API that we can use here to improve font fallback.
bool WinPreMatchFontSubstititution::FindFontSubstitute(FontSelectPattern& rFontSelData) const
{
    if (rFontSelData.IsSymbolFont() || IsStarSymbol(rFontSelData.maSearchName))
        return false;

    for (const auto& aSub : aBitmapFontSubs)
    {
        if (rFontSelData.maSearchName == GetEnglishSearchFontName(aSub.first))
        {
            rFontSelData.maSearchName = aSub.second;
            return true;
        }
    }

    return false;
}

// find a fallback font for missing characters
// TODO: should stylistic matches be searched and preferred?
bool WinGlyphFallbackSubstititution::FindFontSubstitute( FontSelectPattern& rFontSelData, OUString& rMissingChars ) const
{
    // guess a locale matching to the missing chars
    LanguageType eLang = rFontSelData.meLanguage;
    LanguageTag aLanguageTag( eLang);

    // fall back to default UI locale if the font language is inconclusive
    if( eLang == LANGUAGE_DONTKNOW )
        aLanguageTag = Application::GetSettings().GetUILanguageTag();

    // first level fallback:
    // try use the locale specific default fonts defined in VCL.xcu
    const PhysicalFontCollection* pFontCollection = ImplGetSVData()->maGDIData.mpScreenFontList;
    PhysicalFontFamily* pFontFamily = findDevFontListByLocale(*pFontCollection, aLanguageTag);
    if( pFontFamily )
    {
        PhysicalFontFace* pFace = pFontFamily->FindBestFontFace( rFontSelData );
        if( HasMissingChars( pFace, rMissingChars ) )
        {
            rFontSelData.maSearchName = pFontFamily->GetSearchName();
            return true;
        }
    }

    // are the missing characters symbols?
    pFontFamily = pFontCollection->FindFontFamilyByAttributes( ImplFontAttrs::Symbol,
                                                     rFontSelData.GetWeight(),
                                                     rFontSelData.GetWidthType(),
                                                     rFontSelData.GetItalic(),
                                                     rFontSelData.maSearchName );
    if( pFontFamily )
    {
        PhysicalFontFace* pFace = pFontFamily->FindBestFontFace( rFontSelData );
        if( HasMissingChars( pFace, rMissingChars ) )
        {
            rFontSelData.maSearchName = pFontFamily->GetSearchName();
            return true;
        }
    }

    // last level fallback, check each font type face one by one
    ImplDeviceFontList* pTestFontList = pFontCollection->GetDeviceFontList();
    // limit the count of fonts to be checked to prevent hangs
    static const int MAX_GFBFONT_COUNT = 600;
    int nTestFontCount = pTestFontList->Count();
    if( nTestFontCount > MAX_GFBFONT_COUNT )
        nTestFontCount = MAX_GFBFONT_COUNT;

    bool bFound = false;
    for( int i = 0; i < nTestFontCount; ++i )
    {
        PhysicalFontFace* pFace = pTestFontList->Get( i );
        bFound = HasMissingChars( pFace, rMissingChars );
        if( !bFound )
            continue;
        rFontSelData.maSearchName = pFace->GetFamilyName();
        break;
    }

    delete pTestFontList;

    return bFound;
}

struct ImplEnumInfo
{
    HDC                 mhDC;
    PhysicalFontCollection* mpList;
    OUString*           mpName;
    LOGFONTA*           mpLogFontA;
    LOGFONTW*           mpLogFontW;
    UINT                mnPreferredCharSet;
    bool                mbPrinter;
    int                 mnFontCount;
};

static rtl_TextEncoding ImplCharSetToSal( BYTE nCharSet )
{
    rtl_TextEncoding eTextEncoding;

    if ( nCharSet == OEM_CHARSET )
    {
        UINT nCP = (sal_uInt16)GetOEMCP();
        switch ( nCP )
        {
            // It is unclear why these two (undefined?) code page numbers are
            // handled specially here:
            case 1004:  eTextEncoding = RTL_TEXTENCODING_MS_1252; break;
            case 65400: eTextEncoding = RTL_TEXTENCODING_SYMBOL; break;
            default:
                eTextEncoding = rtl_getTextEncodingFromWindowsCodePage(nCP);
                break;
        }
    }
    else
    {
        if( nCharSet )
            eTextEncoding = rtl_getTextEncodingFromWindowsCharset( nCharSet );
        else
            eTextEncoding = RTL_TEXTENCODING_UNICODE;
    }

    return eTextEncoding;
}

static FontFamily ImplFamilyToSal( BYTE nFamily )
{
    switch ( nFamily & 0xF0 )
    {
        case FF_DECORATIVE:
            return FAMILY_DECORATIVE;

        case FF_MODERN:
            return FAMILY_MODERN;

        case FF_ROMAN:
            return FAMILY_ROMAN;

        case FF_SCRIPT:
            return FAMILY_SCRIPT;

        case FF_SWISS:
            return FAMILY_SWISS;

        default:
            break;
    }

    return FAMILY_DONTKNOW;
}

static BYTE ImplFamilyToWin( FontFamily eFamily )
{
    switch ( eFamily )
    {
        case FAMILY_DECORATIVE:
            return FF_DECORATIVE;

        case FAMILY_MODERN:
            return FF_MODERN;

        case FAMILY_ROMAN:
            return FF_ROMAN;

        case FAMILY_SCRIPT:
            return FF_SCRIPT;

        case FAMILY_SWISS:
            return FF_SWISS;

        case FAMILY_SYSTEM:
            return FF_SWISS;

        default:
            break;
    }

    return FF_DONTCARE;
}

static FontWeight ImplWeightToSal( int nWeight )
{
    if ( nWeight <= FW_THIN )
        return WEIGHT_THIN;
    else if ( nWeight <= FW_ULTRALIGHT )
        return WEIGHT_ULTRALIGHT;
    else if ( nWeight <= FW_LIGHT )
        return WEIGHT_LIGHT;
    else if ( nWeight < FW_MEDIUM )
        return WEIGHT_NORMAL;
    else if ( nWeight == FW_MEDIUM )
        return WEIGHT_MEDIUM;
    else if ( nWeight <= FW_SEMIBOLD )
        return WEIGHT_SEMIBOLD;
    else if ( nWeight <= FW_BOLD )
        return WEIGHT_BOLD;
    else if ( nWeight <= FW_ULTRABOLD )
        return WEIGHT_ULTRABOLD;
    else
        return WEIGHT_BLACK;
}

static int ImplWeightToWin( FontWeight eWeight )
{
    switch ( eWeight )
    {
        case WEIGHT_THIN:
            return FW_THIN;

        case WEIGHT_ULTRALIGHT:
            return FW_ULTRALIGHT;

        case WEIGHT_LIGHT:
            return FW_LIGHT;

        case WEIGHT_SEMILIGHT:
        case WEIGHT_NORMAL:
            return FW_NORMAL;

        case WEIGHT_MEDIUM:
            return FW_MEDIUM;

        case WEIGHT_SEMIBOLD:
            return FW_SEMIBOLD;

        case WEIGHT_BOLD:
            return FW_BOLD;

        case WEIGHT_ULTRABOLD:
            return FW_ULTRABOLD;

        case WEIGHT_BLACK:
            return FW_BLACK;

        default:
            break;
    }

    return 0;
}

inline FontPitch ImplLogPitchToSal( BYTE nPitch )
{
    if ( nPitch & FIXED_PITCH )
        return PITCH_FIXED;
    else
        return PITCH_VARIABLE;
}

inline FontPitch ImplMetricPitchToSal( BYTE nPitch )
{
    // Grrrr! See NT help
    if ( !(nPitch & TMPF_FIXED_PITCH) )
        return PITCH_FIXED;
    else
        return PITCH_VARIABLE;
}

inline BYTE ImplPitchToWin( FontPitch ePitch )
{
    if ( ePitch == PITCH_FIXED )
        return FIXED_PITCH;
    else if ( ePitch == PITCH_VARIABLE )
        return VARIABLE_PITCH;
    else
        return DEFAULT_PITCH;
}

static FontAttributes WinFont2DevFontAttributes( const ENUMLOGFONTEXW& rEnumFont,
    const NEWTEXTMETRICW& rMetric, DWORD nFontType )
{
    FontAttributes aDFA;

    const LOGFONTW rLogFont = rEnumFont.elfLogFont;

    // get font face attributes
    aDFA.SetFamilyType(ImplFamilyToSal( rLogFont.lfPitchAndFamily ));
    aDFA.SetWidthType(WIDTH_DONTKNOW);
    aDFA.SetWeight(ImplWeightToSal( rLogFont.lfWeight ));
    aDFA.SetItalic((rLogFont.lfItalic) ? ITALIC_NORMAL : ITALIC_NONE);
    aDFA.SetPitch(ImplLogPitchToSal( rLogFont.lfPitchAndFamily ));
    aDFA.SetSymbolFlag(rLogFont.lfCharSet == SYMBOL_CHARSET);

    // get the font face name
    aDFA.SetFamilyName(OUString(reinterpret_cast<const sal_Unicode*>(rLogFont.lfFaceName)));

    // use the face's style name only if it looks reasonable
    const wchar_t* pStyleName = rEnumFont.elfStyle;
    const wchar_t* pEnd = pStyleName + sizeof(rEnumFont.elfStyle)/sizeof(*rEnumFont.elfStyle);
    const wchar_t* p = pStyleName;
    for(; *p && (p < pEnd); ++p )
        if( *p < 0x0020 )
            break;
    if( p < pEnd )
        aDFA.SetStyleName(OUString(reinterpret_cast<const sal_Unicode*>(pStyleName)));

    // get device specific font attributes
    aDFA.SetOrientationFlag( ((nFontType & RASTER_FONTTYPE) == 0) );
    aDFA.SetBuiltInFontFlag( ((rMetric.tmPitchAndFamily & TMPF_DEVICE) != 0) );

    aDFA.SetEmbeddableFlag( false );
    aDFA.SetSubsettableFlag( false );
    if( 0 != (rMetric.ntmFlags & (NTM_TT_OPENTYPE | NTM_PS_OPENTYPE))
     || 0 != (rMetric.tmPitchAndFamily & TMPF_TRUETYPE))
        aDFA.SetSubsettableFlag( true );
    else if( 0 != (rMetric.ntmFlags & NTM_TYPE1) ) // TODO: implement subsetting for type1 too
        aDFA.SetEmbeddableFlag( true );

    // heuristics for font quality
    // -   standard-type1 > opentypeTT > truetype > non-standard-type1 > raster
    // -   subsetting > embedding > none
    aDFA.SetQuality( 0 );
    if( rMetric.tmPitchAndFamily & TMPF_TRUETYPE )
        aDFA.IncreaseQualityBy( 50 );
    if( 0 != (rMetric.ntmFlags & (NTM_TT_OPENTYPE | NTM_PS_OPENTYPE)) )
        aDFA.IncreaseQualityBy( 10 );
    if( aDFA.CanSubset() )
        aDFA.IncreaseQualityBy( 200 );
    else if( aDFA.CanEmbed() )
        aDFA.IncreaseQualityBy( 100 );

    // #i38665# prefer Type1 versions of the standard postscript fonts
    if( aDFA.CanEmbed() )
    {
        if( aDFA.GetFamilyName() == "AvantGarde"
        ||  aDFA.GetFamilyName() == "Bookman"
        ||  aDFA.GetFamilyName() == "Courier"
        ||  aDFA.GetFamilyName() == "Helvetica"
        ||  aDFA.GetFamilyName() == "NewCenturySchlbk"
        ||  aDFA.GetFamilyName() == "Palatino"
        ||  aDFA.GetFamilyName() == "Symbol"
        ||  aDFA.GetFamilyName() == "Times"
        ||  aDFA.GetFamilyName() == "ZapfChancery"
        ||  aDFA.GetFamilyName() == "ZapfDingbats" )
            aDFA.IncreaseQualityBy( 500 );
    }

    // TODO: add alias names
    return aDFA;
}


static WinFontFace* ImplLogMetricToDevFontDataW( const ENUMLOGFONTEXW* pLogFont,
                                         const NEWTEXTMETRICW* pMetric,
                                         DWORD nFontType )
{
    int nHeight = 0;
    if ( nFontType & RASTER_FONTTYPE )
        nHeight = pMetric->tmHeight - pMetric->tmInternalLeading;

    WinFontFace* pData = new WinFontFace(
        WinFont2DevFontAttributes(*pLogFont, *pMetric, nFontType),
        nHeight,
        pLogFont->elfLogFont.lfCharSet,
        pMetric->tmPitchAndFamily );

    return pData;
}

void ImplSalLogFontToFontW( HDC hDC, const LOGFONTW& rLogFont, Font& rFont )
{
    OUString aFontName( reinterpret_cast<const sal_Unicode*>(rLogFont.lfFaceName) );
    if (!aFontName.isEmpty())
    {
        rFont.SetFamilyName( aFontName );
        rFont.SetCharSet( ImplCharSetToSal( rLogFont.lfCharSet ) );
        rFont.SetFamily( ImplFamilyToSal( rLogFont.lfPitchAndFamily ) );
        rFont.SetPitch( ImplLogPitchToSal( rLogFont.lfPitchAndFamily ) );
        rFont.SetWeight( ImplWeightToSal( rLogFont.lfWeight ) );

        long nFontHeight = rLogFont.lfHeight;
        if ( nFontHeight < 0 )
            nFontHeight = -nFontHeight;
        long nDPIY = GetDeviceCaps( hDC, LOGPIXELSY );
        if( !nDPIY )
            nDPIY = 600;
        nFontHeight *= 72;
        nFontHeight += nDPIY/2;
        nFontHeight /= nDPIY;
        rFont.SetFontSize( Size( 0, nFontHeight ) );
        rFont.SetOrientation( (short)rLogFont.lfEscapement );
        if ( rLogFont.lfItalic )
            rFont.SetItalic( ITALIC_NORMAL );
        else
            rFont.SetItalic( ITALIC_NONE );
        if ( rLogFont.lfUnderline )
            rFont.SetUnderline( LINESTYLE_SINGLE );
        else
            rFont.SetUnderline( LINESTYLE_NONE );
        if ( rLogFont.lfStrikeOut )
            rFont.SetStrikeout( STRIKEOUT_SINGLE );
        else
            rFont.SetStrikeout( STRIKEOUT_NONE );
    }
}

#if ENABLE_GRAPHITE

#ifdef DEBUG
static FILE * grLogFile = NULL;
static FILE * grLog()
{
    std::string logFileName(getenv("TEMP"));
    logFileName.append("\\grface.log");
    if (grLogFile == NULL) grLogFile = fopen(logFileName.c_str(),"w");
    else fflush(grLogFile);
    return grLogFile;
}
#endif

const void * getGrTable(const void* appFaceHandle, unsigned int name, size_t *len)
{
    const GrFontData * fontTables = static_cast<const GrFontData*>(appFaceHandle);
    return fontTables->getTable(name, len);
}

GrFontData::GrFontData(HDC hDC) :
    mhDC(hDC), mpFace(nullptr), mnRefCount(1)
{
    // The face options ensure that the tables are all read at construction
    // time so there is no need to keep the hDC uptodate
    static const char* pGraphiteCacheStr = getenv( "SAL_GRAPHITE_CACHE_SIZE" );
    unsigned long graphiteSegCacheSize = pGraphiteCacheStr ? (atoi(pGraphiteCacheStr)) : 0;
    if (graphiteSegCacheSize > 500)
        mpFace = gr_make_face_with_seg_cache(this, getGrTable,
            graphiteSegCacheSize, gr_face_preloadGlyphs | gr_face_cacheCmap);
    else
        mpFace = gr_make_face(this, getGrTable,
            gr_face_preloadGlyphs | gr_face_cacheCmap);
#ifdef DEBUG
        fprintf(grLog(), "gr_make_face %lx for WinFontData %lx\n", (unsigned long)mpFace,
            (unsigned long)this);
#endif
    mhDC = nullptr;
}

GrFontData::~GrFontData()
{
    if (mpFace)
    {
#ifdef DEBUG
        fprintf(grLog(), "gr_face_destroy %lx for WinFontData %lx\n", (unsigned long)mpFace,
            (unsigned long)this);
#endif
        gr_face_destroy(mpFace);
        mpFace = nullptr;
    }
    std::vector<RawFontData*>::iterator i = mvData.begin();
    while (i != mvData.end())
    {
        delete *i;
        ++i;
    }
    mvData.clear();
}

const void * GrFontData::getTable(unsigned int name, size_t *len) const
{
    assert(mhDC);
    // swap the bytes
    union TtfTag {
        unsigned int i;
        unsigned char c[4];
    };
    TtfTag littleEndianTag;
    littleEndianTag.i = name;
    TtfTag bigEndianTag;
    bigEndianTag.c[0] = littleEndianTag.c[3];
    bigEndianTag.c[1] = littleEndianTag.c[2];
    bigEndianTag.c[2] = littleEndianTag.c[1];
    bigEndianTag.c[3] = littleEndianTag.c[0];
    mvData.push_back(new RawFontData(mhDC, bigEndianTag.i));
    const RawFontData * data = mvData[mvData.size()-1];
    if (data && (data->size() > 0))
    {
        if (len)
            *len = data->size();
        return static_cast<const void *>(data->get());
    }
    else
    {
        if (len)
            *len = 0;
        return nullptr;
    }
}
#endif

WinFontFace::WinFontFace( const FontAttributes& rDFS,
    int nHeight, BYTE eWinCharSet, BYTE nPitchAndFamily )
:   PhysicalFontFace( rDFS ),
    mnId( 0 ),
    mbHasCJKSupport( false ),
#if ENABLE_GRAPHITE
    mpGraphiteData(nullptr),
    mbHasGraphiteSupport( false ),
#endif
    mbHasArabicSupport ( false ),
    mbFontCapabilitiesRead( false ),
    mxUnicodeMap( nullptr ),
    mpEncodingVector( nullptr ),
    meWinCharSet( eWinCharSet ),
    mnPitchAndFamily( nPitchAndFamily ),
    mbAliasSymbolsHigh( false ),
    mbAliasSymbolsLow( false ),
    mbGsubRead( false ),
    mpHbFont( nullptr )
{
    SetBitmapSize( 0, nHeight );

    if( eWinCharSet == SYMBOL_CHARSET )
    {
        if( (nPitchAndFamily & TMPF_TRUETYPE) != 0 )
        {
            // truetype fonts need their symbols as U+F0xx
            mbAliasSymbolsHigh = true;
        }
        else if( (nPitchAndFamily & (TMPF_VECTOR|TMPF_DEVICE))
                                 == (TMPF_VECTOR|TMPF_DEVICE) )
        {
            // scalable device fonts (e.g. builtin printer fonts)
            // need their symbols as U+00xx
            mbAliasSymbolsLow  = true;
        }
        else if( (nPitchAndFamily & (TMPF_VECTOR|TMPF_TRUETYPE)) == 0 )
        {
            // bitmap fonts need their symbols as U+F0xx
            mbAliasSymbolsHigh = true;
        }
    }
#ifdef DEBUG
    fprintf(grLog(), "WinFontFace::WinFontFace() %lx\n", (unsigned long)this);
#endif
}

WinFontFace::~WinFontFace()
{
    if( mxUnicodeMap.Is() )
        mxUnicodeMap = nullptr;
#if ENABLE_GRAPHITE
    if (mpGraphiteData)
        mpGraphiteData->DeReference();
#ifdef DEBUG
    fprintf(grLog(), "WinFontFace::~WinFontFace %lx\n", (unsigned long)this);
#endif
#endif // ENABLE_GRAPHITE
    delete mpEncodingVector;

    if( mpHbFont )
        hb_font_destroy( mpHbFont );
}

sal_IntPtr WinFontFace::GetFontId() const
{
    return mnId;
}

static unsigned GetUInt( const unsigned char* p ) { return((p[0]<<24)+(p[1]<<16)+(p[2]<<8)+p[3]);}
static inline DWORD CalcTag( const char p[5]) { return (p[0]+(p[1]<<8)+(p[2]<<16)+(p[3]<<24)); }

void WinFontFace::UpdateFromHDC( HDC hDC ) const
{
    // short circuit if already initialized
    if( mxUnicodeMap.Is() )
        return;

    ReadCmapTable( hDC );
    GetFontCapabilities( hDC );
#if ENABLE_GRAPHITE
    static const char* pDisableGraphiteText = getenv( "SAL_DISABLE_GRAPHITE" );
    if( !pDisableGraphiteText || (pDisableGraphiteText[0] == '0') )
    {
        const DWORD nSilfTag = CalcTag("Silf");
        const RawFontData aRawFontData( hDC, nSilfTag );
        mbHasGraphiteSupport = (aRawFontData.size() > 0);
        if (mbHasGraphiteSupport)
        {
#ifdef DEBUG
            fprintf(grLog(), "WinFontFace::UpdateFromHDC %lx\n",
            (unsigned long)this);
#endif
            if (mpGraphiteData == nullptr)
            {
                mpGraphiteData = new GrFontData(hDC);
                if (!mpGraphiteData->getFace())
                {
                    mbHasGraphiteSupport = false;
                    delete mpGraphiteData;
                    mpGraphiteData = nullptr;
                }
            }
        }
    }
#endif
}

#if ENABLE_GRAPHITE
const gr_face* WinFontFace::GraphiteFace() const
{
#ifdef DEBUG
    fprintf(grLog(), "WinFontFace::GraphiteFace %lx has face %lx\n",
        (unsigned long)this, mpGraphiteData? mpGraphiteData->getFace(): 0);
#endif
    return (mpGraphiteData)? mpGraphiteData->getFace() : nullptr;
}
#endif

bool WinFontFace::HasGSUBstitutions( HDC hDC ) const
{
    if( !mbGsubRead )
        ReadGsubTable( hDC );
    return !maGsubTable.empty();
}

bool WinFontFace::IsGSUBstituted( sal_UCS4 cChar ) const
{
    return( maGsubTable.find( cChar ) != maGsubTable.end() );
}

FontCharMapRef WinFontFace::GetFontCharMap() const
{
    return mxUnicodeMap;
}

bool WinFontFace::GetFontCapabilities(vcl::FontCapabilities &rFontCapabilities) const
{
    rFontCapabilities = maFontCapabilities;
    return rFontCapabilities.oUnicodeRange || rFontCapabilities.oCodePageRange;
}

void WinFontFace::ReadGsubTable( HDC hDC ) const
{
    mbGsubRead = true;

    // check the existence of a GSUB table
    const DWORD GsubTag = CalcTag( "GSUB" );
    DWORD nRC = ::GetFontData( hDC, GsubTag, 0, nullptr, 0 );
    if( (nRC == GDI_ERROR) || !nRC )
        return;

    // parse the GSUB table through sft
    // TODO: parse it directly

    // sft needs the full font file data => get it
    const RawFontData aRawFontData( hDC );
    if( !aRawFontData.get() )
        return;

    // open font file
    sal_uInt32 nFaceNum = 0;
    if( !*aRawFontData.get() )  // TTC candidate
        nFaceNum = ~0U;  // indicate "TTC font extracts only"

    TrueTypeFont* pTTFont = nullptr;
    ::OpenTTFontBuffer( aRawFontData.get(), aRawFontData.size(), nFaceNum, &pTTFont );
    if( !pTTFont )
        return;

    // add vertically substituted characters to list
    static const sal_Unicode aGSUBCandidates[] = {
        0x0020, 0x0080, // ASCII
        0x2000, 0x2600, // misc
        0x3000, 0x3100, // CJK punctutation
        0x3300, 0x3400, // squared words
        0xFF00, 0xFFF0, // halfwidth|fullwidth forms
    0 };

    for( const sal_Unicode* pPair = aGSUBCandidates; *pPair; pPair += 2 )
        for( sal_Unicode cChar = pPair[0]; cChar < pPair[1]; ++cChar )
            if( ::MapChar( pTTFont, cChar, false ) != ::MapChar( pTTFont, cChar, true ) )
                maGsubTable.insert( cChar ); // insert GSUBbed unicodes

    CloseTTFont( pTTFont );
}

void WinFontFace::ReadCmapTable( HDC hDC ) const
{
    if( mxUnicodeMap.Is() )
        return;

    bool bIsSymbolFont = (meWinCharSet == SYMBOL_CHARSET);
    // get the CMAP table from the font which is selected into the DC
    const DWORD nCmapTag = CalcTag( "cmap" );
    const RawFontData aRawFontData( hDC, nCmapTag );
    // parse the CMAP table if available
    if( aRawFontData.get() ) {
        CmapResult aResult;
        ParseCMAP( aRawFontData.get(), aRawFontData.size(), aResult );
        aResult.mbSymbolic = bIsSymbolFont;
        if( aResult.mnRangeCount > 0 )
        {
            FontCharMapRef pUnicodeMap(new FontCharMap(aResult));
            mxUnicodeMap = pUnicodeMap;
        }
    }

    if( !mxUnicodeMap.Is() )
    {
        mxUnicodeMap = FontCharMap::GetDefaultMap( bIsSymbolFont );
    }
}

void WinFontFace::GetFontCapabilities( HDC hDC ) const
{
    // read this only once per font
    if( mbFontCapabilitiesRead )
        return;

    mbFontCapabilitiesRead = true;

    // GSUB table
    DWORD nLength;
    const DWORD GsubTag = CalcTag( "GSUB" );
    nLength = ::GetFontData( hDC, GsubTag, 0, nullptr, 0 );
    if( (nLength != GDI_ERROR) && nLength )
    {
        std::vector<unsigned char> aTable( nLength );
        unsigned char* pTable = &aTable[0];
        ::GetFontData( hDC, GsubTag, 0, pTable, nLength );
        vcl::getTTScripts(maFontCapabilities.maGSUBScriptTags, pTable, nLength);
    }

    // OS/2 table
    const DWORD OS2Tag = CalcTag( "OS/2" );
    nLength = ::GetFontData( hDC, OS2Tag, 0, nullptr, 0 );
    if( (nLength != GDI_ERROR) && nLength )
    {
        std::vector<unsigned char> aTable( nLength );
        unsigned char* pTable = &aTable[0];
        ::GetFontData( hDC, OS2Tag, 0, pTable, nLength );
        if (vcl::getTTCoverage(maFontCapabilities.oUnicodeRange, maFontCapabilities.oCodePageRange, pTable, nLength))
        {
            // Check for CJK capabilities of the current font
            // TODO, we have this info already from getTT, decode bits to
            // a readable bitset
            sal_uInt32 ulUnicodeRange1 = GetUInt( pTable + 42 );
            sal_uInt32 ulUnicodeRange2 = GetUInt( pTable + 46 );

            mbHasCJKSupport = (ulUnicodeRange2 & 0x2DF00000);
            mbHasArabicSupport = (ulUnicodeRange1 & 0x00002000);
        }
    }
}

void WinSalGraphics::SetTextColor( SalColor nSalColor )
{
    COLORREF aCol = PALETTERGB( SALCOLOR_RED( nSalColor ),
                                SALCOLOR_GREEN( nSalColor ),
                                SALCOLOR_BLUE( nSalColor ) );

    if( !mbPrinter &&
        GetSalData()->mhDitherPal &&
        ImplIsSysColorEntry( nSalColor ) )
    {
        aCol = PALRGB_TO_RGB( aCol );
    }

    ::SetTextColor( getHDC(), aCol );
}

int CALLBACK SalEnumQueryFontProcExW( const LOGFONTW*,
                                      const TEXTMETRICW*,
                                      DWORD, LPARAM lParam )
{
    *reinterpret_cast<bool*>(lParam) = true;
    return 0;
}

void ImplGetLogFontFromFontSelect( HDC hDC,
                                   const FontSelectPattern* pFont,
                                   LOGFONTW& rLogFont,
                                   bool /*bTestVerticalAvail*/ )
{
    OUString   aName;
    if ( pFont->mpFontData )
        aName = pFont->mpFontData->GetFamilyName();
    else
        aName = pFont->GetFamilyName().getToken( 0, ';' );

    UINT nNameLen = aName.getLength();
    if ( nNameLen > (sizeof( rLogFont.lfFaceName )/sizeof( wchar_t ))-1 )
        nNameLen = (sizeof( rLogFont.lfFaceName )/sizeof( wchar_t ))-1;
    memcpy( rLogFont.lfFaceName, aName.getStr(), nNameLen*sizeof( wchar_t ) );
    rLogFont.lfFaceName[nNameLen] = 0;

    if( !pFont->mpFontData )
    {
        rLogFont.lfCharSet = pFont->IsSymbolFont() ? SYMBOL_CHARSET : DEFAULT_CHARSET;
        rLogFont.lfPitchAndFamily = ImplPitchToWin( pFont->GetPitch() )
                                  | ImplFamilyToWin( pFont->GetFamilyType() );
    }
    else
    {
        const WinFontFace* pWinFontData = static_cast<const WinFontFace*>( pFont->mpFontData );
        rLogFont.lfCharSet        = pWinFontData->GetCharSet();
        rLogFont.lfPitchAndFamily = pWinFontData->GetPitchAndFamily();
    }

    static BYTE nDefaultQuality = NONANTIALIASED_QUALITY;
    if (nDefaultQuality == NONANTIALIASED_QUALITY)
    {
        if (OpenGLWrapper::isVCLOpenGLEnabled())
            nDefaultQuality = ANTIALIASED_QUALITY;
        else
            nDefaultQuality = DEFAULT_QUALITY;
    }

    rLogFont.lfWeight          = ImplWeightToWin( pFont->GetWeight() );
    rLogFont.lfHeight          = (LONG)-pFont->mnHeight;
    rLogFont.lfWidth           = (LONG)pFont->mnWidth;
    rLogFont.lfUnderline       = 0;
    rLogFont.lfStrikeOut       = 0;
    rLogFont.lfItalic          = BYTE(pFont->GetItalic() != ITALIC_NONE);
    rLogFont.lfEscapement      = pFont->mnOrientation;
    rLogFont.lfOrientation     = rLogFont.lfEscapement;
    rLogFont.lfClipPrecision   = CLIP_DEFAULT_PRECIS;
    rLogFont.lfQuality         = nDefaultQuality;
    rLogFont.lfOutPrecision    = OUT_TT_PRECIS;
    if ( pFont->mnOrientation )
        rLogFont.lfClipPrecision |= CLIP_LH_ANGLES;

    // disable antialiasing if requested
    if ( pFont->mbNonAntialiased )
        rLogFont.lfQuality = NONANTIALIASED_QUALITY;

    // select vertical mode if requested and available
    if ( pFont->mbVertical && nNameLen )
    {
        // vertical fonts start with an '@'
        memmove( &rLogFont.lfFaceName[1], &rLogFont.lfFaceName[0],
            sizeof(rLogFont.lfFaceName)-sizeof(rLogFont.lfFaceName[0]) );
        rLogFont.lfFaceName[0] = '@';

        // check availability of vertical mode for this font
        bool bAvailable = false;
        EnumFontFamiliesExW( hDC, &rLogFont, SalEnumQueryFontProcExW,
                         reinterpret_cast<LPARAM>(&bAvailable), 0 );

        if( !bAvailable )
        {
            // restore non-vertical name if not vertical mode isn't available
            memcpy( &rLogFont.lfFaceName[0], aName.getStr(), nNameLen*sizeof(wchar_t) );
            if( nNameLen < LF_FACESIZE )
                rLogFont.lfFaceName[nNameLen] = '\0';
        }
    }
}

HFONT WinSalGraphics::ImplDoSetFont( FontSelectPattern* i_pFont, float& o_rFontScale, HFONT& o_rOldFont )
{
    HFONT hNewFont = nullptr;

    HDC hdcScreen = nullptr;
    if( mbVirDev )
        // only required for virtual devices, see below for details
        hdcScreen = GetDC(nullptr);

    LOGFONTW aLogFont;
    ImplGetLogFontFromFontSelect( getHDC(), i_pFont, aLogFont, true );

    // #i47675# limit font requests to MAXFONTHEIGHT
    // TODO: share MAXFONTHEIGHT font instance
    if( (-aLogFont.lfHeight <= MAXFONTHEIGHT)
    &&  (+aLogFont.lfWidth <= MAXFONTHEIGHT) )
    {
        o_rFontScale = 1.0;
    }
    else if( -aLogFont.lfHeight >= +aLogFont.lfWidth )
    {
        o_rFontScale = -aLogFont.lfHeight / (float)MAXFONTHEIGHT;
        aLogFont.lfHeight = -MAXFONTHEIGHT;
        aLogFont.lfWidth = FRound( aLogFont.lfWidth / o_rFontScale );
    }
    else // #i95867# also limit font widths
    {
        o_rFontScale = +aLogFont.lfWidth / (float)MAXFONTHEIGHT;
        aLogFont.lfWidth = +MAXFONTHEIGHT;
        aLogFont.lfHeight = FRound( aLogFont.lfHeight / o_rFontScale );
    }

    hNewFont = ::CreateFontIndirectW( &aLogFont );
    if( hdcScreen )
    {
        // select font into screen hdc first to get an antialiased font
        // see knowledge base article 305290:
        // "PRB: Fonts Not Drawn Antialiased on Device Context for DirectDraw Surface"
        SelectFont( hdcScreen, SelectFont( hdcScreen , hNewFont ) );
    }
    o_rOldFont = ::SelectFont( getHDC(), hNewFont );

    TEXTMETRICW aTextMetricW;
    if( !::GetTextMetricsW( getHDC(), &aTextMetricW ) )
    {
        // the selected font doesn't work => try a replacement
        // TODO: use its font fallback instead
        lstrcpynW( aLogFont.lfFaceName, L"Courier New", 12 );
        aLogFont.lfPitchAndFamily = FIXED_PITCH;
        HFONT hNewFont2 = CreateFontIndirectW( &aLogFont );
        SelectFont( getHDC(), hNewFont2 );
        DeleteFont( hNewFont );
        hNewFont = hNewFont2;
    }

    if( hdcScreen )
        ::ReleaseDC( nullptr, hdcScreen );

    return hNewFont;
}

void WinSalGraphics::SetFont( FontSelectPattern* pFont, int nFallbackLevel )
{
    // return early if there is no new font
    if( !pFont )
    {
        // deselect still active font
        if( mhDefFont )
            ::SelectFont( getHDC(), mhDefFont );
        mfCurrentFontScale = mfFontScale[nFallbackLevel];
        // release no longer referenced font handles
        for( int i = nFallbackLevel; i < MAX_FALLBACK; ++i )
        {
            if( mhFonts[i] )
                ::DeleteFont( mhFonts[i] );
            mhFonts[ i ] = nullptr;
            if (mpWinFontEntry[i])
            {
                GetWinFontEntry(i)->mpFontCache->Release(GetWinFontEntry(i));
            }
            mpWinFontEntry[i] = nullptr;
            mpWinFontData[i] = nullptr;
        }
        mhDefFont = nullptr;
        return;
    }

    assert(pFont->mpFontData);
    if (mpWinFontEntry[nFallbackLevel])
    {
        GetWinFontEntry(nFallbackLevel)->mpFontCache->Release(GetWinFontEntry(nFallbackLevel));
    }
    // WinSalGraphics::GetEmbedFontData does not set mpFontInstance
    // since it is interested in font file data only.
    if (pFont->mpFontInstance)
    {
        pFont->mpFontInstance->mpFontCache->Acquire(pFont->mpFontInstance);
    }
    mpWinFontEntry[ nFallbackLevel ] = reinterpret_cast<WinFontInstance*>( pFont->mpFontInstance );
    mpWinFontData[ nFallbackLevel ] = static_cast<const WinFontFace*>( pFont->mpFontData );

    HFONT hOldFont = nullptr;
    HFONT hNewFont = ImplDoSetFont( pFont, mfFontScale[ nFallbackLevel ], hOldFont );
    mfCurrentFontScale = mfFontScale[nFallbackLevel];

    if( !mhDefFont )
    {
        // keep default font
        mhDefFont = hOldFont;
    }
    else
    {
        // release no longer referenced font handles
        for( int i = nFallbackLevel; i < MAX_FALLBACK; ++i )
        {
            if( mhFonts[i] )
            {
                ::DeleteFont( mhFonts[i] );
                mhFonts[i] = nullptr;
            }
            // note: removing mpWinFontEntry[i] here has obviously bad effects
        }
    }

    // store new font in correct layer
    mhFonts[ nFallbackLevel ] = hNewFont;
    // now the font is live => update font face
    if( mpWinFontData[ nFallbackLevel ] )
        mpWinFontData[ nFallbackLevel ]->UpdateFromHDC( getHDC() );

    if( !nFallbackLevel )
    {
        mbFontKernInit = TRUE;
        if ( mpFontKernPairs )
        {
            delete[] mpFontKernPairs;
            mpFontKernPairs = nullptr;
        }
        mnFontKernPairCount = 0;
    }
}

void WinSalGraphics::GetFontMetric( ImplFontMetricDataRef& rxFontMetric, int nFallbackLevel )
{
    // temporarily change the HDC to the font in the fallback level
    HFONT hOldFont = SelectFont( getHDC(), mhFonts[nFallbackLevel] );

    wchar_t aFaceName[LF_FACESIZE+60];
    if( ::GetTextFaceW( getHDC(), sizeof(aFaceName)/sizeof(wchar_t), aFaceName ) )
        rxFontMetric->SetFamilyName(OUString(reinterpret_cast<const sal_Unicode*>(aFaceName)));

    const DWORD nHheaTag = CalcTag("hhea");
    const DWORD nOS2Tag = CalcTag("OS/2");
    const RawFontData aHheaRawData(getHDC(), nHheaTag);
    const RawFontData aOS2RawData(getHDC(), nOS2Tag);

    // get the font metric
    OUTLINETEXTMETRICW aOutlineMetric;
    const bool bOK = GetOutlineTextMetricsW(getHDC(), sizeof(OUTLINETEXTMETRICW), &aOutlineMetric);
    // restore the HDC to the font in the base level
    SelectFont( getHDC(), hOldFont );
    if( !bOK )
        return;

    TEXTMETRICW aWinMetric = aOutlineMetric.otmTextMetrics;

    // device independent font attributes
    rxFontMetric->SetFamilyType(ImplFamilyToSal( aWinMetric.tmPitchAndFamily ));
    rxFontMetric->SetSymbolFlag(aWinMetric.tmCharSet == SYMBOL_CHARSET);
    rxFontMetric->SetWeight(ImplWeightToSal( aWinMetric.tmWeight ));
    rxFontMetric->SetPitch(ImplMetricPitchToSal( aWinMetric.tmPitchAndFamily ));
    rxFontMetric->SetItalic(aWinMetric.tmItalic ? ITALIC_NORMAL : ITALIC_NONE);
    rxFontMetric->SetSlant( 0 );

    // device dependent font attributes
    rxFontMetric->SetBuiltInFontFlag( (aWinMetric.tmPitchAndFamily & TMPF_DEVICE) != 0 );
    rxFontMetric->SetScalableFlag( (aWinMetric.tmPitchAndFamily & (TMPF_VECTOR|TMPF_TRUETYPE)) != 0 );
    rxFontMetric->SetTrueTypeFlag( (aWinMetric.tmPitchAndFamily & TMPF_TRUETYPE) != 0 );
    if( rxFontMetric->IsScalable() )
    {
        // check if there are kern pairs
        // TODO: does this work with GPOS kerning?
        DWORD nKernPairs = ::GetKerningPairsA( getHDC(), 0, nullptr );
        rxFontMetric->SetKernableFlag( (nKernPairs > 0) );
    }
    else
    {
        // bitmap fonts cannot be rotated directly
        rxFontMetric->SetOrientation( 0 );
        // bitmap fonts have no kerning
        rxFontMetric->SetKernableFlag( false );
    }

    // transformation dependent font metrics
    rxFontMetric->SetWidth( static_cast<int>( mfFontScale[nFallbackLevel] * aWinMetric.tmAveCharWidth ) );

    const std::vector<uint8_t> rHhea(aHheaRawData.get(), aHheaRawData.get() + aHheaRawData.size());
    const std::vector<uint8_t> rOS2(aOS2RawData.get(), aOS2RawData.get() + aOS2RawData.size());
    rxFontMetric->ImplCalcLineSpacing(rHhea, rOS2, aOutlineMetric.otmEMSquare);

    rxFontMetric->SetMinKashida( GetMinKashidaWidth() );
}

sal_uLong WinSalGraphics::GetKernPairs()
{
    if ( mbFontKernInit )
    {
        if( mpFontKernPairs )
        {
            delete[] mpFontKernPairs;
            mpFontKernPairs = nullptr;
        }
        mnFontKernPairCount = 0;

        KERNINGPAIR* pPairs = nullptr;
        int nCount = ::GetKerningPairsW( getHDC(), 0, nullptr );
        if( nCount )
        {
            pPairs = new KERNINGPAIR[ nCount+1 ];
            mpFontKernPairs = pPairs;
            mnFontKernPairCount = nCount;
            ::GetKerningPairsW( getHDC(), nCount, pPairs );
        }

        mbFontKernInit = FALSE;

        std::sort( mpFontKernPairs, mpFontKernPairs + mnFontKernPairCount, ImplCmpKernData );
    }

    return mnFontKernPairCount;
}

const FontCharMapRef WinSalGraphics::GetFontCharMap() const
{
    if( !mpWinFontData[0] )
    {
        FontCharMapRef xDefFontCharMap( new FontCharMap() );
        return xDefFontCharMap;
    }
    return mpWinFontData[0]->GetFontCharMap();
}

bool WinSalGraphics::GetFontCapabilities(vcl::FontCapabilities &rFontCapabilities) const
{
    if( !mpWinFontData[0] )
        return false;
    return mpWinFontData[0]->GetFontCapabilities(rFontCapabilities);
}

int CALLBACK SalEnumFontsProcExW( const LOGFONTW* lpelfe,
                                  const TEXTMETRICW* lpntme,
                                  DWORD nFontType, LPARAM lParam )
{
    ENUMLOGFONTEXW const * pLogFont
        = reinterpret_cast<ENUMLOGFONTEXW const *>(lpelfe);
    NEWTEXTMETRICEXW const * pMetric
        = reinterpret_cast<NEWTEXTMETRICEXW const *>(lpntme);
    ImplEnumInfo* pInfo = reinterpret_cast<ImplEnumInfo*>(lParam);
    if ( !pInfo->mpName )
    {
        // Ignore vertical fonts
        if ( pLogFont->elfLogFont.lfFaceName[0] != '@' )
        {
            OUString aName = OUString(reinterpret_cast<const sal_Unicode*>(pLogFont->elfLogFont.lfFaceName));
            pInfo->mpName = &aName;
            memcpy( pInfo->mpLogFontW->lfFaceName, pLogFont->elfLogFont.lfFaceName, (aName.getLength()+1)*sizeof( wchar_t ) );
            pInfo->mpLogFontW->lfCharSet = pLogFont->elfLogFont.lfCharSet;
            EnumFontFamiliesExW( pInfo->mhDC, pInfo->mpLogFontW, SalEnumFontsProcExW,
                                 reinterpret_cast<LPARAM>(pInfo), 0 );
            pInfo->mpLogFontW->lfFaceName[0] = '\0';
            pInfo->mpLogFontW->lfCharSet = DEFAULT_CHARSET;
            pInfo->mpName = nullptr;
        }
    }
    else
    {
        // Only SFNT fonts are supported, ignore anything else.
        if (SalLayout::UseCommonLayout() || OpenGLWrapper::isVCLOpenGLEnabled())
            if (!(nFontType & TRUETYPE_FONTTYPE))
                return 1;

        // Ignore non-device font on printer.
        if (pInfo->mbPrinter && !(nFontType & DEVICE_FONTTYPE))
            return 1;

        WinFontFace* pData = ImplLogMetricToDevFontDataW( pLogFont, &(pMetric->ntmTm), nFontType );
        pData->SetFontId( sal_IntPtr( pInfo->mnFontCount++ ) );

        pInfo->mpList->Add( pData );
    }

    return 1;
}

struct TempFontItem
{
    OUString maFontFilePath;
    OString maResourcePath;
    TempFontItem* mpNextItem;
};

bool ImplAddTempFont( SalData& rSalData, const OUString& rFontFileURL )
{
    int nRet = 0;
    OUString aUSytemPath;
    OSL_VERIFY( !osl::FileBase::getSystemPathFromFileURL( rFontFileURL, aUSytemPath ) );

    nRet = AddFontResourceExW( reinterpret_cast<LPCWSTR>(aUSytemPath.getStr()), FR_PRIVATE, nullptr );

    if ( !nRet )
    {
        static int nCounter = 0;
        char aFileName[] = "soAA.fot";
        aFileName[2] = sal::static_int_cast<char>('A' + (15 & (nCounter>>4)));
        aFileName[3] = sal::static_int_cast<char>('A' + (15 & nCounter));
        char aResourceName[512];
        int nMaxLen = sizeof(aResourceName)/sizeof(*aResourceName) - 16;
        int nLen = ::GetTempPathA( nMaxLen, aResourceName );
        ::strncpy( aResourceName + nLen, aFileName, sizeof( aResourceName )- nLen );
        // security: end buffer in any case
        aResourceName[ (sizeof(aResourceName)/sizeof(*aResourceName))-1 ] = 0;
        ::DeleteFileA( aResourceName );

        rtl_TextEncoding theEncoding = osl_getThreadTextEncoding();
        OString aCFileName = OUStringToOString( aUSytemPath, theEncoding );
        // TODO: font should be private => need to investigate why it doesn't work then
        if( !::CreateScalableFontResourceA( 0, aResourceName, aCFileName.getStr(), nullptr ) )
            return false;
        ++nCounter;

        nRet = ::AddFontResourceA( aResourceName );
        if( nRet > 0 )
        {
            TempFontItem* pNewItem = new TempFontItem;
            pNewItem->maResourcePath = OString( aResourceName );
            pNewItem->maFontFilePath = aUSytemPath.getStr();
            pNewItem->mpNextItem = rSalData.mpTempFontItem;
            rSalData.mpTempFontItem = pNewItem;
        }
    }

    return (nRet > 0);
}

void ImplReleaseTempFonts( SalData& rSalData )
{
    int nCount = 0;
    while( TempFontItem* p = rSalData.mpTempFontItem )
    {
        ++nCount;
        if( p->maResourcePath.getLength() )
        {
            const char* pResourcePath = p->maResourcePath.getStr();
            ::RemoveFontResourceA( pResourcePath );
            ::DeleteFileA( pResourcePath );
        }
        else
        {
            ::RemoveFontResourceW( reinterpret_cast<LPCWSTR>(p->maFontFilePath.getStr()) );
        }

        rSalData.mpTempFontItem = p->mpNextItem;
        delete p;
    }
}

static bool ImplGetFontAttrFromFile( const OUString& rFontFileURL,
    FontAttributes& rDFA )
{
    OUString aUSytemPath;
    OSL_VERIFY( !osl::FileBase::getSystemPathFromFileURL( rFontFileURL, aUSytemPath ) );

    // get FontAttributes from a *fot file
    // TODO: use GetTTGlobalFontInfo() to access the font directly
    rDFA.SetQuality( 1000 );
    rDFA.SetBuiltInFontFlag( true );
    rDFA.SetFamilyType(FAMILY_DONTKNOW);
    rDFA.SetWidthType(WIDTH_DONTKNOW);
    rDFA.SetWeight(WEIGHT_DONTKNOW);
    rDFA.SetItalic(ITALIC_DONTKNOW);
    rDFA.SetPitch(PITCH_DONTKNOW);
    rDFA.SetSubsettableFlag( true );
    rDFA.SetEmbeddableFlag( false );

    // Create temporary file name
    char aFileName[] = "soAAT.fot";
    char aResourceName[512];
    int nMaxLen = sizeof(aResourceName)/sizeof(*aResourceName) - 16;
    int nLen = ::GetTempPathA( nMaxLen, aResourceName );
    ::strncpy( aResourceName + nLen, aFileName, std::max( 0, nMaxLen - nLen ));
    ::DeleteFileA( aResourceName );

    // Create font resource file (typically with a .fot file name extension).
    rtl_TextEncoding theEncoding = osl_getThreadTextEncoding();
    OString aCFileName = OUStringToOString( aUSytemPath, theEncoding );
    ::CreateScalableFontResourceA( 0, aResourceName, aCFileName.getStr(), nullptr );

    // Open and read the font resource file
    OUString aFotFileName = OStringToOUString( aResourceName, osl_getThreadTextEncoding() );
    osl::FileBase::getFileURLFromSystemPath( aFotFileName, aFotFileName );
    osl::File aFotFile( aFotFileName );
    osl::FileBase::RC aError = aFotFile.open( osl_File_OpenFlag_Read );
    if( aError != osl::FileBase::E_None )
        return false;

    sal_uInt64  nBytesRead = 0;
    char        aBuffer[4096];
    aFotFile.read( aBuffer, sizeof( aBuffer ), nBytesRead );
    // clean up temporary resource file
    aFotFile.close();
    ::DeleteFileA( aResourceName );

    // retrieve font family name from byte offset 0x4F6
    sal_uInt64 i = 0x4F6;
    sal_uInt64 nNameOfs = i;
    while( (i < nBytesRead) && (aBuffer[i++] != 0) );
    // skip full name
    while( (i < nBytesRead) && (aBuffer[i++] != 0) );
    // retrieve font style name
    int nStyleOfs = i;
    while( (i < nBytesRead) && (aBuffer[i++] != 0) );
    if( i >= nBytesRead )
        return false;

    // convert byte strings to unicode
    char *pName = aBuffer + nNameOfs;
    rDFA.SetFamilyName(OUString(pName, strlen(pName), osl_getThreadTextEncoding()));
    char *pStyle = aBuffer + nStyleOfs;
    rDFA.SetStyleName(OUString(pStyle, strlen(pStyle), osl_getThreadTextEncoding() ));

    // byte offset 0x4C7: OS2_fsSelection
    const char nFSS = aBuffer[ 0x4C7 ];
    if( nFSS & 0x01 )   // italic
        rDFA.SetItalic(ITALIC_NORMAL);
    //if( nFSS & 0x20 )   // bold
    //   rDFA.meWeight = WEIGHT_BOLD;
    if( nFSS & 0x40 )   // regular
    {
        rDFA.SetWeight(WEIGHT_NORMAL);
        rDFA.SetItalic(ITALIC_NONE);
    }

    // byte offsets 0x4D7/0x4D8: wingdi's FW_WEIGHT
    int nWinWeight = (aBuffer[0x4D7] & 0xFF) + ((aBuffer[0x4D8] & 0xFF) << 8);
    rDFA.SetWeight(ImplWeightToSal( nWinWeight ));

    rDFA.SetSymbolFlag(false);          // TODO
    rDFA.SetPitch(PITCH_DONTKNOW); // TODO

    // byte offset 0x4DE: pitch&family
    rDFA.SetFamilyType(ImplFamilyToSal( aBuffer[0x4DE] ));

    // byte offsets 0x4C8/0x4C9: emunits
    // byte offsets 0x4CE/0x4CF: winascent
    // byte offsets 0x4D0/0x4D1: winascent+windescent-emunits
    // byte offsets 0x4DF/0x4E0: avgwidth

    return true;
}

bool WinSalGraphics::AddTempDevFont( PhysicalFontCollection* pFontCollection,
    const OUString& rFontFileURL, const OUString& rFontName )
{
    SAL_INFO( "vcl.gdi", "WinSalGraphics::AddTempDevFont(): " << OUStringToOString( rFontFileURL, RTL_TEXTENCODING_UTF8 ).getStr() );

    FontAttributes aDFA;
    aDFA.SetFamilyName(rFontName);
    aDFA.SetQuality( 1000 );
    aDFA.SetBuiltInFontFlag( true );

    // Retrieve font name from font resource
    if( aDFA.GetFamilyName().isEmpty() )
    {
        ImplGetFontAttrFromFile( rFontFileURL, aDFA );
    }

    if ( aDFA.GetFamilyName().isEmpty() )
        return false;

    // remember temp font for cleanup later
    if( !ImplAddTempFont( *GetSalData(), rFontFileURL ) )
        return false;

    // create matching FontData struct
    aDFA.SetSymbolFlag(false); // TODO: how to know it without accessing the font?
    aDFA.SetFamilyType(FAMILY_DONTKNOW);
    aDFA.SetWidthType(WIDTH_DONTKNOW);
    aDFA.SetWeight(WEIGHT_DONTKNOW);
    aDFA.SetItalic(ITALIC_DONTKNOW);
    aDFA.SetPitch(PITCH_DONTKNOW);
    aDFA.SetSubsettableFlag( true );
    aDFA.SetEmbeddableFlag( false );

    /*
    // TODO: improve FontAttributes using the "font resource file"
    aDFS.maName = // using "FONTRES:" from file
    if( rFontName != aDFS.maName )
        aDFS.maMapName = aFontName;
    */

    WinFontFace* pFontData = new WinFontFace( aDFA, 0,
        sal::static_int_cast<BYTE>(DEFAULT_CHARSET),
        sal::static_int_cast<BYTE>(TMPF_VECTOR|TMPF_TRUETYPE) );
    pFontData->SetFontId( reinterpret_cast<sal_IntPtr>(pFontData) );
    pFontCollection->Add( pFontData );
    return true;
}

void WinSalGraphics::GetDevFontList( PhysicalFontCollection* pFontCollection )
{
    // make sure all fonts are registered at least temporarily
    static bool bOnce = true;
    if( bOnce )
    {
        bOnce = false;

        // determine font path
        // since we are only interested in fonts that could not be
        // registered before because of missing administration rights
        // only the font path of the user installation is needed
        OUString aPath;
        osl_getExecutableFile( &aPath.pData );
        aPath = aPath.copy( 0, aPath.lastIndexOf('/') );
        OUString aFontDirUrl = aPath.copy( 0, aPath.lastIndexOf('/') );
        aFontDirUrl += "/" LIBO_SHARE_FOLDER "/fonts/truetype";

        // collect fonts in font path that could not be registered
        osl::Directory aFontDir( aFontDirUrl );
        osl::FileBase::RC rcOSL = aFontDir.open();
        if( rcOSL == osl::FileBase::E_None )
        {
            osl::DirectoryItem aDirItem;
            OUString aEmptyString;

            while( aFontDir.getNextItem( aDirItem, 10 ) == osl::FileBase::E_None )
            {
                osl::FileStatus aFileStatus( osl_FileStatus_Mask_FileURL );
                rcOSL = aDirItem.getFileStatus( aFileStatus );
                if ( rcOSL == osl::FileBase::E_None )
                    AddTempDevFont( pFontCollection, aFileStatus.getFileURL(), aEmptyString );
            }
        }
    }

    ImplEnumInfo aInfo;
    aInfo.mhDC          = getHDC();
    aInfo.mpList        = pFontCollection;
    aInfo.mpName        = nullptr;
    aInfo.mpLogFontA    = nullptr;
    aInfo.mpLogFontW    = nullptr;
    aInfo.mbPrinter     = mbPrinter;
    aInfo.mnFontCount   = 0;

    aInfo.mnPreferredCharSet = DEFAULT_CHARSET;
    DWORD nCP = GetACP();
    CHARSETINFO aCharSetInfo;
    if ( TranslateCharsetInfo( reinterpret_cast<DWORD*>((sal_IntPtr)nCP), &aCharSetInfo, TCI_SRCCODEPAGE ) )
        aInfo.mnPreferredCharSet = aCharSetInfo.ciCharset;

    LOGFONTW aLogFont;
    memset( &aLogFont, 0, sizeof( aLogFont ) );
    aLogFont.lfCharSet = DEFAULT_CHARSET;
    aInfo.mpLogFontW = &aLogFont;
    EnumFontFamiliesExW( getHDC(), &aLogFont,
        SalEnumFontsProcExW, reinterpret_cast<LPARAM>(&aInfo), 0 );

    // set glyph fallback hook
    static WinGlyphFallbackSubstititution aSubstFallback;
    static WinPreMatchFontSubstititution aPreMatchFont;
    pFontCollection->SetFallbackHook( &aSubstFallback );
    pFontCollection->SetPreMatchHook(&aPreMatchFont);
}

void WinSalGraphics::ClearDevFontCache()
{
    //anything to do here ?
}

bool WinSalGraphics::GetGlyphBoundRect( sal_GlyphId aGlyphId, Rectangle& rRect )
{
    HDC hDC = getHDC();

    // use unity matrix
    MAT2 aMat;
    aMat.eM11 = aMat.eM22 = FixedFromDouble( 1.0 );
    aMat.eM12 = aMat.eM21 = FixedFromDouble( 0.0 );

    UINT nGGOFlags = GGO_METRICS;
    if( !(aGlyphId & GF_ISCHAR) )
        nGGOFlags |= GGO_GLYPH_INDEX;
    aGlyphId &= GF_IDXMASK;

    GLYPHMETRICS aGM;
    aGM.gmptGlyphOrigin.x = aGM.gmptGlyphOrigin.y = 0;
    aGM.gmBlackBoxX = aGM.gmBlackBoxY = 0;
    DWORD nSize = ::GetGlyphOutlineW( hDC, aGlyphId, nGGOFlags, &aGM, 0, nullptr, &aMat );
    if( nSize == GDI_ERROR )
        return false;

    rRect = Rectangle( Point( +aGM.gmptGlyphOrigin.x, -aGM.gmptGlyphOrigin.y ),
        Size( aGM.gmBlackBoxX, aGM.gmBlackBoxY ) );
    rRect.Left()    = static_cast<int>( mfCurrentFontScale * rRect.Left() );
    rRect.Right()   = static_cast<int>( mfCurrentFontScale * rRect.Right() ) + 1;
    rRect.Top()     = static_cast<int>( mfCurrentFontScale * rRect.Top() );
    rRect.Bottom()  = static_cast<int>( mfCurrentFontScale * rRect.Bottom() ) + 1;
    return true;
}

bool WinSalGraphics::GetGlyphOutline( sal_GlyphId aGlyphId,
    basegfx::B2DPolyPolygon& rB2DPolyPoly )
{
    rB2DPolyPoly.clear();

    HDC  hDC = getHDC();

    // use unity matrix
    MAT2 aMat;
    aMat.eM11 = aMat.eM22 = FixedFromDouble( 1.0 );
    aMat.eM12 = aMat.eM21 = FixedFromDouble( 0.0 );

    UINT nGGOFlags = GGO_NATIVE;
    if( !(aGlyphId & GF_ISCHAR) )
        nGGOFlags |= GGO_GLYPH_INDEX;
    aGlyphId &= GF_IDXMASK;

    GLYPHMETRICS aGlyphMetrics;
    const DWORD nSize1 = ::GetGlyphOutlineW( hDC, aGlyphId, nGGOFlags, &aGlyphMetrics, 0, nullptr, &aMat );
    if( !nSize1 )       // blank glyphs are ok
        return true;
    else if( nSize1 == GDI_ERROR )
        return false;

    BYTE* pData = new BYTE[ nSize1 ];
    const DWORD nSize2 = ::GetGlyphOutlineW( hDC, aGlyphId, nGGOFlags,
              &aGlyphMetrics, nSize1, pData, &aMat );

    if( nSize1 != nSize2 )
        return false;

    // TODO: avoid tools polygon by creating B2DPolygon directly
    int     nPtSize = 512;
    Point*  pPoints = new Point[ nPtSize ];
    BYTE*   pFlags = new BYTE[ nPtSize ];

    TTPOLYGONHEADER* pHeader = reinterpret_cast<TTPOLYGONHEADER*>(pData);
    while( reinterpret_cast<BYTE*>(pHeader) < pData+nSize2 )
    {
        // only outline data is interesting
        if( pHeader->dwType != TT_POLYGON_TYPE )
            break;

        // get start point; next start points are end points
        // of previous segment
        sal_uInt16 nPnt = 0;

        long nX = IntTimes256FromFixed( pHeader->pfxStart.x );
        long nY = IntTimes256FromFixed( pHeader->pfxStart.y );
        pPoints[ nPnt ] = Point( nX, nY );
        pFlags[ nPnt++ ] = POLY_NORMAL;

        bool bHasOfflinePoints = false;
        TTPOLYCURVE* pCurve = reinterpret_cast<TTPOLYCURVE*>( pHeader + 1 );
        pHeader = reinterpret_cast<TTPOLYGONHEADER*>( reinterpret_cast<BYTE*>(pHeader) + pHeader->cb );
        while( reinterpret_cast<BYTE*>(pCurve) < reinterpret_cast<BYTE*>(pHeader) )
        {
            int nNeededSize = nPnt + 16 + 3 * pCurve->cpfx;
            if( nPtSize < nNeededSize )
            {
                Point* pOldPoints = pPoints;
                BYTE* pOldFlags = pFlags;
                nPtSize = 2 * nNeededSize;
                pPoints = new Point[ nPtSize ];
                pFlags = new BYTE[ nPtSize ];
                for( sal_uInt16 i = 0; i < nPnt; ++i )
                {
                    pPoints[ i ] = pOldPoints[ i ];
                    pFlags[ i ] = pOldFlags[ i ];
                }
                delete[] pOldPoints;
                delete[] pOldFlags;
            }

            int i = 0;
            if( TT_PRIM_LINE == pCurve->wType )
            {
                while( i < pCurve->cpfx )
                {
                    nX = IntTimes256FromFixed( pCurve->apfx[ i ].x );
                    nY = IntTimes256FromFixed( pCurve->apfx[ i ].y );
                    ++i;
                    pPoints[ nPnt ] = Point( nX, nY );
                    pFlags[ nPnt ] = POLY_NORMAL;
                    ++nPnt;
                }
            }
            else if( TT_PRIM_QSPLINE == pCurve->wType )
            {
                bHasOfflinePoints = true;
                while( i < pCurve->cpfx )
                {
                    // get control point of quadratic bezier spline
                    nX = IntTimes256FromFixed( pCurve->apfx[ i ].x );
                    nY = IntTimes256FromFixed( pCurve->apfx[ i ].y );
                    ++i;
                    Point aControlP( nX, nY );

                    // calculate first cubic control point
                    // P0 = 1/3 * (PBeg + 2 * PQControl)
                    nX = pPoints[ nPnt-1 ].X() + 2 * aControlP.X();
                    nY = pPoints[ nPnt-1 ].Y() + 2 * aControlP.Y();
                    pPoints[ nPnt+0 ] = Point( (2*nX+3)/6, (2*nY+3)/6 );
                    pFlags[ nPnt+0 ] = POLY_CONTROL;

                    // calculate endpoint of segment
                    nX = IntTimes256FromFixed( pCurve->apfx[ i ].x );
                    nY = IntTimes256FromFixed( pCurve->apfx[ i ].y );

                    if ( i+1 >= pCurve->cpfx )
                    {
                        // endpoint is either last point in segment => advance
                        ++i;
                    }
                    else
                    {
                        // or endpoint is the middle of two control points
                        nX += IntTimes256FromFixed( pCurve->apfx[ i-1 ].x );
                        nY += IntTimes256FromFixed( pCurve->apfx[ i-1 ].y );
                        nX = (nX + 1) / 2;
                        nY = (nY + 1) / 2;
                        // no need to advance, because the current point
                        // is the control point in next bezier spline
                    }

                    pPoints[ nPnt+2 ] = Point( nX, nY );
                    pFlags[ nPnt+2 ] = POLY_NORMAL;

                    // calculate second cubic control point
                    // P1 = 1/3 * (PEnd + 2 * PQControl)
                    nX = pPoints[ nPnt+2 ].X() + 2 * aControlP.X();
                    nY = pPoints[ nPnt+2 ].Y() + 2 * aControlP.Y();
                    pPoints[ nPnt+1 ] = Point( (2*nX+3)/6, (2*nY+3)/6 );
                    pFlags[ nPnt+1 ] = POLY_CONTROL;

                    nPnt += 3;
                }
            }

            // next curve segment
            pCurve = reinterpret_cast<TTPOLYCURVE*>(&pCurve->apfx[ i ]);
        }

        // end point is start point for closed contour
        // disabled, because Polygon class closes the contour itself
        // pPoints[nPnt++] = pPoints[0];
        // #i35928#
        // Added again, but add only when not yet closed
        if(pPoints[nPnt - 1] != pPoints[0])
        {
            if( bHasOfflinePoints )
                pFlags[nPnt] = pFlags[0];

            pPoints[nPnt++] = pPoints[0];
        }

        // convert y-coordinates W32 -> VCL
        for( int i = 0; i < nPnt; ++i )
            pPoints[i].Y() = -pPoints[i].Y();

        // insert into polypolygon
        tools::Polygon aPoly( nPnt, pPoints, (bHasOfflinePoints ? pFlags : nullptr) );
        // convert to B2DPolyPolygon
        // TODO: get rid of the intermediate PolyPolygon
        rB2DPolyPoly.append( aPoly.getB2DPolygon() );
    }

    delete[] pPoints;
    delete[] pFlags;

    delete[] pData;

    // rescaling needed for the tools::PolyPolygon conversion
    if( rB2DPolyPoly.count() )
    {
        const double fFactor(mfCurrentFontScale/256);
        rB2DPolyPoly.transform(basegfx::tools::createScaleB2DHomMatrix(fFactor, fFactor));
    }

    return true;
}

class ScopedFont
{
public:
    explicit ScopedFont(WinSalGraphics & rData);

    ~ScopedFont();

private:
    WinSalGraphics & m_rData;
    HFONT m_hOrigFont;
};

ScopedFont::ScopedFont(WinSalGraphics & rData): m_rData(rData)
{
    m_hOrigFont = m_rData.mhFonts[0];
    m_rData.mhFonts[0] = nullptr; // avoid deletion of current font
}

ScopedFont::~ScopedFont()
{
    if( m_hOrigFont )
    {
        // restore original font, destroy temporary font
        HFONT hTempFont = m_rData.mhFonts[0];
        m_rData.mhFonts[0] = m_hOrigFont;
        SelectObject( m_rData.getHDC(), m_hOrigFont );
        DeleteObject( hTempFont );
    }
}

class ScopedTrueTypeFont
{
public:
    inline ScopedTrueTypeFont(): m_pFont(nullptr) {}

    ~ScopedTrueTypeFont();

    int open(void const * pBuffer, sal_uInt32 nLen, sal_uInt32 nFaceNum);

    inline TrueTypeFont * get() const { return m_pFont; }

private:
    TrueTypeFont * m_pFont;
};

ScopedTrueTypeFont::~ScopedTrueTypeFont()
{
    if (m_pFont != nullptr)
        CloseTTFont(m_pFont);
}

int ScopedTrueTypeFont::open(void const * pBuffer, sal_uInt32 nLen,
                             sal_uInt32 nFaceNum)
{
    OSL_ENSURE(m_pFont == nullptr, "already open");
    return OpenTTFontBuffer(pBuffer, nLen, nFaceNum, &m_pFont);
}

bool WinSalGraphics::CreateFontSubset( const OUString& rToFile,
    const PhysicalFontFace* pFont, const sal_GlyphId* pGlyphIds, const sal_uInt8* pEncoding,
    sal_Int32* pGlyphWidths, int nGlyphCount, FontSubsetInfo& rInfo )
{
    // TODO: use more of the central font-subsetting code, move stuff there if needed

    // create matching FontSelectPattern
    // we need just enough to get to the font file data
    // use height=1000 for easier debugging (to match psprint's font units)
    FontSelectPattern aIFSD( *pFont, Size(0,1000), 1000.0, 0, false );

    // TODO: much better solution: move SetFont and restoration of old font to caller
    ScopedFont aOldFont(*this);
    float fScale = 1.0;
    HFONT hOldFont = nullptr;
    ImplDoSetFont( &aIFSD, fScale, hOldFont );

    WinFontFace const * pWinFontData = static_cast<WinFontFace const *>(aIFSD.mpFontData);

#if OSL_DEBUG_LEVEL > 1
    // get font metrics
    TEXTMETRICA aWinMetric;
    if( !::GetTextMetricsA( getHDC(), &aWinMetric ) )
        return FALSE;

    SAL_WARN_IF( (aWinMetric.tmPitchAndFamily & TMPF_DEVICE), "vcl", "cannot subset device font" );
    SAL_WARN_IF( !aWinMetric.tmPitchAndFamily & TMPF_TRUETYPE, "vcl", "can only subset TT font" );
#endif

    OUString aSysPath;
    if( osl_File_E_None != osl_getSystemPathFromFileURL( rToFile.pData, &aSysPath.pData ) )
        return FALSE;
    const rtl_TextEncoding aThreadEncoding = osl_getThreadTextEncoding();
    const OString aToFile(OUStringToOString(aSysPath, aThreadEncoding));

    // check if the font has a CFF-table
    const DWORD nCffTag = CalcTag( "CFF " );
    const RawFontData aRawCffData( getHDC(), nCffTag );
    if( aRawCffData.get() )
    {
        pWinFontData->UpdateFromHDC( getHDC() );
        FontCharMapRef xFontCharMap = pWinFontData->GetFontCharMap();

        sal_GlyphId aRealGlyphIds[ 256 ];
        for( int i = 0; i < nGlyphCount; ++i )
        {
            // TODO: remap notdef glyph if needed
            // TODO: use GDI's GetGlyphIndices instead? Does it handle GSUB properly?
            sal_GlyphId aGlyphId = pGlyphIds[i] & GF_IDXMASK;
            if( pGlyphIds[i] & GF_ISCHAR ) // remaining pseudo-glyphs need to be translated
                aGlyphId = xFontCharMap->GetGlyphIndex( aGlyphId );
            if( (pGlyphIds[i] & (GF_ROTMASK|GF_GSUB)) != 0) // TODO: vertical substitution
                {/*####*/}

            aRealGlyphIds[i] = aGlyphId;
        }

        xFontCharMap = nullptr;

        // provide a font subset from the CFF-table
        FILE* pOutFile = fopen( aToFile.getStr(), "wb" );
        rInfo.LoadFont( FontSubsetInfo::CFF_FONT, aRawCffData.get(), aRawCffData.size() );
        bool bRC = rInfo.CreateFontSubset( FontSubsetInfo::TYPE1_PFB, pOutFile, nullptr,
                aRealGlyphIds, pEncoding, nGlyphCount, pGlyphWidths );
        fclose( pOutFile );
        return bRC;
    }

    // get raw font file data
    const RawFontData xRawFontData( getHDC(), 0 );
    if( !xRawFontData.get() )
        return FALSE;

    // open font file
    sal_uInt32 nFaceNum = 0;
    if( !*xRawFontData.get() )  // TTC candidate
        nFaceNum = ~0U;  // indicate "TTC font extracts only"

    ScopedTrueTypeFont aSftTTF;
    int nRC = aSftTTF.open( xRawFontData.get(), xRawFontData.size(), nFaceNum );
    if( nRC != SF_OK )
        return FALSE;

    TTGlobalFontInfo aTTInfo;
    ::GetTTGlobalFontInfo( aSftTTF.get(), &aTTInfo );
    rInfo.m_nFontType   = FontSubsetInfo::SFNT_TTF;
    rInfo.m_aPSName     = ImplSalGetUniString( aTTInfo.psname );
    rInfo.m_nAscent     = aTTInfo.winAscent;
    rInfo.m_nDescent    = aTTInfo.winDescent;
    rInfo.m_aFontBBox   = Rectangle( Point( aTTInfo.xMin, aTTInfo.yMin ),
                                    Point( aTTInfo.xMax, aTTInfo.yMax ) );
    rInfo.m_nCapHeight  = aTTInfo.yMax; // Well ...

    // subset TTF-glyphs and get their properties
    // take care that subset fonts require the NotDef glyph in pos 0
    int nOrigCount = nGlyphCount;
    sal_uInt16    aShortIDs[ 256 ];
    sal_uInt8 aTempEncs[ 256 ];

    int nNotDef=-1, i;
    for( i = 0; i < nGlyphCount; ++i )
    {
        aTempEncs[i] = pEncoding[i];
        sal_GlyphId aGlyphId = pGlyphIds[i] & GF_IDXMASK;
        if( pGlyphIds[i] & GF_ISCHAR )
        {
            sal_Unicode cChar = static_cast<sal_Unicode>(aGlyphId); // TODO: sal_UCS4
            const bool bVertical = ((pGlyphIds[i] & (GF_ROTMASK|GF_GSUB)) != 0);
            aGlyphId = ::MapChar( aSftTTF.get(), cChar, bVertical );
            if( (aGlyphId == 0) && pFont->IsSymbolFont() )
            {
                // #i12824# emulate symbol aliasing U+FXXX <-> U+0XXX
                cChar = (cChar & 0xF000) ? (cChar & 0x00FF) : (cChar | 0xF000);
                aGlyphId = ::MapChar( aSftTTF.get(), cChar, bVertical );
            }
        }
        aShortIDs[i] = static_cast<sal_uInt16>( aGlyphId );
        if( !aGlyphId )
            if( nNotDef < 0 )
                nNotDef = i; // first NotDef glyph found
    }

    if( nNotDef != 0 )
    {
        // add fake NotDef glyph if needed
        if( nNotDef < 0 )
            nNotDef = nGlyphCount++;

        // NotDef glyph must be in pos 0 => swap glyphids
        aShortIDs[ nNotDef ] = aShortIDs[0];
        aTempEncs[ nNotDef ] = aTempEncs[0];
        aShortIDs[0] = 0;
        aTempEncs[0] = 0;
    }
    SAL_WARN_IF( nGlyphCount >= 257, "vcl", "too many glyphs for subsetting" );

    // fill pWidth array
    TTSimpleGlyphMetrics* pMetrics =
        ::GetTTSimpleGlyphMetrics( aSftTTF.get(), aShortIDs, nGlyphCount, aIFSD.mbVertical );
    if( !pMetrics )
        return FALSE;
    sal_uInt16 nNotDefAdv   = pMetrics[0].adv;
    pMetrics[0].adv         = pMetrics[nNotDef].adv;
    pMetrics[nNotDef].adv   = nNotDefAdv;
    for( i = 0; i < nOrigCount; ++i )
        pGlyphWidths[i] = pMetrics[i].adv;
    free( pMetrics );

    // write subset into destination file
    nRC = ::CreateTTFromTTGlyphs( aSftTTF.get(), aToFile.getStr(), aShortIDs,
            aTempEncs, nGlyphCount, 0, nullptr, 0 );
    return (nRC == SF_OK);
}

const void* WinSalGraphics::GetEmbedFontData( const PhysicalFontFace* pFont,
    const sal_Unicode* pUnicodes, sal_Int32* pCharWidths, size_t nLen,
    FontSubsetInfo& rInfo, long* pDataLen )
{
    // create matching FontSelectPattern
    // we need just enough to get to the font file data
    FontSelectPattern aIFSD( *pFont, Size(0,1000), 1000.0, 0, false );

    // TODO: much better solution: move SetFont and restoration of old font to caller
    ScopedFont aOldFont(*this);
    SetFont( &aIFSD, 0 );

    // get the raw font file data
    RawFontData aRawFontData( getHDC() );
    *pDataLen = aRawFontData.size();
    if( !aRawFontData.get() )
        return nullptr;

    // get important font properties
    TEXTMETRICA aTm;
    if( !::GetTextMetricsA( getHDC(), &aTm ) )
        *pDataLen = 0;
    const bool bPFA = (*aRawFontData.get() < 0x80);
    rInfo.m_nFontType = bPFA ? FontSubsetInfo::TYPE1_PFA : FontSubsetInfo::TYPE1_PFB;
    WCHAR aFaceName[64];
    sal_Int32 nFNLen = ::GetTextFaceW( getHDC(), 64, aFaceName );
    // #i59854# strip eventual null byte
    while( nFNLen > 0 && aFaceName[nFNLen-1] == 0 )
        nFNLen--;
    if( nFNLen == 0 )
        *pDataLen = 0;
    rInfo.m_aPSName     = OUString(reinterpret_cast<const sal_Unicode*>(aFaceName), nFNLen);
    rInfo.m_nAscent     = +aTm.tmAscent;
    rInfo.m_nDescent    = -aTm.tmDescent;
    rInfo.m_aFontBBox   = Rectangle( Point( -aTm.tmOverhang, -aTm.tmDescent ),
              Point( aTm.tmMaxCharWidth, aTm.tmAscent+aTm.tmExternalLeading ) );
    rInfo.m_nCapHeight  = aTm.tmAscent; // Well ...

    // get individual character widths
    for (size_t i = 0; i < nLen; ++i)
    {
        int nCharWidth = 0;
        const sal_Unicode cChar = pUnicodes[i];
        if( !::GetCharWidth32W( getHDC(), cChar, cChar, &nCharWidth ) )
            *pDataLen = 0;
        pCharWidths[i] = nCharWidth;
    }

    if( !*pDataLen )
        return nullptr;

    const unsigned char* pData = aRawFontData.steal();
    return pData;
}

void WinSalGraphics::FreeEmbedFontData( const void* pData, long /*nLen*/ )
{
    delete[] static_cast<char const *>(pData);
}

const Ucs2SIntMap* WinSalGraphics::GetFontEncodingVector( const PhysicalFontFace* pFont, const Ucs2OStrMap** pNonEncoded, std::set<sal_Unicode> const**)
{
    // TODO: even for builtin fonts we get here... why?
    if( !pFont->CanEmbed() )
        return nullptr;

    // fill the encoding vector
    // currently no nonencoded vector
    if( pNonEncoded )
        *pNonEncoded = nullptr;

    const WinFontFace* pWinFontData = static_cast<const WinFontFace*>(pFont);
    const Ucs2SIntMap* pEncoding = pWinFontData->GetEncodingVector();
    if( pEncoding == nullptr )
    {
        Ucs2SIntMap* pNewEncoding = new Ucs2SIntMap;
        for( sal_Unicode i = 32; i < 256; ++i )
            (*pNewEncoding)[i] = i;
        pWinFontData->SetEncodingVector( pNewEncoding );
    pEncoding = pNewEncoding;
    }

    return pEncoding;
}

void WinSalGraphics::GetGlyphWidths( const PhysicalFontFace* pFont,
                                     bool bVertical,
                                     std::vector< sal_Int32 >& rWidths,
                                     Ucs2UIntMap& rUnicodeEnc )
{
    // create matching FontSelectPattern
    // we need just enough to get to the font file data
    FontSelectPattern aIFSD( *pFont, Size(0,1000), 1000.0, 0, false );

    // TODO: much better solution: move SetFont and restoration of old font to caller
    ScopedFont aOldFont(*this);

    float fScale = 0.0;
    HFONT hOldFont = nullptr;
    ImplDoSetFont( &aIFSD, fScale, hOldFont );

    if( pFont->CanSubset() )
    {
        // get raw font file data
        const RawFontData xRawFontData( getHDC() );
        if( !xRawFontData.get() )
            return;

        // open font file
        sal_uInt32 nFaceNum = 0;
        if( !*xRawFontData.get() )  // TTC candidate
            nFaceNum = ~0U;  // indicate "TTC font extracts only"

        ScopedTrueTypeFont aSftTTF;
        int nRC = aSftTTF.open( xRawFontData.get(), xRawFontData.size(), nFaceNum );
        if( nRC != SF_OK )
            return;

        int nGlyphs = GetTTGlyphCount( aSftTTF.get() );
        if( nGlyphs > 0 )
        {
            rWidths.resize(nGlyphs);
            std::vector<sal_uInt16> aGlyphIds(nGlyphs);
            for( int i = 0; i < nGlyphs; i++ )
                aGlyphIds[i] = sal_uInt16(i);
            TTSimpleGlyphMetrics* pMetrics = ::GetTTSimpleGlyphMetrics( aSftTTF.get(),
                                                                        &aGlyphIds[0],
                                                                        nGlyphs,
                                                                        bVertical );
            if( pMetrics )
            {
                for( int i = 0; i< nGlyphs; i++ )
                    rWidths[i] = pMetrics[i].adv;
                free( pMetrics );
                rUnicodeEnc.clear();
            }
            const WinFontFace* pWinFont = static_cast<const WinFontFace*>(pFont);
            FontCharMapRef xFCMap = pWinFont->GetFontCharMap();
            SAL_WARN_IF( !xFCMap.Is() || !xFCMap->GetCharCount(), "vcl", "no map" );

            int nCharCount = xFCMap->GetCharCount();
            sal_uInt32 nChar = xFCMap->GetFirstChar();
            for( int i = 0; i < nCharCount; i++ )
            {
                if( nChar < 0x00010000 )
                {
                    sal_uInt16 nGlyph = ::MapChar( aSftTTF.get(),
                                                   static_cast<sal_Ucs>(nChar),
                                                   bVertical );
                    if( nGlyph )
                        rUnicodeEnc[ static_cast<sal_Unicode>(nChar) ] = nGlyph;
                }
                nChar = xFCMap->GetNextChar( nChar );
            }

            xFCMap = nullptr;
        }
    }
    else if( pFont->CanEmbed() )
    {
        // get individual character widths
        rWidths.clear();
        rUnicodeEnc.clear();
        rWidths.reserve( 224 );
        for( sal_Unicode i = 32; i < 256; ++i )
        {
            int nCharWidth = 0;
            if( ::GetCharWidth32W( getHDC(), i, i, &nCharWidth ) )
            {
                rUnicodeEnc[ i ] = rWidths.size();
                rWidths.push_back( nCharWidth );
            }
        }
    }
}

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