/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2021 Ola Rinta-Koski * Copyright (C) 2023 CERN (www.cern.ch) * Copyright (C) 2021-2022 KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ #include #include #include #include #include #include #include #ifdef __WIN32__ #define WIN32_LEAN_AND_MEAN #include #endif using namespace fontconfig; static FONTCONFIG* g_config = nullptr; static bool g_fcInitSuccess = false; REPORTER* FONTCONFIG::s_reporter = nullptr; /** * A simple wrapper to avoid exporing fontconfig in the header */ struct fontconfig::FONTCONFIG_PAT { FcPattern* pat; }; wxString FONTCONFIG::Version() { return wxString::Format( "%d.%d.%d", FC_MAJOR, FC_MINOR, FC_REVISION ); } FONTCONFIG::FONTCONFIG() { }; void fontconfig::FONTCONFIG::SetReporter( REPORTER* aReporter ) { s_reporter = aReporter; } /** * This is simply a wrapper to call FcInit() with SEH for Windows * SEH on Windows can only be used in functions without objects that might be unwinded * (basically objects with destructors) * For example, new FONTCONFIG() in Fontconfig() is creating a object with a destructor * that *might* need to be unwinded. MSVC catches this and throws a compile error */ static void bootstrapFc() { #if defined( _MSC_VER ) __try { #endif FcInit(); g_fcInitSuccess = true; #if defined( _MSC_VER ) } __except( GetExceptionCode() == STATUS_IN_PAGE_ERROR ? EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH ) { g_fcInitSuccess = false; // We have documented cases that fontconfig while trying to cache fonts // ends up using freetype to try and get font info // freetype itself reads fonts through memory mapping instead of normal file APIs // there are crashes reading fonts sometimes as a result that return STATUS_IN_PAGE_ERROR } #endif } FONTCONFIG* Fontconfig() { if( !g_config ) { bootstrapFc(); g_config = new FONTCONFIG(); } return g_config; } bool FONTCONFIG::isLanguageMatch( const wxString& aSearchLang, const wxString& aSupportedLang ) { if( aSearchLang.Lower() == aSupportedLang.Lower() ) return true; if( aSupportedLang.empty() ) return false; if( aSearchLang.empty() ) return false; wxArrayString supportedLangBits; wxStringSplit( aSupportedLang.Lower(), supportedLangBits, wxS( '-' ) ); wxArrayString searhcLangBits; wxStringSplit( aSearchLang.Lower(), searhcLangBits, wxS( '-' ) ); // if either side of the comparison have only one section, then its a broad match but fine // i.e. the haystack is declaring broad support or the search language is broad if( searhcLangBits.size() == 1 || supportedLangBits.size() == 1 ) { return searhcLangBits[0] == supportedLangBits[0]; } // the full two part comparison should have passed the initial shortcut return false; } std::string FONTCONFIG::getFcString( FONTCONFIG_PAT& aPat, const char* aObj, int aIdx ) { FcChar8* str; std::string res; if( FcPatternGetString( aPat.pat, aObj, aIdx, &str ) == FcResultMatch ) res = std::string( reinterpret_cast( str ) ); return res; } void FONTCONFIG::getAllFamilyStrings( FONTCONFIG_PAT& aPat, std::unordered_map& aFamStringMap ) { std::string famLang; std::string fam; int langIdx = 0; do { famLang = getFcString( aPat, FC_FAMILYLANG, langIdx ); if( famLang.empty() && langIdx != 0 ) break; else { fam = getFcString( aPat, FC_FAMILY, langIdx ); aFamStringMap.insert_or_assign( famLang, fam ); } } while( langIdx++ < std::numeric_limits< int8_t>::max() ); //arbitrary to avoid getting stuck for any reason } std::string FONTCONFIG::getFamilyStringByLang( FONTCONFIG_PAT& aPat, const wxString& aDesiredLang ) { std::unordered_map famStrings; getAllFamilyStrings( aPat, famStrings ); if( famStrings.empty() ) return ""; for( auto const& [key, val] : famStrings ) { if( isLanguageMatch( aDesiredLang, From_UTF8( key.c_str() ) ) ) { return val; } } // fall back to the first and maybe only available name // most fonts by review don't even bother declaring more than one font family name // and they don't even bother declare the language tag either, they just leave it blank return famStrings.begin()->second; } FONTCONFIG::FF_RESULT FONTCONFIG::FindFont( const wxString &aFontName, wxString &aFontFile, int& aFaceIndex, bool aBold, bool aItalic ) { FF_RESULT retval = FF_RESULT::FF_ERROR; if( !g_fcInitSuccess ) return retval; wxString qualifiedFontName = aFontName; wxScopedCharBuffer const fcBuffer = qualifiedFontName.ToUTF8(); FcPattern* pat = FcPatternCreate(); if( aBold ) FcPatternAddString( pat, FC_STYLE, (const FcChar8*) "Bold" ); if( aItalic ) FcPatternAddString( pat, FC_STYLE, (const FcChar8*) "Italic" ); FcPatternAddString( pat, FC_FAMILY, (FcChar8*) fcBuffer.data() ); FcConfigSubstitute( nullptr, pat, FcMatchPattern ); FcDefaultSubstitute( pat ); FcResult r = FcResultNoMatch; FcPattern* font = FcFontMatch( nullptr, pat, &r ); wxString fontName; if( font ) { FcChar8* file = nullptr; if( FcPatternGetString( font, FC_FILE, 0, &file ) == FcResultMatch ) { aFontFile = wxString::FromUTF8( (char*) file ); aFaceIndex = 0; wxString styleStr; FcChar8* family = nullptr; FcChar8* style = nullptr; retval = FF_RESULT::FF_SUBSTITUTE; std::unordered_map famStrings; FONTCONFIG_PAT patHolder{ font }; getAllFamilyStrings( patHolder, famStrings ); if( FcPatternGetString( font, FC_FAMILY, 0, &family ) == FcResultMatch ) { FcPatternGetInteger( font, FC_INDEX, 0, &aFaceIndex ); fontName = wxString::FromUTF8( (char*) family ); if( FcPatternGetString( font, FC_STYLE, 0, &style ) == FcResultMatch ) { styleStr = wxString::FromUTF8( (char*) style ); if( !styleStr.IsEmpty() ) { styleStr.Replace( ' ', ':' ); fontName += ':' + styleStr; } } bool has_bold = false; bool has_ital = false; wxString lower_style = styleStr.Lower(); if( lower_style.Contains( wxS( "thin" ) ) || lower_style.Contains( wxS( "light" ) ) // also cataches ultralight and extralight || lower_style.Contains( wxS( "regular" ) ) || lower_style.Contains( wxS( "roman" ) ) || lower_style.Contains( wxS( "book" ) ) ) { has_bold = false; } else if( lower_style.Contains( wxS( "medium" ) ) || lower_style.Contains( wxS( "semibold" ) ) || lower_style.Contains( wxS( "demibold" ) ) ) { has_bold = aBold; } else if( lower_style.Contains( wxS( "bold" ) ) // also catches ultrabold || lower_style.Contains( wxS( "heavy" ) ) || lower_style.Contains( wxS( "black" ) ) // also catches extrablack || lower_style.Contains( wxS( "thick" ) ) || lower_style.Contains( wxS( "dark" ) ) ) { has_bold = true; } if( lower_style.Contains( wxS( "italic" ) ) || lower_style.Contains( wxS( "oblique" ) ) || lower_style.Contains( wxS( "slant" ) ) ) { has_ital = true; } for( auto const& [key, val] : famStrings ) { wxString searchFont; searchFont = wxString::FromUTF8( (char*) val.data() ); if( searchFont.Lower().StartsWith( aFontName.Lower() ) ) { if( ( aBold && !has_bold ) && ( aItalic && !has_ital ) ) retval = FF_RESULT::FF_MISSING_BOLD_ITAL; else if( aBold && !has_bold ) retval = FF_RESULT::FF_MISSING_BOLD; else if( aItalic && !has_ital ) retval = FF_RESULT::FF_MISSING_ITAL; else if( ( aBold != has_bold ) || ( aItalic != has_ital ) ) retval = FF_RESULT::FF_SUBSTITUTE; else retval = FF_RESULT::FF_OK; break; } } } } FcPatternDestroy( font ); } if( retval == FF_RESULT::FF_ERROR ) { if( s_reporter ) s_reporter->Report( wxString::Format( _( "Error loading font '%s'." ), qualifiedFontName ) ); } else if( retval == FF_RESULT::FF_SUBSTITUTE ) { fontName.Replace( ':', ' ' ); if( s_reporter ) s_reporter->Report( wxString::Format( _( "Font '%s' not found; substituting '%s'." ), qualifiedFontName, fontName ) ); } FcPatternDestroy( pat ); return retval; } void FONTCONFIG::ListFonts( std::vector& aFonts, const std::string& aDesiredLang ) { if( !g_fcInitSuccess ) return; // be sure to cache bust if the language changed if( m_fontInfoCache.empty() || m_fontCacheLastLang != aDesiredLang ) { FcPattern* pat = FcPatternCreate(); FcObjectSet* os = FcObjectSetBuild( FC_FAMILY, FC_FAMILYLANG, FC_STYLE, FC_LANG, FC_FILE, FC_OUTLINE, nullptr ); FcFontSet* fs = FcFontList( nullptr, pat, os ); for( int i = 0; fs && i < fs->nfont; ++i ) { FcPattern* font = fs->fonts[i]; FcChar8* file; FcChar8* style; FcLangSet* langSet; FcBool outline; if( FcPatternGetString( font, FC_FILE, 0, &file ) == FcResultMatch && FcPatternGetString( font, FC_STYLE, 0, &style ) == FcResultMatch && FcPatternGetLangSet( font, FC_LANG, 0, &langSet ) == FcResultMatch && FcPatternGetBool( font, FC_OUTLINE, 0, &outline ) == FcResultMatch ) { if( !outline ) continue; FONTCONFIG_PAT patHolder{ font }; std::string theFamily = getFamilyStringByLang( patHolder, From_UTF8( aDesiredLang.c_str() ) ); #ifdef __WXMAC__ // On Mac (at least) some of the font names are in their own language. If // the OS doesn't support this language then we get a bunch of garbage names // in the font menu. // // GTK, on the other hand, doesn't appear to support wxLocale::IsAvailable(), // so we can't run these checks. static std::map availableLanguages; FcStrSet* langStrSet = FcLangSetGetLangs( langSet ); FcStrList* langStrList = FcStrListCreate( langStrSet ); FcChar8* langStr = FcStrListNext( langStrList ); bool langSupported = false; if( !langStr ) { // Symbol fonts (Wingdings, etc.) have no language langSupported = true; } else while( langStr ) { wxString langWxStr( reinterpret_cast( langStr ) ); if( availableLanguages.find( langWxStr ) == availableLanguages.end() ) { const wxLanguageInfo* langInfo = wxLocale::FindLanguageInfo( langWxStr ); bool available = langInfo && wxLocale::IsAvailable( langInfo->Language ); availableLanguages[ langWxStr ] = available; } if( availableLanguages[ langWxStr ] ) { langSupported = true; break; } else { wxLogTrace( traceFonts, wxS( "Font '%s' language '%s' not supported by OS." ), theFamily, langWxStr ); } langStr = FcStrListNext( langStrList ); } FcStrListDone( langStrList ); FcStrSetDestroy( langStrSet ); if( !langSupported ) continue; #endif std::string theFile( reinterpret_cast( file ) ); std::string theStyle( reinterpret_cast( style ) ); FONTINFO fontInfo( std::move( theFile ), std::move( theStyle ), theFamily ); if( theFamily.length() > 0 && theFamily.front() == '.' ) continue; std::map::iterator it = m_fontInfoCache.find( theFamily ); if( it == m_fontInfoCache.end() ) m_fontInfoCache.emplace( theFamily, fontInfo ); else it->second.Children().push_back( fontInfo ); } } if( fs ) FcFontSetDestroy( fs ); m_fontCacheLastLang = aDesiredLang; } for( const std::pair& entry : m_fontInfoCache ) aFonts.push_back( entry.second.Family() ); }