/* -*- 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 #if !(defined(_WIN32) || defined(MACOSX) || defined(IOS)) #include #endif size_t ImplFontCache::IFSD_Hash::operator()( const FontSelectPattern& rFSD ) const { return rFSD.hashCode(); } bool ImplFontCache::IFSD_Equal::operator()(const FontSelectPattern& rA, const FontSelectPattern& rB) const { // check normalized font family name if( rA.maSearchName != rB.maSearchName ) return false; // check font transformation if( (rA.mnHeight != rB.mnHeight) || (rA.mnWidth != rB.mnWidth) || (rA.mnOrientation != rB.mnOrientation) ) return false; // check mapping relevant attributes if( (rA.mbVertical != rB.mbVertical) || (rA.meLanguage != rB.meLanguage) ) return false; // check font face attributes if( (rA.GetWeight() != rB.GetWeight()) || (rA.GetItalic() != rB.GetItalic()) // || (rA.meFamily != rB.meFamily) // TODO: remove this mostly obsolete member || (rA.GetPitch() != rB.GetPitch()) ) return false; // check style name if( rA.GetStyleName() != rB.GetStyleName() ) return false; // Symbol fonts may recode from one type to another So they are only // safely equivalent for equal targets if (rA.IsSymbolFont() || rB.IsSymbolFont()) { if (rA.maTargetName != rB.maTargetName) return false; } // check for features if ((rA.maTargetName.indexOf(FontSelectPattern::FEAT_PREFIX) != -1 || rB.maTargetName.indexOf(FontSelectPattern::FEAT_PREFIX) != -1) && rA.maTargetName != rB.maTargetName) return false; if (rA.mbEmbolden != rB.mbEmbolden) return false; if (rA.maItalicMatrix != rB.maItalicMatrix) return false; return true; } ImplFontCache::ImplFontCache() : mpLastHitCacheEntry( nullptr ) , maFontInstanceList(0) // The cache limit is set by the rough number of characters needed to read your average Asian newspaper. , m_aBoundRectCache(3000) {} ImplFontCache::~ImplFontCache() { for (const auto & rLFI : maFontInstanceList) { rLFI.second->mpFontCache = nullptr; } } rtl::Reference ImplFontCache::GetFontInstance( PhysicalFontCollection const * pFontList, const vcl::Font& rFont, const Size& rSize, float fExactHeight, bool bNonAntialias ) { // initialize internal font request object FontSelectPattern aFontSelData(rFont, rFont.GetFamilyName(), rSize, fExactHeight, bNonAntialias); return GetFontInstance( pFontList, aFontSelData ); } rtl::Reference ImplFontCache::GetFontInstance( PhysicalFontCollection const * pFontList, FontSelectPattern& aFontSelData ) { rtl::Reference pFontInstance; PhysicalFontFamily* pFontFamily = nullptr; // check if a directly matching logical font instance is already cached, // the most recently used font usually has a hit rate of >50% if (mpLastHitCacheEntry && IFSD_Equal()(aFontSelData, mpLastHitCacheEntry->GetFontSelectPattern())) pFontInstance = mpLastHitCacheEntry; else { FontInstanceList::const_iterator it = maFontInstanceList.find( aFontSelData ); if( it != maFontInstanceList.end() ) pFontInstance = (*it).second; } if( !pFontInstance ) // no direct cache hit { // find the best matching logical font family and update font selector accordingly pFontFamily = pFontList->FindFontFamily( aFontSelData ); SAL_WARN_IF( (pFontFamily == nullptr), "vcl", "ImplFontCache::Get() No logical font found!" ); if( pFontFamily ) { aFontSelData.maSearchName = pFontFamily->GetSearchName(); // check if an indirectly matching logical font instance is already cached FontInstanceList::const_iterator it = maFontInstanceList.find( aFontSelData ); if( it != maFontInstanceList.end() ) pFontInstance = (*it).second; } } if( !pFontInstance && pFontFamily) // still no cache hit => create a new font instance { PhysicalFontFace* pFontData = pFontFamily->FindBestFontFace(aFontSelData); // create a new logical font instance from this physical font face pFontInstance = pFontData->CreateFontInstance( aFontSelData ); pFontInstance->mpFontCache = this; // if we're substituting from or to a symbol font we may need a symbol // conversion table if( pFontData->IsSymbolFont() || aFontSelData.IsSymbolFont() ) { if( aFontSelData.maTargetName != aFontSelData.maSearchName ) pFontInstance->mpConversion = ConvertChar::GetRecodeData( aFontSelData.maTargetName, aFontSelData.maSearchName ); } #ifdef MACOSX //It might be better to dig out the font version of the target font //to see if it's a modern re-coded apple symbol font in case that //font shows up on a different platform if (!pFontInstance->mpConversion && aFontSelData.maTargetName.equalsIgnoreAsciiCase("symbol") && aFontSelData.maSearchName.equalsIgnoreAsciiCase("symbol")) { pFontInstance->mpConversion = ConvertChar::GetRecodeData( "Symbol", "AppleSymbol" ); } #endif static const size_t FONTCACHE_MAX = getenv("LO_TESTNAME") ? 1 : 50; if (maFontInstanceList.size() >= FONTCACHE_MAX) { struct limit_exception : public std::exception {}; try { maFontInstanceList.remove_if([this] (FontInstanceListPair const& rFontPair) { if (maFontInstanceList.size() < FONTCACHE_MAX) throw limit_exception(); LogicalFontInstance* pFontEntry = rFontPair.second.get(); if (pFontEntry->m_nCount > 1) return false; m_aBoundRectCache.remove_if([&pFontEntry] (GlyphBoundRectCachePair const& rGlyphPair) { return rGlyphPair.first.m_pFont == pFontEntry; }); if (mpLastHitCacheEntry == pFontEntry) mpLastHitCacheEntry = nullptr; return true; }); } catch (limit_exception&) {} } assert(pFontInstance); // add the new entry to the cache maFontInstanceList.insert({aFontSelData, pFontInstance.get()}); } mpLastHitCacheEntry = pFontInstance.get(); return pFontInstance; } rtl::Reference ImplFontCache::GetGlyphFallbackFont( PhysicalFontCollection const * pFontCollection, FontSelectPattern& rFontSelData, LogicalFontInstance* pFontInstance, int nFallbackLevel, OUString& rMissingCodes ) { // get a candidate font for glyph fallback // unless the previously selected font got a device specific substitution // e.g. PsPrint Arial->Helvetica for udiaeresis when Helvetica doesn't support it if( nFallbackLevel >= 1) { PhysicalFontFamily* pFallbackData = nullptr; //fdo#33898 If someone has EUDC installed then they really want that to //be used as the first-choice glyph fallback seeing as it's filled with //private area codes with don't make any sense in any other font so //prioritize it here if it's available. Ideally we would remove from //rMissingCodes all the glyphs which it is able to resolve as an //optimization, but that's tricky to achieve cross-platform without //sufficient heavy-weight code that's likely to undo the value of the //optimization if (nFallbackLevel == 1) pFallbackData = pFontCollection->FindFontFamily("EUDC"); if (!pFallbackData) pFallbackData = pFontCollection->GetGlyphFallbackFont(rFontSelData, pFontInstance, rMissingCodes, nFallbackLevel-1); // escape when there are no font candidates if( !pFallbackData ) return nullptr; // override the font name rFontSelData.SetFamilyName( pFallbackData->GetFamilyName() ); // clear the cached normalized name rFontSelData.maSearchName.clear(); } rtl::Reference pFallbackFont = GetFontInstance( pFontCollection, rFontSelData ); return pFallbackFont; } void ImplFontCache::Invalidate() { // #112304# make sure the font cache is really clean mpLastHitCacheEntry = nullptr; for (auto const & pair : maFontInstanceList) pair.second->mpFontCache = nullptr; maFontInstanceList.clear(); m_aBoundRectCache.clear(); } bool ImplFontCache::GetCachedGlyphBoundRect(const LogicalFontInstance *pFont, sal_GlyphId nID, tools::Rectangle &rRect) { if (!pFont->GetFontCache()) return false; assert(pFont->GetFontCache() == this); if (pFont->GetFontCache() != this) return false; auto it = m_aBoundRectCache.find({pFont, nID}); if (it != m_aBoundRectCache.end()) { rRect = it->second; return true; } return false; } void ImplFontCache::CacheGlyphBoundRect(const LogicalFontInstance *pFont, sal_GlyphId nID, tools::Rectangle &rRect) { if (!pFont->GetFontCache()) return; assert(pFont->GetFontCache() == this); if (pFont->GetFontCache() != this) return; m_aBoundRectCache.insert({{pFont, nID}, rRect}); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */