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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* 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/config.h>
#include <sal/log.hxx>
#include <basegfx/polygon/b2dpolygon.hxx>
#include <basegfx/matrix/b2dhommatrix.hxx>
#include <vcl/settings.hxx>
#include <quartz/ctfonts.hxx>
#include <impfont.hxx>
#ifdef MACOSX
#include <osx/saldata.hxx>
#include <osx/salinst.h>
#endif
#include <fontinstance.hxx>
#include <fontattributes.hxx>
#include <impglyphitem.hxx>
#include <PhysicalFontCollection.hxx>
#include <quartz/salgdi.h>
#include <quartz/utils.h>
#include <sallayout.hxx>
#include <hb-coretext.h>
static double toRadian(int nDegree)
{
return nDegree * (M_PI / 1800.0);
}
CoreTextStyle::CoreTextStyle(const PhysicalFontFace& rPFF, const FontSelectPattern& rFSP)
: LogicalFontInstance(rPFF, rFSP)
, mfFontStretch( 1.0 )
, mfFontRotation( 0.0 )
, mbFauxBold(false)
, mpStyleDict( nullptr )
{
double fScaledFontHeight = rFSP.mfExactHeight;
// convert font rotation to radian
mfFontRotation = toRadian(rFSP.mnOrientation);
// dummy matrix so we can use CGAffineTransformConcat() below
CGAffineTransform aMatrix = CGAffineTransformMakeTranslation(0, 0);
// handle font stretching if any
if( (rFSP.mnWidth != 0) && (rFSP.mnWidth != rFSP.mnHeight) )
{
mfFontStretch = float(rFSP.mnWidth) / rFSP.mnHeight;
aMatrix = CGAffineTransformConcat(aMatrix, CGAffineTransformMakeScale(mfFontStretch, 1.0F));
}
// create the style object for CoreText font attributes
static const CFIndex nMaxDictSize = 16; // TODO: does this really suffice?
mpStyleDict = CFDictionaryCreateMutable( nullptr, nMaxDictSize,
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks );
CFBooleanRef pCFVertBool = rFSP.mbVertical ? kCFBooleanTrue : kCFBooleanFalse;
CFDictionarySetValue( mpStyleDict, kCTVerticalFormsAttributeName, pCFVertBool );
// fake bold
if ( (rFSP.GetWeight() >= WEIGHT_BOLD) &&
((rPFF.GetWeight() < WEIGHT_SEMIBOLD) &&
(rPFF.GetWeight() != WEIGHT_DONTKNOW)) )
{
mbFauxBold = true;
}
// fake italic
if (((rFSP.GetItalic() == ITALIC_NORMAL) ||
(rFSP.GetItalic() == ITALIC_OBLIQUE)) &&
(rPFF.GetItalic() == ITALIC_NONE))
{
aMatrix = CGAffineTransformConcat(aMatrix, CGAffineTransformMake(1, 0, toRadian(120), 1, 0, 0));
}
CTFontDescriptorRef pFontDesc = reinterpret_cast<CTFontDescriptorRef>(rPFF.GetFontId());
CTFontRef pNewCTFont = CTFontCreateWithFontDescriptor( pFontDesc, fScaledFontHeight, &aMatrix );
CFDictionarySetValue( mpStyleDict, kCTFontAttributeName, pNewCTFont );
CFRelease( pNewCTFont);
}
CoreTextStyle::~CoreTextStyle()
{
if( mpStyleDict )
CFRelease( mpStyleDict );
}
void CoreTextStyle::GetFontMetric( ImplFontMetricDataRef const & rxFontMetric )
{
// get the matching CoreText font handle
// TODO: is it worth it to cache the CTFontRef in SetFont() and reuse it here?
CTFontRef aCTFontRef = static_cast<CTFontRef>(CFDictionaryGetValue( mpStyleDict, kCTFontAttributeName ));
const CoreTextFontFace* mpFontData = static_cast<const CoreTextFontFace*>(GetFontFace());
int nBufSize = 0;
nBufSize = mpFontData->GetFontTable("hhea", nullptr);
uint8_t* pHheaBuf = new uint8_t[nBufSize];
nBufSize = mpFontData->GetFontTable("hhea", pHheaBuf);
std::vector<uint8_t> rHhea(pHheaBuf, pHheaBuf + nBufSize);
nBufSize = mpFontData->GetFontTable("OS/2", nullptr);
uint8_t* pOS2Buf = new uint8_t[nBufSize];
nBufSize = mpFontData->GetFontTable("OS/2", pOS2Buf);
std::vector<uint8_t> rOS2(pOS2Buf, pOS2Buf + nBufSize);
rxFontMetric->ImplCalcLineSpacing(rHhea, rOS2, CTFontGetUnitsPerEm(aCTFontRef));
delete[] pHheaBuf;
delete[] pOS2Buf;
// since ImplFontMetricData::mnWidth is only used for stretching/squeezing fonts
// setting this width to the pixel height of the fontsize is good enough
// it also makes the calculation of the stretch factor simple
rxFontMetric->SetWidth( lrint( CTFontGetSize( aCTFontRef ) * mfFontStretch) );
rxFontMetric->SetMinKashida(GetKashidaWidth());
}
bool CoreTextStyle::ImplGetGlyphBoundRect(sal_GlyphId nId, tools::Rectangle& rRect, bool bVertical) const
{
CGGlyph nCGGlyph = nId;
CTFontRef aCTFontRef = static_cast<CTFontRef>(CFDictionaryGetValue( mpStyleDict, kCTFontAttributeName ));
SAL_WNODEPRECATED_DECLARATIONS_PUSH //TODO: 10.11 kCTFontDefaultOrientation
const CTFontOrientation aFontOrientation = kCTFontDefaultOrientation; // TODO: horz/vert
SAL_WNODEPRECATED_DECLARATIONS_POP
CGRect aCGRect = CTFontGetBoundingRectsForGlyphs(aCTFontRef, aFontOrientation, &nCGGlyph, nullptr, 1);
// Apply font rotation to non-vertical glyphs.
if (mfFontRotation && !bVertical)
aCGRect = CGRectApplyAffineTransform(aCGRect, CGAffineTransformMakeRotation(mfFontRotation));
long xMin = floor(aCGRect.origin.x);
long yMin = floor(aCGRect.origin.y);
long xMax = ceil(aCGRect.origin.x + aCGRect.size.width);
long yMax = ceil(aCGRect.origin.y + aCGRect.size.height);
rRect = tools::Rectangle(xMin, -yMax, xMax, -yMin);
return true;
}
// callbacks from CTFontCreatePathForGlyph+CGPathApply for GetGlyphOutline()
struct GgoData { basegfx::B2DPolygon maPolygon; basegfx::B2DPolyPolygon* mpPolyPoly; };
static void MyCGPathApplierFunc( void* pData, const CGPathElement* pElement )
{
basegfx::B2DPolygon& rPolygon = static_cast<GgoData*>(pData)->maPolygon;
const int nPointCount = rPolygon.count();
switch( pElement->type )
{
case kCGPathElementCloseSubpath:
case kCGPathElementMoveToPoint:
if( nPointCount > 0 )
{
static_cast<GgoData*>(pData)->mpPolyPoly->append( rPolygon );
rPolygon.clear();
}
// fall through for kCGPathElementMoveToPoint:
if( pElement->type != kCGPathElementMoveToPoint )
{
break;
}
[[fallthrough]];
case kCGPathElementAddLineToPoint:
rPolygon.append( basegfx::B2DPoint( +pElement->points[0].x, -pElement->points[0].y ) );
break;
case kCGPathElementAddCurveToPoint:
rPolygon.append( basegfx::B2DPoint( +pElement->points[2].x, -pElement->points[2].y ) );
rPolygon.setNextControlPoint( nPointCount - 1,
basegfx::B2DPoint( pElement->points[0].x,
-pElement->points[0].y ) );
rPolygon.setPrevControlPoint( nPointCount + 0,
basegfx::B2DPoint( pElement->points[1].x,
-pElement->points[1].y ) );
break;
case kCGPathElementAddQuadCurveToPoint:
{
const basegfx::B2DPoint aStartPt = rPolygon.getB2DPoint( nPointCount-1 );
const basegfx::B2DPoint aCtrPt1( (aStartPt.getX() + 2 * pElement->points[0].x) / 3.0,
(aStartPt.getY() - 2 * pElement->points[0].y) / 3.0 );
const basegfx::B2DPoint aCtrPt2( (+2 * pElement->points[0].x + pElement->points[1].x) / 3.0,
(-2 * pElement->points[0].y - pElement->points[1].y) / 3.0 );
rPolygon.append( basegfx::B2DPoint( +pElement->points[1].x, -pElement->points[1].y ) );
rPolygon.setNextControlPoint( nPointCount-1, aCtrPt1 );
rPolygon.setPrevControlPoint( nPointCount+0, aCtrPt2 );
}
break;
}
}
bool CoreTextStyle::GetGlyphOutline(sal_GlyphId nId, basegfx::B2DPolyPolygon& rResult, bool) const
{
rResult.clear();
CGGlyph nCGGlyph = nId;
CTFontRef pCTFont = static_cast<CTFontRef>(CFDictionaryGetValue( mpStyleDict, kCTFontAttributeName ));
SAL_WNODEPRECATED_DECLARATIONS_PUSH
const CTFontOrientation aFontOrientation = kCTFontDefaultOrientation;
SAL_WNODEPRECATED_DECLARATIONS_POP
CGRect aCGRect = CTFontGetBoundingRectsForGlyphs(pCTFont, aFontOrientation, &nCGGlyph, nullptr, 1);
if (!CGRectIsNull(aCGRect) && CGRectIsEmpty(aCGRect))
{
// CTFontCreatePathForGlyph returns NULL for blank glyphs, but we want
// to return true for them.
return true;
}
CGPathRef xPath = CTFontCreatePathForGlyph( pCTFont, nCGGlyph, nullptr );
if (!xPath)
{
return false;
}
GgoData aGgoData;
aGgoData.mpPolyPoly = &rResult;
CGPathApply( xPath, static_cast<void*>(&aGgoData), MyCGPathApplierFunc );
#if 0 // TODO: does OSX ensure that the last polygon is always closed?
const CGPathElement aClosingElement = { kCGPathElementCloseSubpath, NULL };
MyCGPathApplierFunc( (void*)&aGgoData, &aClosingElement );
#endif
CFRelease( xPath );
return true;
}
static hb_blob_t* getFontTable(hb_face_t* /*face*/, hb_tag_t nTableTag, void* pUserData)
{
sal_uLong nLength = 0;
unsigned char* pBuffer = nullptr;
CoreTextFontFace* pFont = static_cast<CoreTextFontFace*>(pUserData);
nLength = pFont->GetFontTable(nTableTag, nullptr);
if (nLength > 0)
{
pBuffer = new unsigned char[nLength];
pFont->GetFontTable(nTableTag, pBuffer);
}
hb_blob_t* pBlob = nullptr;
if (pBuffer != nullptr)
pBlob = hb_blob_create(reinterpret_cast<const char*>(pBuffer), nLength, HB_MEMORY_MODE_READONLY,
pBuffer, [](void* data){ delete[] static_cast<unsigned char*>(data); });
return pBlob;
}
hb_font_t* CoreTextStyle::ImplInitHbFont()
{
hb_face_t* pHbFace = hb_face_create_for_tables(getFontTable, const_cast<PhysicalFontFace*>(GetFontFace()), nullptr);
return InitHbFont(pHbFace);
}
rtl::Reference<LogicalFontInstance> CoreTextFontFace::CreateFontInstance(const FontSelectPattern& rFSD) const
{
return new CoreTextStyle(*this, rFSD);
}
int CoreTextFontFace::GetFontTable( const char pTagName[5], unsigned char* pResultBuf ) const
{
SAL_WARN_IF( pTagName[4]!='\0', "vcl", "CoreTextFontFace::GetFontTable with invalid tagname!" );
const CTFontTableTag nTagCode = (pTagName[0]<<24) + (pTagName[1]<<16) + (pTagName[2]<<8) + (pTagName[3]<<0);
return GetFontTable(nTagCode, pResultBuf);
}
int CoreTextFontFace::GetFontTable(uint32_t nTagCode, unsigned char* pResultBuf ) const
{
// get the raw table length
CTFontDescriptorRef pFontDesc = reinterpret_cast<CTFontDescriptorRef>( GetFontId());
CTFontRef rCTFont = CTFontCreateWithFontDescriptor( pFontDesc, 0.0, nullptr);
const uint32_t opts( kCTFontTableOptionNoOptions );
CFDataRef pDataRef = CTFontCopyTable( rCTFont, nTagCode, opts);
CFRelease( rCTFont);
if( !pDataRef)
return 0;
const CFIndex nByteLength = CFDataGetLength( pDataRef);
// get the raw table data if requested
if( pResultBuf && (nByteLength > 0))
{
const CFRange aFullRange = CFRangeMake( 0, nByteLength);
CFDataGetBytes( pDataRef, aFullRange, reinterpret_cast<UInt8*>(pResultBuf));
}
CFRelease( pDataRef);
return static_cast<int>(nByteLength);
}
FontAttributes DevFontFromCTFontDescriptor( CTFontDescriptorRef pFD, bool* bFontEnabled )
{
// all CoreText fonts are device fonts that can rotate just fine
FontAttributes rDFA;
rDFA.SetQuality( 0 );
// reset the font attributes
rDFA.SetFamilyType( FAMILY_DONTKNOW );
rDFA.SetPitch( PITCH_VARIABLE );
rDFA.SetWidthType( WIDTH_NORMAL );
rDFA.SetWeight( WEIGHT_NORMAL );
rDFA.SetItalic( ITALIC_NONE );
rDFA.SetSymbolFlag( false );
// get font name
#ifdef MACOSX
const OUString aUILang = Application::GetSettings().GetUILanguageTag().getLanguage();
CFStringRef pUILang = CFStringCreateWithCharacters( kCFAllocatorDefault,
reinterpret_cast<UniChar const *>(aUILang.getStr()), aUILang.getLength() );
CFStringRef pLang = nullptr;
CFStringRef pFamilyName = static_cast<CFStringRef>(
CTFontDescriptorCopyLocalizedAttribute( pFD, kCTFontFamilyNameAttribute, &pLang ));
if ( !pLang || ( CFStringCompare( pUILang, pLang, 0 ) != kCFCompareEqualTo ))
{
if(pFamilyName)
{
CFRelease( pFamilyName );
}
pFamilyName = static_cast<CFStringRef>(CTFontDescriptorCopyAttribute( pFD, kCTFontFamilyNameAttribute ));
}
#else
// No "Application" on iOS. And it is unclear whether this code
// snippet will actually ever get invoked on iOS anyway. So just
// use the old code that uses a non-localized font name.
CFStringRef pFamilyName = (CFStringRef)CTFontDescriptorCopyAttribute( pFD, kCTFontFamilyNameAttribute );
#endif
rDFA.SetFamilyName( GetOUString( pFamilyName ) );
// get font style
CFStringRef pStyleName = static_cast<CFStringRef>(CTFontDescriptorCopyAttribute( pFD, kCTFontStyleNameAttribute ));
rDFA.SetStyleName( GetOUString( pStyleName ) );
// get font-enabled status
if( bFontEnabled )
{
int bEnabled = TRUE; // by default (and when we're on macOS < 10.6) it's "enabled"
CFNumberRef pEnabled = static_cast<CFNumberRef>(CTFontDescriptorCopyAttribute( pFD, kCTFontEnabledAttribute ));
CFNumberGetValue( pEnabled, kCFNumberIntType, &bEnabled );
*bFontEnabled = bEnabled;
}
// get font attributes
CFDictionaryRef pAttrDict = static_cast<CFDictionaryRef>(CTFontDescriptorCopyAttribute( pFD, kCTFontTraitsAttribute ));
if (bFontEnabled && *bFontEnabled)
{
// Ignore font formats not supported.
int nFormat;
CFNumberRef pFormat = static_cast<CFNumberRef>(CTFontDescriptorCopyAttribute(pFD, kCTFontFormatAttribute));
CFNumberGetValue(pFormat, kCFNumberIntType, &nFormat);
if (nFormat == kCTFontFormatUnrecognized || nFormat == kCTFontFormatPostScript || nFormat == kCTFontFormatBitmap)
{
SAL_INFO("vcl.fonts", "Ignoring font with unsupported format: " << rDFA.GetFamilyName());
*bFontEnabled = false;
}
CFRelease(pFormat);
}
// get symbolic trait
// TODO: use other traits such as MonoSpace/Condensed/Expanded or Vertical too
SInt64 nSymbolTrait = 0;
CFNumberRef pSymbolNum = nullptr;
if( CFDictionaryGetValueIfPresent( pAttrDict, kCTFontSymbolicTrait, reinterpret_cast<const void**>(&pSymbolNum) ) )
{
CFNumberGetValue( pSymbolNum, kCFNumberSInt64Type, &nSymbolTrait );
rDFA.SetSymbolFlag( (nSymbolTrait & kCTFontClassMaskTrait) == kCTFontSymbolicClass );
}
// get the font weight
double fWeight = 0;
CFNumberRef pWeightNum = static_cast<CFNumberRef>(CFDictionaryGetValue( pAttrDict, kCTFontWeightTrait ));
CFNumberGetValue( pWeightNum, kCFNumberDoubleType, &fWeight );
int nInt = WEIGHT_NORMAL;
// Special case fixes
// tdf#67744: Courier Std Medium is always bold. We get a kCTFontWeightTrait of 0.23 which
// surely must be wrong.
if (rDFA.GetFamilyName() == "Courier Std" &&
(rDFA.GetStyleName() == "Medium" || rDFA.GetStyleName() == "Medium Oblique") &&
fWeight > 0.2)
{
fWeight = 0;
}
// tdf#68889: Ditto for Gill Sans MT Pro. Here I can kinda understand it, maybe the
// kCTFontWeightTrait is intended to give a subjective "optical" impression of how the font
// looks, and Gill Sans MT Pro Medium is kinda heavy. But with the way LibreOffice uses fonts,
// we still should think of it as being "medium" weight.
if (rDFA.GetFamilyName() == "Gill Sans MT Pro" &&
(rDFA.GetStyleName() == "Medium" || rDFA.GetStyleName() == "Medium Italic") &&
fWeight > 0.2)
{
fWeight = 0;
}
if( fWeight > 0 )
{
nInt = rint(WEIGHT_NORMAL + fWeight * ((WEIGHT_BLACK - WEIGHT_NORMAL)/0.68));
if( nInt > WEIGHT_BLACK )
{
nInt = WEIGHT_BLACK;
}
}
else if( fWeight < 0 )
{
nInt = rint(WEIGHT_NORMAL + fWeight * ((WEIGHT_NORMAL - WEIGHT_THIN)/0.8));
if( nInt < WEIGHT_THIN )
{
nInt = WEIGHT_THIN;
}
}
rDFA.SetWeight( static_cast<FontWeight>(nInt) );
// get the font slant
double fSlant = 0;
CFNumberRef pSlantNum = static_cast<CFNumberRef>(CFDictionaryGetValue( pAttrDict, kCTFontSlantTrait ));
CFNumberGetValue( pSlantNum, kCFNumberDoubleType, &fSlant );
if( fSlant >= 0.035 )
{
rDFA.SetItalic( ITALIC_NORMAL );
}
// get width trait
double fWidth = 0;
CFNumberRef pWidthNum = static_cast<CFNumberRef>(CFDictionaryGetValue( pAttrDict, kCTFontWidthTrait ));
CFNumberGetValue( pWidthNum, kCFNumberDoubleType, &fWidth );
nInt = WIDTH_NORMAL;
if( fWidth > 0 )
{
nInt = rint( WIDTH_NORMAL + fWidth * ((WIDTH_ULTRA_EXPANDED - WIDTH_NORMAL)/0.4));
if( nInt > WIDTH_ULTRA_EXPANDED )
{
nInt = WIDTH_ULTRA_EXPANDED;
}
}
else if( fWidth < 0 )
{
nInt = rint( WIDTH_NORMAL + fWidth * ((WIDTH_NORMAL - WIDTH_ULTRA_CONDENSED)/0.5));
if( nInt < WIDTH_ULTRA_CONDENSED )
{
nInt = WIDTH_ULTRA_CONDENSED;
}
}
rDFA.SetWidthType( static_cast<FontWidth>(nInt) );
// release the attribute dict that we had copied
CFRelease( pAttrDict );
// TODO? also use the HEAD table if available to get more attributes
// CFDataRef CTFontCopyTable( CTFontRef, kCTFontTableHead, /*kCTFontTableOptionNoOptions*/kCTFontTableOptionExcludeSynthetic );
return rDFA;
}
static void fontEnumCallBack( const void* pValue, void* pContext )
{
CTFontDescriptorRef pFD = static_cast<CTFontDescriptorRef>(pValue);
bool bFontEnabled;
FontAttributes rDFA = DevFontFromCTFontDescriptor( pFD, &bFontEnabled );
if( bFontEnabled)
{
const sal_IntPtr nFontId = reinterpret_cast<sal_IntPtr>(pValue);
rtl::Reference<CoreTextFontFace> pFontData = new CoreTextFontFace( rDFA, nFontId );
SystemFontList* pFontList = static_cast<SystemFontList*>(pContext);
pFontList->AddFont( pFontData.get() );
}
}
SystemFontList::SystemFontList()
: mpCTFontCollection( nullptr )
, mpCTFontArray( nullptr )
{}
SystemFontList::~SystemFontList()
{
maFontContainer.clear();
if( mpCTFontArray )
{
CFRelease( mpCTFontArray );
}
if( mpCTFontCollection )
{
CFRelease( mpCTFontCollection );
}
}
void SystemFontList::AddFont( CoreTextFontFace* pFontData )
{
sal_IntPtr nFontId = pFontData->GetFontId();
maFontContainer[ nFontId ] = pFontData;
}
void SystemFontList::AnnounceFonts( PhysicalFontCollection& rFontCollection ) const
{
for(const auto& rEntry : maFontContainer )
{
rFontCollection.Add( rEntry.second.get() );
}
}
CoreTextFontFace* SystemFontList::GetFontDataFromId( sal_IntPtr nFontId ) const
{
auto it = maFontContainer.find( nFontId );
if( it == maFontContainer.end() )
{
return nullptr;
}
return (*it).second.get();
}
bool SystemFontList::Init()
{
// enumerate available system fonts
static const int nMaxDictEntries = 8;
CFMutableDictionaryRef pCFDict = CFDictionaryCreateMutable( nullptr,
nMaxDictEntries,
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks );
CFDictionaryAddValue( pCFDict, kCTFontCollectionRemoveDuplicatesOption, kCFBooleanTrue );
mpCTFontCollection = CTFontCollectionCreateFromAvailableFonts( pCFDict );
CFRelease( pCFDict );
mpCTFontArray = CTFontCollectionCreateMatchingFontDescriptors( mpCTFontCollection );
const int nFontCount = CFArrayGetCount( mpCTFontArray );
const CFRange aFullRange = CFRangeMake( 0, nFontCount );
CFArrayApplyFunction( mpCTFontArray, aFullRange, fontEnumCallBack, this );
return true;
}
SystemFontList* GetCoretextFontList()
{
SystemFontList* pList = new SystemFontList();
if( !pList->Init() )
{
delete pList;
return nullptr;
}
return pList;
}
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