/* -*- 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 "quartz/ctfonts.hxx" #include "fontsubset.hxx" #include "impfont.hxx" #include "impfontcharmap.hxx" #include "impfontmetricdata.hxx" #include "CommonSalLayout.hxx" #include "outdev.h" #include "PhysicalFontCollection.hxx" #ifdef MACOSX #include "osx/salframe.h" #endif #include "quartz/utils.h" #ifdef IOS #include "saldatabasic.hxx" #endif #include "sallayout.hxx" #include "sft.hxx" using namespace vcl; class CoreTextGlyphFallbackSubstititution : public ImplGlyphFallbackFontSubstitution { public: bool FindFontSubstitute(FontSelectPattern&, OUString&) const override; }; bool CoreTextGlyphFallbackSubstititution::FindFontSubstitute(FontSelectPattern& rPattern, OUString& rMissingChars) const { bool bFound = false; CoreTextStyle rStyle(rPattern); CTFontRef pFont = static_cast(CFDictionaryGetValue(rStyle.GetStyleDict(), kCTFontAttributeName)); CFStringRef pStr = CreateCFString(rMissingChars); if (pStr) { CTFontRef pFallback = CTFontCreateForString(pFont, pStr, CFRangeMake(0, CFStringGetLength(pStr))); if (pFallback) { bFound = true; CTFontDescriptorRef pDesc = CTFontCopyFontDescriptor(pFallback); FontAttributes rAttr = DevFontFromCTFontDescriptor(pDesc, nullptr); rPattern.maSearchName = rAttr.GetFamilyName(); rPattern.SetWeight(rAttr.GetWeight()); rPattern.SetItalic(rAttr.GetItalic()); rPattern.SetPitch(rAttr.GetPitch()); rPattern.SetWidthType(rAttr.GetWidthType()); SalData* pSalData = GetSalData(); if (pSalData->mpFontList) rPattern.mpFontData = pSalData->mpFontList->GetFontDataFromId(reinterpret_cast(pDesc)); CFRelease(pFallback); CFRelease(pDesc); } CFRelease(pStr); } return bFound; } CoreTextFontFace::CoreTextFontFace( const CoreTextFontFace& rSrc ) : PhysicalFontFace( rSrc ) , mnFontId( rSrc.mnFontId ) { if( rSrc.mxCharMap.is() ) mxCharMap = rSrc.mxCharMap; } CoreTextFontFace::CoreTextFontFace( const FontAttributes& rDFA, sal_IntPtr nFontId ) : PhysicalFontFace( rDFA ) , mnFontId( nFontId ) , mbFontCapabilitiesRead( false ) { } CoreTextFontFace::~CoreTextFontFace() { } sal_IntPtr CoreTextFontFace::GetFontId() const { return (sal_IntPtr)mnFontId; } const FontCharMapRef CoreTextFontFace::GetFontCharMap() const { // return the cached charmap if( mxCharMap.is() ) return mxCharMap; // set the default charmap FontCharMapRef pCharMap( new FontCharMap() ); mxCharMap = pCharMap; // get the CMAP byte size // allocate a buffer for the CMAP raw data const int nBufSize = GetFontTable( "cmap", nullptr ); SAL_WARN_IF( (nBufSize <= 0), "vcl", "CoreTextFontFace::GetFontCharMap : GetFontTable1 failed!"); if( nBufSize <= 0 ) return mxCharMap; // get the CMAP raw data std::vector aBuffer( nBufSize ); const int nRawLength = GetFontTable( "cmap", &aBuffer[0] ); SAL_WARN_IF( (nRawLength <= 0), "vcl", "CoreTextFontFace::GetFontCharMap : GetFontTable2 failed!"); if( nRawLength <= 0 ) return mxCharMap; SAL_WARN_IF( (nBufSize!=nRawLength), "vcl", "CoreTextFontFace::GetFontCharMap : ByteCount mismatch!"); // parse the CMAP CmapResult aCmapResult; if( ParseCMAP( &aBuffer[0], nRawLength, aCmapResult ) ) { FontCharMapRef xDefFontCharMap( new FontCharMap(aCmapResult) ); // create the matching charmap mxCharMap = xDefFontCharMap; } return mxCharMap; } bool CoreTextFontFace::GetFontCapabilities(vcl::FontCapabilities &rFontCapabilities) const { // read this only once per font if( mbFontCapabilitiesRead ) { rFontCapabilities = maFontCapabilities; return rFontCapabilities.oUnicodeRange || rFontCapabilities.oCodePageRange; } mbFontCapabilitiesRead = true; int nBufSize = GetFontTable( "OS/2", nullptr ); if( nBufSize > 0 ) { // allocate a buffer for the OS/2 raw data std::vector aBuffer( nBufSize ); // get the OS/2 raw data const int nRawLength = GetFontTable( "OS/2", &aBuffer[0] ); if( nRawLength > 0 ) { const unsigned char* pOS2Table = &aBuffer[0]; vcl::getTTCoverage( maFontCapabilities.oUnicodeRange, maFontCapabilities.oCodePageRange, pOS2Table, nRawLength); } } rFontCapabilities = maFontCapabilities; return rFontCapabilities.oUnicodeRange || rFontCapabilities.oCodePageRange; } AquaSalGraphics::AquaSalGraphics() : mxLayer( nullptr ) , mrContext( nullptr ) #ifdef MACOSX , mpFrame( nullptr ) #endif #if OSL_DEBUG_LEVEL > 0 , mnContextStackDepth( 0 ) #endif , mpXorEmulation( nullptr ) , mnXorMode( 0 ) , mnWidth( 0 ) , mnHeight( 0 ) , mnBitmapDepth( 0 ) , mnRealDPIX( 0 ) , mnRealDPIY( 0 ) , mxClipPath( nullptr ) , maLineColor( COL_WHITE ) , maFillColor( COL_BLACK ) , maTextColor( COL_BLACK ) , mbNonAntialiasedText( false ) , mbPrinter( false ) , mbVirDev( false ) #ifdef MACOSX , mbWindow( false ) #else , mbForeignContext( false ) #endif { SAL_INFO( "vcl.quartz", "AquaSalGraphics::AquaSalGraphics() this=" << this ); for (int i = 0; i < MAX_FALLBACK; ++i) { mpTextStyle[i] = nullptr; mpFontData[i] = nullptr; } } AquaSalGraphics::~AquaSalGraphics() { SAL_INFO( "vcl.quartz", "AquaSalGraphics::~AquaSalGraphics() this=" << this ); if( mxClipPath ) { SAL_INFO("vcl.cg", "CGPathRelease(" << mxClipPath << ")" ); CGPathRelease( mxClipPath ); } for (int i = 0; i < MAX_FALLBACK; ++i) delete mpTextStyle[i]; if( mpXorEmulation ) delete mpXorEmulation; #ifdef IOS if (mbForeignContext) return; #endif if( mxLayer ) { SAL_INFO("vcl.cg", "CGLayerRelease(" << mxLayer << ")" ); CGLayerRelease( mxLayer ); } else if( mrContext #ifdef MACOSX && mbWindow #endif ) { // destroy backbuffer bitmap context that we created ourself SAL_INFO("vcl.cg", "CGContextRelease(" << mrContext << ")" ); CGContextRelease( mrContext ); mrContext = nullptr; } } SalGraphicsImpl* AquaSalGraphics::GetImpl() const { return nullptr; } void AquaSalGraphics::SetTextColor( SalColor nSalColor ) { maTextColor = RGBAColor( nSalColor ); // SAL_ DEBUG(std::hex << nSalColor << std::dec << "={" << maTextColor.GetRed() << ", " << maTextColor.GetGreen() << ", " << maTextColor.GetBlue() << ", " << maTextColor.GetAlpha() << "}"); } void AquaSalGraphics::GetFontMetric(ImplFontMetricDataRef& rxFontMetric, int nFallbackLevel) { if (nFallbackLevel < MAX_FALLBACK && mpTextStyle[nFallbackLevel]) { mpTextStyle[nFallbackLevel]->GetFontMetric(rxFontMetric); } } static bool AddTempDevFont(const OUString& rFontFileURL) { OUString aUSytemPath; OSL_VERIFY( !osl::FileBase::getSystemPathFromFileURL( rFontFileURL, aUSytemPath ) ); OString aCFileName = OUStringToOString( aUSytemPath, RTL_TEXTENCODING_UTF8 ); CFStringRef rFontPath = CFStringCreateWithCString(nullptr, aCFileName.getStr(), kCFStringEncodingUTF8); CFURLRef rFontURL = CFURLCreateWithFileSystemPath(nullptr, rFontPath, kCFURLPOSIXPathStyle, true); CFErrorRef error; bool success = CTFontManagerRegisterFontsForURL(rFontURL, kCTFontManagerScopeProcess, &error); if (!success) { CFRelease(error); } CFRelease(rFontPath); CFRelease(rFontURL); return success; } static void AddTempFontDir( const OUString &rFontDirUrl ) { osl::Directory aFontDir( rFontDirUrl ); 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(aFileStatus.getFileURL()); } } } } static void AddLocalTempFontDirs() { static bool bFirst = true; if( !bFirst ) return; bFirst = false; // add private font files OUString aBrandStr( "$BRAND_BASE_DIR" ); rtl_bootstrap_expandMacros( &aBrandStr.pData ); AddTempFontDir( aBrandStr + "/" LIBO_SHARE_FOLDER "/fonts/truetype/" ); } void AquaSalGraphics::GetDevFontList( PhysicalFontCollection* pFontCollection ) { SAL_WARN_IF( !pFontCollection, "vcl", "AquaSalGraphics::GetDevFontList(NULL) !"); AddLocalTempFontDirs(); // The idea is to cache the list of system fonts once it has been generated. // SalData seems to be a good place for this caching. However we have to // carefully make the access to the font list thread-safe. If we register // a font-change event handler to update the font list in case fonts have // changed on the system we have to lock access to the list. The right // way to do that is the solar mutex since GetDevFontList is protected // through it as should be all event handlers SalData* pSalData = GetSalData(); if( !pSalData->mpFontList ) pSalData->mpFontList = GetCoretextFontList(); // Copy all PhysicalFontFace objects contained in the SystemFontList pSalData->mpFontList->AnnounceFonts( *pFontCollection ); static CoreTextGlyphFallbackSubstititution aSubstFallback; pFontCollection->SetFallbackHook(&aSubstFallback); } void AquaSalGraphics::ClearDevFontCache() { SalData* pSalData = GetSalData(); delete pSalData->mpFontList; pSalData->mpFontList = nullptr; } bool AquaSalGraphics::AddTempDevFont( PhysicalFontCollection*, const OUString& rFontFileURL, const OUString& /*rFontName*/ ) { return ::AddTempDevFont(rFontFileURL); } bool AquaSalGraphics::GetGlyphOutline(const GlyphItem& rGlyph, basegfx::B2DPolyPolygon& rPolyPoly) { const int nFallbackLevel = rGlyph.mnFallbackLevel; if (nFallbackLevel < MAX_FALLBACK && mpTextStyle[nFallbackLevel]) { const bool bRC = mpTextStyle[nFallbackLevel]->GetGlyphOutline(rGlyph, rPolyPoly); return bRC; } return false; } bool AquaSalGraphics::GetGlyphBoundRect(const GlyphItem& rGlyph, tools::Rectangle& rRect ) { const int nFallbackLevel = rGlyph.mnFallbackLevel; if (nFallbackLevel < MAX_FALLBACK && mpTextStyle[nFallbackLevel]) { const bool bRC = mpTextStyle[nFallbackLevel]->GetGlyphBoundRect(rGlyph, rRect); return bRC; } return false; } void AquaSalGraphics::DrawTextLayout(const CommonSalLayout& rLayout) { const CoreTextStyle& rStyle = rLayout.getFontData(); const FontSelectPattern& rFontSelect = rStyle.maFontSelData; if (rFontSelect.mnHeight == 0) return; CTFontRef pFont = static_cast(CFDictionaryGetValue(rStyle.GetStyleDict(), kCTFontAttributeName)); CGAffineTransform aRotMatrix = CGAffineTransformMakeRotation(-rStyle.mfFontRotation); Point aPos; const GlyphItem* pGlyph; std::vector aGlyphIds; std::vector aGlyphPos; std::vector aGlyphOrientation; int nStart = 0; while (rLayout.GetNextGlyphs(1, &pGlyph, aPos, nStart)) { CGPoint aGCPos = CGPointMake(aPos.X(), -aPos.Y()); // Whether the glyph should be upright in vertical mode or not bool bUprightGlyph = false; if (rStyle.mfFontRotation) { if (pGlyph->IsVertical()) { bUprightGlyph = true; // Adjust the position of upright (vertical) glyphs. aGCPos.y -= CTFontGetAscent(pFont) - CTFontGetDescent(pFont); } else { // Transform the position of rotated glyphs. aGCPos = CGPointApplyAffineTransform(aGCPos, aRotMatrix); } } aGlyphIds.push_back(pGlyph->maGlyphId); aGlyphPos.push_back(aGCPos); aGlyphOrientation.push_back(bUprightGlyph); } if (aGlyphIds.empty()) return; CGContextSaveGState(mrContext); // The view is vertically flipped (no idea why), flip it back. CGContextScaleCTM(mrContext, 1.0, -1.0); CGContextSetShouldAntialias(mrContext, !mbNonAntialiasedText); CGContextSetFillColor(mrContext, maTextColor.AsArray()); auto aIt = aGlyphOrientation.cbegin(); while (aIt != aGlyphOrientation.cend()) { bool bUprightGlyph = *aIt; // Find the boundary of the run of glyphs with the same rotation, to be // drawn together. auto aNext = std::find(aIt, aGlyphOrientation.cend(), !bUprightGlyph); size_t nStartIndex = std::distance(aGlyphOrientation.cbegin(), aIt); size_t nLen = std::distance(aIt, aNext); CGContextSaveGState(mrContext); if (rStyle.mfFontRotation && !bUprightGlyph) CGContextRotateCTM(mrContext, rStyle.mfFontRotation); CTFontDrawGlyphs(pFont, &aGlyphIds[nStartIndex], &aGlyphPos[nStartIndex], nLen, mrContext); CGContextRestoreGState(mrContext); aIt = aNext; } CGContextRestoreGState(mrContext); } void AquaSalGraphics::SetFont(FontSelectPattern* pReqFont, int nFallbackLevel) { // release the text style for (int i = nFallbackLevel; i < MAX_FALLBACK; ++i) { delete mpTextStyle[i]; mpTextStyle[i] = nullptr; } // handle NULL request meaning: release-font-resources request if( !pReqFont ) { mpFontData[nFallbackLevel] = nullptr; return; } // update the text style mpFontData[nFallbackLevel] = static_cast(pReqFont->mpFontData); mpTextStyle[nFallbackLevel] = new CoreTextStyle(*pReqFont); SAL_INFO("vcl.ct", "SetFont" " to " << mpFontData[nFallbackLevel]->GetFamilyName() << ", " << mpFontData[nFallbackLevel]->GetStyleName() << " fontid=" << mpFontData[nFallbackLevel]->GetFontId() << " for " << pReqFont->GetFamilyName() << ", " << pReqFont->GetStyleName() << " weight=" << pReqFont->GetWeight() << " slant=" << pReqFont->GetItalic() << " size=" << pReqFont->mnHeight << "x" << pReqFont->mnWidth << " orientation=" << pReqFont->mnOrientation << " fallback level " << nFallbackLevel ); } SalLayout* AquaSalGraphics::GetTextLayout(ImplLayoutArgs& /*rArgs*/, int nFallbackLevel) { if (mpTextStyle[nFallbackLevel]) return new CommonSalLayout(*mpTextStyle[nFallbackLevel]); return nullptr; } const FontCharMapRef AquaSalGraphics::GetFontCharMap() const { if (!mpFontData[0]) { FontCharMapRef xFontCharMap( new FontCharMap() ); return xFontCharMap; } return mpFontData[0]->GetFontCharMap(); } bool AquaSalGraphics::GetFontCapabilities(vcl::FontCapabilities &rFontCapabilities) const { if (!mpFontData[0]) return false; return mpFontData[0]->GetFontCapabilities(rFontCapabilities); } // fake a SFNT font directory entry for a font table // see http://developer.apple.com/fonts/TTRefMan/RM06/Chap6.html#Directory static void FakeDirEntry( const char aTag[5], ByteCount nOfs, ByteCount nLen, const unsigned char* /*pData*/, unsigned char*& rpDest ) { // write entry tag rpDest[ 0] = aTag[0]; rpDest[ 1] = aTag[1]; rpDest[ 2] = aTag[2]; rpDest[ 3] = aTag[3]; // TODO: get entry checksum and write it // not too important since the subsetter doesn't care currently // for( pData+nOfs ... pData+nOfs+nLen ) // write entry offset rpDest[ 8] = (char)(nOfs >> 24); rpDest[ 9] = (char)(nOfs >> 16); rpDest[10] = (char)(nOfs >> 8); rpDest[11] = (char)(nOfs >> 0); // write entry length rpDest[12] = (char)(nLen >> 24); rpDest[13] = (char)(nLen >> 16); rpDest[14] = (char)(nLen >> 8); rpDest[15] = (char)(nLen >> 0); // advance to next entry rpDest += 16; } // fake a TTF or CFF font as directly accessing font file is not possible // when only the fontid is known. This approach also handles *.font fonts. bool AquaSalGraphics::GetRawFontData( const PhysicalFontFace* pFontData, std::vector& rBuffer, bool* pJustCFF ) { const CoreTextFontFace* pMacFont = static_cast(pFontData); // short circuit for CFF-only fonts const int nCffSize = pMacFont->GetFontTable( "CFF ", nullptr); if( pJustCFF != nullptr ) { *pJustCFF = (nCffSize > 0); if( *pJustCFF) { rBuffer.resize( nCffSize); const int nCffRead = pMacFont->GetFontTable( "CFF ", &rBuffer[0]); if( nCffRead != nCffSize) { return false; } return true; } } // get font table availability and size in bytes const int nHeadSize = pMacFont->GetFontTable( "head", nullptr); if( nHeadSize <= 0) return false; const int nMaxpSize = pMacFont->GetFontTable( "maxp", nullptr); if( nMaxpSize <= 0) return false; const int nCmapSize = pMacFont->GetFontTable( "cmap", nullptr); if( nCmapSize <= 0) return false; const int nNameSize = pMacFont->GetFontTable( "name", nullptr); if( nNameSize <= 0) return false; const int nHheaSize = pMacFont->GetFontTable( "hhea", nullptr); if( nHheaSize <= 0) return false; const int nHmtxSize = pMacFont->GetFontTable( "hmtx", nullptr); if( nHmtxSize <= 0) return false; // get the ttf-glyf outline tables int nLocaSize = 0; int nGlyfSize = 0; if( nCffSize <= 0) { nLocaSize = pMacFont->GetFontTable( "loca", nullptr); if( nLocaSize <= 0) return false; nGlyfSize = pMacFont->GetFontTable( "glyf", nullptr); if( nGlyfSize <= 0) return false; } int nPrepSize = 0, nCvtSize = 0, nFpgmSize = 0; if( nGlyfSize) // TODO: reduce PDF size by making hint subsetting optional { nPrepSize = pMacFont->GetFontTable( "prep", nullptr); nCvtSize = pMacFont->GetFontTable( "cvt ", nullptr); nFpgmSize = pMacFont->GetFontTable( "fpgm", nullptr); } // prepare a byte buffer for a fake font int nTableCount = 7; nTableCount += (nPrepSize>0?1:0) + (nCvtSize>0?1:0) + (nFpgmSize>0?1:0) + (nGlyfSize>0?1:0); const ByteCount nFdirSize = 12 + 16*nTableCount; ByteCount nTotalSize = nFdirSize; nTotalSize += nHeadSize + nMaxpSize + nNameSize + nCmapSize; if( nGlyfSize ) { nTotalSize += nLocaSize + nGlyfSize; } else { nTotalSize += nCffSize; } nTotalSize += nHheaSize + nHmtxSize; nTotalSize += nPrepSize + nCvtSize + nFpgmSize; rBuffer.resize( nTotalSize ); // fake a SFNT font directory header if( nTableCount < 16 ) { int nLog2 = 0; while( (nTableCount >> nLog2) > 1 ) ++nLog2; rBuffer[ 1] = 1; // Win-TTF style scaler rBuffer[ 5] = nTableCount; // table count rBuffer[ 7] = nLog2*16; // searchRange rBuffer[ 9] = nLog2; // entrySelector rBuffer[11] = (nTableCount-nLog2)*16; // rangeShift } // get font table raw data and update the fake directory entries ByteCount nOfs = nFdirSize; unsigned char* pFakeEntry = &rBuffer[12]; if( nCmapSize != pMacFont->GetFontTable( "cmap", &rBuffer[nOfs])) return false; FakeDirEntry( "cmap", nOfs, nCmapSize, &rBuffer[0], pFakeEntry ); nOfs += nCmapSize; if( nCvtSize ) { if( nCvtSize != pMacFont->GetFontTable( "cvt ", &rBuffer[nOfs])) return false; FakeDirEntry( "cvt ", nOfs, nCvtSize, &rBuffer[0], pFakeEntry ); nOfs += nCvtSize; } if( nFpgmSize ) { if( nFpgmSize != pMacFont->GetFontTable( "fpgm", &rBuffer[nOfs])) return false; FakeDirEntry( "fpgm", nOfs, nFpgmSize, &rBuffer[0], pFakeEntry ); nOfs += nFpgmSize; } if( nCffSize ) { if( nCffSize != pMacFont->GetFontTable( "CFF ", &rBuffer[nOfs])) return false; FakeDirEntry( "CFF ", nOfs, nCffSize, &rBuffer[0], pFakeEntry ); nOfs += nGlyfSize; } else { if( nGlyfSize != pMacFont->GetFontTable( "glyf", &rBuffer[nOfs])) return false; FakeDirEntry( "glyf", nOfs, nGlyfSize, &rBuffer[0], pFakeEntry ); nOfs += nGlyfSize; if( nLocaSize != pMacFont->GetFontTable( "loca", &rBuffer[nOfs])) return false; FakeDirEntry( "loca", nOfs, nLocaSize, &rBuffer[0], pFakeEntry ); nOfs += nLocaSize; } if( nHeadSize != pMacFont->GetFontTable( "head", &rBuffer[nOfs])) return false; FakeDirEntry( "head", nOfs, nHeadSize, &rBuffer[0], pFakeEntry ); nOfs += nHeadSize; if( nHheaSize != pMacFont->GetFontTable( "hhea", &rBuffer[nOfs])) return false; FakeDirEntry( "hhea", nOfs, nHheaSize, &rBuffer[0], pFakeEntry ); nOfs += nHheaSize; if( nHmtxSize != pMacFont->GetFontTable( "hmtx", &rBuffer[nOfs])) return false; FakeDirEntry( "hmtx", nOfs, nHmtxSize, &rBuffer[0], pFakeEntry ); nOfs += nHmtxSize; if( nMaxpSize != pMacFont->GetFontTable( "maxp", &rBuffer[nOfs])) return false; FakeDirEntry( "maxp", nOfs, nMaxpSize, &rBuffer[0], pFakeEntry ); nOfs += nMaxpSize; if( nNameSize != pMacFont->GetFontTable( "name", &rBuffer[nOfs])) return false; FakeDirEntry( "name", nOfs, nNameSize, &rBuffer[0], pFakeEntry ); nOfs += nNameSize; if( nPrepSize ) { if( nPrepSize != pMacFont->GetFontTable( "prep", &rBuffer[nOfs])) return false; FakeDirEntry( "prep", nOfs, nPrepSize, &rBuffer[0], pFakeEntry ); nOfs += nPrepSize; } SAL_WARN_IF( (nOfs!=nTotalSize), "vcl", "AquaSalGraphics::CreateFontSubset (nOfs!=nTotalSize)"); return true; } void AquaSalGraphics::GetGlyphWidths( const PhysicalFontFace* pFontData, bool bVertical, std::vector< sal_Int32 >& rGlyphWidths, Ucs2UIntMap& rUnicodeEnc ) { rGlyphWidths.clear(); rUnicodeEnc.clear(); std::vector aBuffer; if( !GetRawFontData( pFontData, aBuffer, nullptr ) ) return; // TODO: modernize psprint's horrible fontsubset C-API // this probably only makes sense after the switch to another SCM // that can preserve change history after file renames // use the font subsetter to get the widths TrueTypeFont* pSftFont = nullptr; int nRC = ::OpenTTFontBuffer( static_cast(&aBuffer[0]), aBuffer.size(), 0, &pSftFont); if( nRC != SF_OK ) return; const int nGlyphCount = ::GetTTGlyphCount( pSftFont ); if( nGlyphCount > 0 ) { // get glyph metrics rGlyphWidths.resize(nGlyphCount); std::vector aGlyphIds(nGlyphCount); for( int i = 0; i < nGlyphCount; i++ ) { aGlyphIds[i] = static_cast(i); } const TTSimpleGlyphMetrics* pGlyphMetrics = ::GetTTSimpleGlyphMetrics( pSftFont, &aGlyphIds[0], nGlyphCount, bVertical ); if( pGlyphMetrics ) { for( int i = 0; i < nGlyphCount; ++i ) { rGlyphWidths[i] = pGlyphMetrics[i].adv; } free( const_cast(pGlyphMetrics) ); } CoreTextFontFace rCTFontData(*pFontData, pFontData->GetFontId()); FontCharMapRef xFCMap = rCTFontData.GetFontCharMap(); SAL_WARN_IF( !xFCMap.is() || !xFCMap->GetCharCount(), "vcl", "no charmap" ); // get unicode<->glyph encoding // TODO? avoid sft mapping by using the xFCMap itself int nCharCount = xFCMap->GetCharCount(); sal_uInt32 nChar = xFCMap->GetFirstChar(); for( ; --nCharCount >= 0; nChar = xFCMap->GetNextChar( nChar ) ) { if( nChar > 0xFFFF ) // TODO: allow UTF-32 chars break; sal_Ucs nUcsChar = static_cast(nChar); sal_uInt32 nGlyph = ::MapChar( pSftFont, nUcsChar ); if( nGlyph > 0 ) { rUnicodeEnc[ nUcsChar ] = nGlyph; } } xFCMap = nullptr; } ::CloseTTFont( pSftFont ); } const void* AquaSalGraphics::GetEmbedFontData(const PhysicalFontFace*, long* /*pDataLen*/) { return nullptr; } void AquaSalGraphics::FreeEmbedFontData( const void* pData, long /*nDataLen*/ ) { // TODO: implementing this only makes sense when the implementation of // AquaSalGraphics::GetEmbedFontData() returns non-NULL SAL_WARN_IF( (pData==nullptr), "vcl", "AquaSalGraphics::FreeEmbedFontData() is not implemented"); } bool AquaSalGraphics::IsFlipped() const { #ifdef MACOSX return mbWindow; #else return false; #endif } void AquaSalGraphics::RefreshRect(float lX, float lY, float lWidth, float lHeight) { #ifdef MACOSX if( ! mbWindow ) // view only on Window graphics return; if( mpFrame ) { // update a little more around the designated rectangle // this helps with antialiased rendering // Rounding down x and width can accumulate a rounding error of up to 2 // The decrementing of x, the rounding error and the antialiasing border // require that the width and the height need to be increased by four const tools::Rectangle aVclRect(Point(static_cast(lX-1), static_cast(lY-1) ), Size( static_cast(lWidth+4), static_cast(lHeight+4) ) ); mpFrame->maInvalidRect.Union( aVclRect ); } #else (void) lX; (void) lY; (void) lWidth; (void) lHeight; return; #endif } #ifdef IOS bool AquaSalGraphics::CheckContext() { if (mbForeignContext) { SAL_INFO("vcl.ios", "CheckContext() this=" << this << ", mbForeignContext, return true"); return true; } SAL_INFO( "vcl.ios", "CheckContext() this=" << this << ", not foreign, return false"); return false; } CGContextRef AquaSalGraphics::GetContext() { if ( !mrContext ) CheckContext(); return mrContext; } #endif /* vim:set shiftwidth=4 softtabstop=4 expandtab: */