/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace vcl; inline FIXED FixedFromDouble( double d ) { const long l = (long) ( d * 65536. ); return *reinterpret_cast(&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 ); const unsigned char* get() const { return mpRawBytes.get(); } const unsigned char* steal() { return mpRawBytes.release(); } int size() const { return mnByteCount; } private: std::unique_ptr mpRawBytes; unsigned mnByteCount; }; RawFontData::RawFontData( HDC hDC, DWORD nTableTag ) : mnByteCount( 0 ) { // get required size in bytes mnByteCount = ::GetFontData( hDC, nTableTag, 0, nullptr, 0 ); if (mnByteCount == GDI_ERROR) mnByteCount = 0; if (!mnByteCount) return; // allocate the array mpRawBytes.reset(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.get() + 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 ) { mpRawBytes.reset(); // mnByteCount must correspond to mpRawBytes length SAL_WARN( "vcl", "Raw data of font is incomplete: " << nRawDataOfs << " byte(s) found whereas " << mnByteCount << " byte(s) expected!" ); mnByteCount = 0; } } // 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 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 DirectWrite 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 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; LOGFONTW* mpLogFont; 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) { 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(o3tl::toU(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(o3tl::toU(pStyleName)); // heuristics for font quality // - opentypeTT > truetype aDFA.SetQuality( 0 ); if( rMetric.tmPitchAndFamily & TMPF_TRUETYPE ) aDFA.IncreaseQualityBy( 50 ); if( 0 != (rMetric.ntmFlags & (NTM_TT_OPENTYPE | NTM_PS_OPENTYPE)) ) aDFA.IncreaseQualityBy( 10 ); // 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), nHeight, pLogFont->elfLogFont.lfCharSet, pMetric->tmPitchAndFamily ); return pData; } void ImplSalLogFontToFontW( HDC hDC, const LOGFONTW& rLogFont, Font& rFont ) { OUString aFontName( o3tl::toU(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 ); } } WinFontFace::WinFontFace( const FontAttributes& rDFS, int nHeight, BYTE eWinCharSet, BYTE nPitchAndFamily ) : PhysicalFontFace( rDFS ), mnId( 0 ), mbFontCapabilitiesRead( false ), mxUnicodeMap( nullptr ), meWinCharSet( eWinCharSet ), mnPitchAndFamily( nPitchAndFamily ), mbAliasSymbolsHigh( false ), mbAliasSymbolsLow( 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; } } } WinFontFace::~WinFontFace() { mxUnicodeMap.clear(); if( mpHbFont ) hb_font_destroy( mpHbFont ); } sal_IntPtr WinFontFace::GetFontId() const { return mnId; } 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 ); } FontCharMapRef WinFontFace::GetFontCharMap() const { return mxUnicodeMap; } bool WinFontFace::GetFontCapabilities(vcl::FontCapabilities &rFontCapabilities) const { rFontCapabilities = maFontCapabilities; return rFontCapabilities.oUnicodeRange || rFontCapabilities.oCodePageRange; } 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; // OS/2 table const DWORD OS2Tag = CalcTag( "OS/2" ); DWORD nLength = ::GetFontData( hDC, OS2Tag, 0, nullptr, 0 ); if( (nLength != GDI_ERROR) && nLength ) { std::vector aTable( nLength ); unsigned char* pTable = &aTable[0]; ::GetFontData( hDC, OS2Tag, 0, pTable, nLength ); vcl::getTTCoverage(maFontCapabilities.oUnicodeRange, maFontCapabilities.oCodePageRange, pTable, nLength); } } 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(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( 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(&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'; // keep it upright and create the font for sideway glyphs later. rLogFont.lfEscapement = rLogFont.lfEscapement - 2700; rLogFont.lfOrientation = rLogFont.lfEscapement; } } } HFONT WinSalGraphics::ImplDoSetFont(FontSelectPattern const * i_pFont, 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 ); 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( const FontSelectPattern* pFont, int nFallbackLevel ) { // return early if there is no new font if( !pFont ) { // deselect still active font if( mhDefFont ) ::SelectFont( getHDC(), mhDefFont ); // 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)->Release(); } mpWinFontEntry[i] = nullptr; mpWinFontData[i] = nullptr; } mhDefFont = nullptr; return; } assert(pFont->mpFontData); if (mpWinFontEntry[nFallbackLevel]) { GetWinFontEntry(nFallbackLevel)->Release(); } // WinSalGraphics::GetEmbedFontData does not set mpFontInstance // since it is interested in font file data only. if (pFont->mpFontInstance) { pFont->mpFontInstance->Acquire(); } mpWinFontEntry[ nFallbackLevel ] = reinterpret_cast( pFont->mpFontInstance ); mpWinFontData[ nFallbackLevel ] = static_cast( pFont->mpFontData ); HFONT hOldFont = nullptr; HFONT hNewFont = ImplDoSetFont(pFont, hOldFont); 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() ); } 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(), SAL_N_ELEMENTS(aFaceName), aFaceName ) ) rxFontMetric->SetFamilyName(o3tl::toU(aFaceName)); const DWORD nHheaTag = CalcTag("hhea"); const DWORD nOS2Tag = CalcTag("OS/2"); const RawFontData aHheaRawData(getHDC(), nHheaTag); const RawFontData aOS2RawData(getHDC(), nOS2Tag); WCHAR nKashidaCh = 0x0640; WORD nKashidaGid; DWORD ret = GetGlyphIndicesW(getHDC(), &nKashidaCh, 1, &nKashidaGid, GGI_MARK_NONEXISTING_GLYPHS); if (ret != GDI_ERROR && nKashidaGid != 0xFFFF) { int nKashidaWidth = 0; if (GetCharWidthI(getHDC(), nKashidaGid, 1, nullptr, &nKashidaWidth)) rxFontMetric->SetMinKashida(nKashidaWidth); } // get the font metric OUTLINETEXTMETRICW aOutlineMetric; const bool bOK = GetOutlineTextMetricsW(getHDC(), sizeof(aOutlineMetric), &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 ); // transformation dependent font metrics rxFontMetric->SetWidth(aWinMetric.tmAveCharWidth); const std::vector rHhea(aHheaRawData.get(), aHheaRawData.get() + aHheaRawData.size()); const std::vector rOS2(aOS2RawData.get(), aOS2RawData.get() + aOS2RawData.size()); rxFontMetric->ImplCalcLineSpacing(rHhea, rOS2, aOutlineMetric.otmEMSquare); } 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(lpelfe); NEWTEXTMETRICEXW const * pMetric = reinterpret_cast(lpntme); ImplEnumInfo* pInfo = reinterpret_cast(lParam); if ( !pInfo->mpName ) { // Ignore vertical fonts if ( pLogFont->elfLogFont.lfFaceName[0] != '@' ) { OUString aName = o3tl::toU(pLogFont->elfLogFont.lfFaceName); pInfo->mpName = &aName; memcpy(pInfo->mpLogFont->lfFaceName, pLogFont->elfLogFont.lfFaceName, (aName.getLength()+1)*sizeof(wchar_t)); pInfo->mpLogFont->lfCharSet = pLogFont->elfLogFont.lfCharSet; EnumFontFamiliesExW(pInfo->mhDC, pInfo->mpLogFont, SalEnumFontsProcExW, reinterpret_cast(pInfo), 0); pInfo->mpLogFont->lfFaceName[0] = '\0'; pInfo->mpLogFont->lfCharSet = DEFAULT_CHARSET; pInfo->mpName = nullptr; } } else { // Ignore non-device fonts on printers. if (pInfo->mbPrinter) { if ((nFontType & RASTER_FONTTYPE) && !(nFontType & DEVICE_FONTTYPE)) { SAL_INFO("vcl.gdi", "Unsupported printer font ignored: " << OUString(o3tl::toU(pLogFont->elfLogFont.lfFaceName))); return 1; } } // Only SFNT fonts are supported, ignore anything else. else if (!(nFontType & TRUETYPE_FONTTYPE) && !(pMetric->ntmTm.ntmFlags & NTM_PS_OPENTYPE) && !(pMetric->ntmTm.ntmFlags & NTM_TT_OPENTYPE)) { SAL_INFO("vcl.gdi", "Unsupported font ignored: " << OUString(o3tl::toU(pLogFont->elfLogFont.lfFaceName))); 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; OUString maResourcePath; TempFontItem* mpNextItem; }; bool ImplAddTempFont( SalData& rSalData, const OUString& rFontFileURL ) { int nRet = 0; OUString aUSytemPath; OSL_VERIFY( !osl::FileBase::getSystemPathFromFileURL( rFontFileURL, aUSytemPath ) ); nRet = AddFontResourceExW( o3tl::toW(aUSytemPath.getStr()), FR_PRIVATE, nullptr ); if ( !nRet ) { static int nCounter = 0; wchar_t aFileName[] = L"soAA.fot"; aFileName[2] = sal::static_int_cast(L'A' + (15 & (nCounter>>4))); aFileName[3] = sal::static_int_cast(L'A' + (15 & nCounter)); wchar_t aResourceName[512]; int const nMaxLen = SAL_N_ELEMENTS(aResourceName) - 16; int nLen = GetTempPathW( nMaxLen, aResourceName ); wcsncpy( aResourceName + nLen, aFileName, SAL_N_ELEMENTS( aResourceName ) - nLen ); // security: end buffer in any case aResourceName[ SAL_N_ELEMENTS(aResourceName)-1 ] = 0; DeleteFileW( aResourceName ); // TODO: font should be private => need to investigate why it doesn't work then if( !CreateScalableFontResourceW( 0, aResourceName, o3tl::toW(aUSytemPath.getStr()), nullptr ) ) return false; ++nCounter; nRet = AddFontResourceW( aResourceName ); if( nRet > 0 ) { TempFontItem* pNewItem = new TempFontItem; pNewItem->maResourcePath = o3tl::toU( aResourceName ); pNewItem->maFontFilePath = aUSytemPath; 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 wchar_t* pResourcePath = o3tl::toW(p->maResourcePath.getStr()); RemoveFontResourceW( pResourcePath ); DeleteFileW( pResourcePath ); } else { RemoveFontResourceW( o3tl::toW(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.SetFamilyType(FAMILY_DONTKNOW); rDFA.SetWidthType(WIDTH_DONTKNOW); rDFA.SetWeight(WEIGHT_DONTKNOW); rDFA.SetItalic(ITALIC_DONTKNOW); rDFA.SetPitch(PITCH_DONTKNOW); // Create temporary file name wchar_t aResourceName[512]; int nMaxLen = SAL_N_ELEMENTS(aResourceName) - 16; int nLen = GetTempPathW( nMaxLen, aResourceName ); wcsncpy( aResourceName + nLen, L"soAAT.fot", std::max( 0, nMaxLen - nLen )); DeleteFileW( aResourceName ); // Create font resource file (typically with a .fot file name extension). CreateScalableFontResourceW( 0, aResourceName, o3tl::toW(aUSytemPath.getStr()), nullptr ); // Open and read the font resource file OUString aFotFileName = o3tl::toU( aResourceName ); 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(); DeleteFileW( 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(): " << rFontFileURL ); FontAttributes aDFA; aDFA.SetFamilyName(rFontName); aDFA.SetQuality( 1000 ); // 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); /* // 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(DEFAULT_CHARSET), sal::static_int_cast(TMPF_VECTOR|TMPF_TRUETYPE) ); pFontData->SetFontId( reinterpret_cast(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("$BRAND_BASE_DIR"); rtl_bootstrap_expandMacros(&aPath.pData); // collect fonts in font path that could not be registered osl::Directory aFontDir(aPath + "/" LIBO_SHARE_FOLDER "/fonts/truetype"); osl::FileBase::RC rcOSL = aFontDir.open(); if( rcOSL == osl::FileBase::E_None ) { osl::DirectoryItem aDirItem; 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(), "" ); } } } ImplEnumInfo aInfo; aInfo.mhDC = getHDC(); aInfo.mpList = pFontCollection; aInfo.mpName = nullptr; aInfo.mbPrinter = mbPrinter; aInfo.mnFontCount = 0; LOGFONTW aLogFont; memset( &aLogFont, 0, sizeof( aLogFont ) ); aLogFont.lfCharSet = DEFAULT_CHARSET; aInfo.mpLogFont = &aLogFont; EnumFontFamiliesExW( getHDC(), &aLogFont, SalEnumFontsProcExW, reinterpret_cast(&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(const GlyphItem& rGlyph, tools::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; nGGOFlags |= GGO_GLYPH_INDEX; GLYPHMETRICS aGM; aGM.gmptGlyphOrigin.x = aGM.gmptGlyphOrigin.y = 0; aGM.gmBlackBoxX = aGM.gmBlackBoxY = 0; DWORD nSize = ::GetGlyphOutlineW(hDC, rGlyph.maGlyphId, nGGOFlags, &aGM, 0, nullptr, &aMat); if( nSize == GDI_ERROR ) return false; rRect = tools::Rectangle( Point( +aGM.gmptGlyphOrigin.x, -aGM.gmptGlyphOrigin.y ), Size( aGM.gmBlackBoxX, aGM.gmBlackBoxY ) ); rRect.Right() += 1; rRect.Bottom() += 1; return true; } bool WinSalGraphics::GetGlyphOutline(const GlyphItem& rGlyph, 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; nGGOFlags |= GGO_GLYPH_INDEX; GLYPHMETRICS aGlyphMetrics; const DWORD nSize1 = ::GetGlyphOutlineW(hDC, rGlyph.maGlyphId, 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, rGlyph.maGlyphId, 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 ]; PolyFlags* pFlags = new PolyFlags[ nPtSize ]; TTPOLYGONHEADER* pHeader = reinterpret_cast(pData); while( reinterpret_cast(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++ ] = PolyFlags::Normal; bool bHasOfflinePoints = false; TTPOLYCURVE* pCurve = reinterpret_cast( pHeader + 1 ); pHeader = reinterpret_cast( reinterpret_cast(pHeader) + pHeader->cb ); while( reinterpret_cast(pCurve) < reinterpret_cast(pHeader) ) { int nNeededSize = nPnt + 16 + 3 * pCurve->cpfx; if( nPtSize < nNeededSize ) { Point* pOldPoints = pPoints; PolyFlags* pOldFlags = pFlags; nPtSize = 2 * nNeededSize; pPoints = new Point[ nPtSize ]; pFlags = new PolyFlags[ 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 ] = PolyFlags::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 ] = PolyFlags::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 ] = PolyFlags::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 ] = PolyFlags::Control; nPnt += 3; } } // next curve segment pCurve = reinterpret_cast(&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(1.0/256); rB2DPolyPoly.transform(basegfx::utils::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: ScopedTrueTypeFont(): m_pFont(nullptr) {} ~ScopedTrueTypeFont(); int open(void const * pBuffer, sal_uInt32 nLen, sal_uInt32 nFaceNum); 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); HFONT hOldFont = nullptr; ImplDoSetFont(&aIFSD, hOldFont); WinFontFace const * pWinFontData = static_cast(aIFSD.mpFontData); #if OSL_DEBUG_LEVEL > 1 // get font metrics TEXTMETRICW aWinMetric; if( !::GetTextMetricsW( 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(); xFontCharMap = nullptr; // provide a font subset from the CFF-table FILE* pOutFile = fopen( aToFile.getStr(), "wb" ); rInfo.LoadFont( FontType::CFF_FONT, aRawCffData.get(), aRawCffData.size() ); bool bRC = rInfo.CreateFontSubset( FontType::TYPE1_PFB, pOutFile, nullptr, pGlyphIds, 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 = FontType::SFNT_TTF; rInfo.m_aPSName = ImplSalGetUniString( aTTInfo.psname ); rInfo.m_nAscent = aTTInfo.winAscent; rInfo.m_nDescent = aTTInfo.winDescent; rInfo.m_aFontBBox = tools::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]; aShortIDs[i] = static_cast(pGlyphIds[i]); if (!aShortIDs[i]) 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 ); return (nRC == SF_OK); } const void* WinSalGraphics::GetEmbedFontData(const PhysicalFontFace* pFont, 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 ); ScopedFont aOldFont(*this); SetFont( &aIFSD, 0 ); // get the raw font file data RawFontData aRawFontData( getHDC() ); *pDataLen = aRawFontData.size(); if( !aRawFontData.get() ) return nullptr; const unsigned char* pData = aRawFontData.steal(); return pData; } void WinSalGraphics::FreeEmbedFontData( const void* pData, long /*nLen*/ ) { delete[] static_cast(pData); } 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); HFONT hOldFont = nullptr; ImplDoSetFont(&aIFSD, hOldFont); // 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 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(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(nChar)); if( nGlyph ) rUnicodeEnc[ static_cast(nChar) ] = nGlyph; } nChar = xFCMap->GetNextChar( nChar ); } xFCMap = nullptr; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */