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dexed/JuceLibraryCode/modules/juce_graphics/native/juce_mac_Fonts.mm

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2013 - Raw Material Software Ltd.
Permission is granted to use this software under the terms of either:
a) the GPL v2 (or any later version)
b) the Affero GPL v3
Details of these licenses can be found at: www.gnu.org/licenses
JUCE 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.
------------------------------------------------------------------------------
To release a closed-source product which uses JUCE, commercial licenses are
available: visit www.juce.com for more information.
==============================================================================
*/
#if (! defined (JUCE_CORETEXT_AVAILABLE)) \
&& (JUCE_IOS || (JUCE_MAC && MAC_OS_X_VERSION_MIN_REQUIRED > MAC_OS_X_VERSION_10_4))
#define JUCE_CORETEXT_AVAILABLE 1
#endif
const float referenceFontSize = 1024.0f;
#if JUCE_CORETEXT_AVAILABLE
#if JUCE_MAC && MAC_OS_X_VERSION_MAX_ALLOWED == MAC_OS_X_VERSION_10_5
extern "C"
{
void CTRunGetAdvances (CTRunRef, CFRange, CGSize buffer[]);
const CGSize* CTRunGetAdvancesPtr (CTRunRef);
}
#endif
static CTFontRef getCTFontFromTypeface (const Font& f);
namespace CoreTextTypeLayout
{
static String findBestAvailableStyle (const Font& font, CGAffineTransform& requiredTransform)
{
const StringArray availableStyles (Font::findAllTypefaceStyles (font.getTypefaceName()));
const String style (font.getTypefaceStyle());
if (! availableStyles.contains (style))
{
if (font.isItalic()) // Fake-up an italic font if there isn't a real one.
requiredTransform = CGAffineTransformMake (1.0f, 0, 0.25f, 1.0f, 0, 0);
return availableStyles[0];
}
return style;
}
// Workaround for Apple bug in CTFontCreateWithFontDescriptor in Garageband/Logic on 10.6
#if JUCE_MAC && ((! defined (MAC_OS_X_VERSION_10_7)) || MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_7)
static CTFontRef getFontWithTrait (CTFontRef ctFontRef, CTFontSymbolicTraits trait)
{
if (CTFontRef newFont = CTFontCreateCopyWithSymbolicTraits (ctFontRef, 0.0f, nullptr, trait, trait))
{
CFRelease (ctFontRef);
return newFont;
}
return ctFontRef;
}
static CTFontRef useStyleFallbackIfNecessary (CTFontRef ctFontRef, CFStringRef cfFontFamily,
const float fontSizePoints, const Font& font)
{
CFStringRef cfActualFontFamily = (CFStringRef) CTFontCopyAttribute (ctFontRef, kCTFontFamilyNameAttribute);
if (CFStringCompare (cfFontFamily, cfActualFontFamily, 0) != kCFCompareEqualTo)
{
CFRelease (ctFontRef);
ctFontRef = CTFontCreateWithName (cfFontFamily, fontSizePoints, nullptr);
if (font.isItalic()) ctFontRef = getFontWithTrait (ctFontRef, kCTFontItalicTrait);
if (font.isBold()) ctFontRef = getFontWithTrait (ctFontRef, kCTFontBoldTrait);
}
CFRelease (cfActualFontFamily);
return ctFontRef;
}
#endif
static float getFontTotalHeight (CTFontRef font)
{
return std::abs ((float) CTFontGetAscent (font)) + std::abs ((float) CTFontGetDescent (font));
}
static float getHeightToPointsFactor (CTFontRef font)
{
return referenceFontSize / getFontTotalHeight (font);
}
static CTFontRef getFontWithPointSize (CTFontRef font, float size)
{
CTFontRef newFont = CTFontCreateCopyWithAttributes (font, size, nullptr, nullptr);
CFRelease (font);
return newFont;
}
static CTFontRef createCTFont (const Font& font, const float fontSizePoints, CGAffineTransform& transformRequired)
{
CFStringRef cfFontFamily = FontStyleHelpers::getConcreteFamilyName (font).toCFString();
CFStringRef cfFontStyle = findBestAvailableStyle (font, transformRequired).toCFString();
CFStringRef keys[] = { kCTFontFamilyNameAttribute, kCTFontStyleNameAttribute };
CFTypeRef values[] = { cfFontFamily, cfFontStyle };
CFDictionaryRef fontDescAttributes = CFDictionaryCreate (nullptr, (const void**) &keys,
(const void**) &values,
numElementsInArray (keys),
&kCFTypeDictionaryKeyCallBacks,
&kCFTypeDictionaryValueCallBacks);
CFRelease (cfFontStyle);
CTFontDescriptorRef ctFontDescRef = CTFontDescriptorCreateWithAttributes (fontDescAttributes);
CFRelease (fontDescAttributes);
CTFontRef ctFontRef = CTFontCreateWithFontDescriptor (ctFontDescRef, fontSizePoints, nullptr);
CFRelease (ctFontDescRef);
#if JUCE_MAC && ((! defined (MAC_OS_X_VERSION_10_7)) || MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_7)
ctFontRef = useStyleFallbackIfNecessary (ctFontRef, cfFontFamily, fontSizePoints, font);
#endif
CFRelease (cfFontFamily);
return ctFontRef;
}
//==============================================================================
struct Advances
{
Advances (CTRunRef run, const CFIndex numGlyphs)
: advances (CTRunGetAdvancesPtr (run))
{
if (advances == nullptr)
{
local.malloc ((size_t) numGlyphs);
CTRunGetAdvances (run, CFRangeMake (0, 0), local);
advances = local;
}
}
const CGSize* advances;
HeapBlock<CGSize> local;
};
struct Glyphs
{
Glyphs (CTRunRef run, const size_t numGlyphs)
: glyphs (CTRunGetGlyphsPtr (run))
{
if (glyphs == nullptr)
{
local.malloc (numGlyphs);
CTRunGetGlyphs (run, CFRangeMake (0, 0), local);
glyphs = local;
}
}
const CGGlyph* glyphs;
HeapBlock<CGGlyph> local;
};
struct Positions
{
Positions (CTRunRef run, const size_t numGlyphs)
: points (CTRunGetPositionsPtr (run))
{
if (points == nullptr)
{
local.malloc (numGlyphs);
CTRunGetPositions (run, CFRangeMake (0, 0), local);
points = local;
}
}
const CGPoint* points;
HeapBlock<CGPoint> local;
};
struct LineInfo
{
LineInfo (CTFrameRef frame, CTLineRef line, CFIndex lineIndex)
{
CTFrameGetLineOrigins (frame, CFRangeMake (lineIndex, 1), &origin);
CTLineGetTypographicBounds (line, &ascent, &descent, &leading);
}
CGPoint origin;
CGFloat ascent, descent, leading;
};
static CTFontRef getOrCreateFont (const Font& f)
{
if (CTFontRef ctf = getCTFontFromTypeface (f))
{
CFRetain (ctf);
return ctf;
}
CGAffineTransform transform;
return createCTFont (f, referenceFontSize, transform);
}
//==============================================================================
static CFAttributedStringRef createCFAttributedString (const AttributedString& text)
{
#if JUCE_IOS
CGColorSpaceRef rgbColourSpace = CGColorSpaceCreateDeviceRGB();
#endif
CFStringRef cfText = text.getText().toCFString();
CFMutableAttributedStringRef attribString = CFAttributedStringCreateMutable (kCFAllocatorDefault, 0);
CFAttributedStringReplaceString (attribString, CFRangeMake(0, 0), cfText);
CFRelease (cfText);
const int numCharacterAttributes = text.getNumAttributes();
for (int i = 0; i < numCharacterAttributes; ++i)
{
const AttributedString::Attribute& attr = *text.getAttribute (i);
if (attr.range.getStart() > CFAttributedStringGetLength (attribString))
continue;
Range<int> range (attr.range);
range.setEnd (jmin (range.getEnd(), (int) CFAttributedStringGetLength (attribString)));
if (const Font* const f = attr.getFont())
{
if (CTFontRef ctFontRef = getOrCreateFont (*f))
{
ctFontRef = getFontWithPointSize (ctFontRef, f->getHeight() * getHeightToPointsFactor (ctFontRef));
CFAttributedStringSetAttribute (attribString, CFRangeMake (range.getStart(), range.getLength()),
kCTFontAttributeName, ctFontRef);
CFRelease (ctFontRef);
}
}
if (const Colour* const col = attr.getColour())
{
#if JUCE_IOS
const CGFloat components[] = { col->getFloatRed(),
col->getFloatGreen(),
col->getFloatBlue(),
col->getFloatAlpha() };
CGColorRef colour = CGColorCreate (rgbColourSpace, components);
#else
CGColorRef colour = CGColorCreateGenericRGB (col->getFloatRed(),
col->getFloatGreen(),
col->getFloatBlue(),
col->getFloatAlpha());
#endif
CFAttributedStringSetAttribute (attribString,
CFRangeMake (range.getStart(), range.getLength()),
kCTForegroundColorAttributeName, colour);
CGColorRelease (colour);
}
}
// Paragraph Attributes
CTTextAlignment ctTextAlignment = kCTLeftTextAlignment;
CTLineBreakMode ctLineBreakMode = kCTLineBreakByWordWrapping;
const CGFloat ctLineSpacing = text.getLineSpacing();
switch (text.getJustification().getOnlyHorizontalFlags())
{
case Justification::left: break;
case Justification::right: ctTextAlignment = kCTRightTextAlignment; break;
case Justification::horizontallyCentred: ctTextAlignment = kCTCenterTextAlignment; break;
case Justification::horizontallyJustified: ctTextAlignment = kCTJustifiedTextAlignment; break;
default: jassertfalse; break; // Illegal justification flags
}
switch (text.getWordWrap())
{
case AttributedString::byWord: break;
case AttributedString::none: ctLineBreakMode = kCTLineBreakByClipping; break;
case AttributedString::byChar: ctLineBreakMode = kCTLineBreakByCharWrapping; break;
default: break;
}
CTParagraphStyleSetting settings[] =
{
{ kCTParagraphStyleSpecifierAlignment, sizeof (CTTextAlignment), &ctTextAlignment },
{ kCTParagraphStyleSpecifierLineBreakMode, sizeof (CTLineBreakMode), &ctLineBreakMode },
#if defined (MAC_OS_X_VERSION_10_7) && MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_7
{ kCTParagraphStyleSpecifierLineSpacingAdjustment, sizeof (CGFloat), &ctLineSpacing }
#else
{ kCTParagraphStyleSpecifierLineSpacing, sizeof (CGFloat), &ctLineSpacing }
#endif
};
CTParagraphStyleRef ctParagraphStyleRef = CTParagraphStyleCreate (settings, (size_t) numElementsInArray (settings));
CFAttributedStringSetAttribute (attribString, CFRangeMake (0, CFAttributedStringGetLength (attribString)),
kCTParagraphStyleAttributeName, ctParagraphStyleRef);
CFRelease (ctParagraphStyleRef);
#if JUCE_IOS
CGColorSpaceRelease (rgbColourSpace);
#endif
return attribString;
}
static CTFrameRef createCTFrame (const AttributedString& text, CGRect bounds)
{
CFAttributedStringRef attribString = createCFAttributedString (text);
CTFramesetterRef framesetter = CTFramesetterCreateWithAttributedString (attribString);
CFRelease (attribString);
CGMutablePathRef path = CGPathCreateMutable();
CGPathAddRect (path, nullptr, bounds);
CTFrameRef frame = CTFramesetterCreateFrame (framesetter, CFRangeMake (0, 0), path, nullptr);
CFRelease (framesetter);
CGPathRelease (path);
return frame;
}
static Range<float> getLineVerticalRange (CTFrameRef frame, CFArrayRef lines, int lineIndex)
{
LineInfo info (frame, (CTLineRef) CFArrayGetValueAtIndex (lines, lineIndex), lineIndex);
return Range<float> ((float) (info.origin.y - info.descent),
(float) (info.origin.y + info.ascent));
}
static float findCTFrameHeight (CTFrameRef frame)
{
CFArrayRef lines = CTFrameGetLines (frame);
const CFIndex numLines = CFArrayGetCount (lines);
if (numLines == 0)
return 0;
Range<float> range (getLineVerticalRange (frame, lines, 0));
if (numLines > 1)
range = range.getUnionWith (getLineVerticalRange (frame, lines, (int) numLines - 1));
return range.getLength();
}
static void drawToCGContext (const AttributedString& text, const Rectangle<float>& area,
const CGContextRef& context, const float flipHeight)
{
CTFrameRef frame = createCTFrame (text, CGRectMake ((CGFloat) area.getX(), flipHeight - (CGFloat) area.getBottom(),
(CGFloat) area.getWidth(), (CGFloat) area.getHeight()));
const int verticalJustification = text.getJustification().getOnlyVerticalFlags();
if (verticalJustification == Justification::verticallyCentred
|| verticalJustification == Justification::bottom)
{
float adjust = area.getHeight() - findCTFrameHeight (frame);
if (verticalJustification == Justification::verticallyCentred)
adjust *= 0.5f;
CGContextSaveGState (context);
CGContextTranslateCTM (context, 0, -adjust);
CTFrameDraw (frame, context);
CGContextRestoreGState (context);
}
else
{
CTFrameDraw (frame, context);
}
CFRelease (frame);
}
static void createLayout (TextLayout& glyphLayout, const AttributedString& text)
{
const CGFloat boundsHeight = 1.0e6f;
CTFrameRef frame = createCTFrame (text, CGRectMake (0, 0, glyphLayout.getWidth(), boundsHeight));
CFArrayRef lines = CTFrameGetLines (frame);
const CFIndex numLines = CFArrayGetCount (lines);
glyphLayout.ensureStorageAllocated ((int) numLines);
for (CFIndex i = 0; i < numLines; ++i)
{
CTLineRef line = (CTLineRef) CFArrayGetValueAtIndex (lines, i);
CFArrayRef runs = CTLineGetGlyphRuns (line);
const CFIndex numRuns = CFArrayGetCount (runs);
const CFRange cfrlineStringRange = CTLineGetStringRange (line);
const CFIndex lineStringEnd = cfrlineStringRange.location + cfrlineStringRange.length - 1;
const Range<int> lineStringRange ((int) cfrlineStringRange.location, (int) lineStringEnd);
LineInfo lineInfo (frame, line, i);
TextLayout::Line* const glyphLine = new TextLayout::Line (lineStringRange,
Point<float> ((float) lineInfo.origin.x,
(float) (boundsHeight - lineInfo.origin.y)),
(float) lineInfo.ascent,
(float) lineInfo.descent,
(float) lineInfo.leading,
(int) numRuns);
glyphLayout.addLine (glyphLine);
for (CFIndex j = 0; j < numRuns; ++j)
{
CTRunRef run = (CTRunRef) CFArrayGetValueAtIndex (runs, j);
const CFIndex numGlyphs = CTRunGetGlyphCount (run);
const CFRange runStringRange = CTRunGetStringRange (run);
TextLayout::Run* const glyphRun = new TextLayout::Run (Range<int> ((int) runStringRange.location,
(int) (runStringRange.location + runStringRange.length - 1)),
(int) numGlyphs);
glyphLine->runs.add (glyphRun);
CFDictionaryRef runAttributes = CTRunGetAttributes (run);
CTFontRef ctRunFont;
if (CFDictionaryGetValueIfPresent (runAttributes, kCTFontAttributeName, (const void **) &ctRunFont))
{
CFStringRef cfsFontName = CTFontCopyPostScriptName (ctRunFont);
CTFontRef ctFontRef = CTFontCreateWithName (cfsFontName, referenceFontSize, nullptr);
CFRelease (cfsFontName);
const float fontHeightToPointsFactor = getHeightToPointsFactor (ctFontRef);
CFRelease (ctFontRef);
CFStringRef cfsFontFamily = (CFStringRef) CTFontCopyAttribute (ctRunFont, kCTFontFamilyNameAttribute);
CFStringRef cfsFontStyle = (CFStringRef) CTFontCopyAttribute (ctRunFont, kCTFontStyleNameAttribute);
glyphRun->font = Font (String::fromCFString (cfsFontFamily),
String::fromCFString (cfsFontStyle),
(float) (CTFontGetSize (ctRunFont) / fontHeightToPointsFactor));
CFRelease (cfsFontStyle);
CFRelease (cfsFontFamily);
}
CGColorRef cgRunColor;
if (CFDictionaryGetValueIfPresent (runAttributes, kCTForegroundColorAttributeName, (const void**) &cgRunColor)
&& CGColorGetNumberOfComponents (cgRunColor) == 4)
{
const CGFloat* const components = CGColorGetComponents (cgRunColor);
glyphRun->colour = Colour::fromFloatRGBA ((float) components[0],
(float) components[1],
(float) components[2],
(float) components[3]);
}
const Glyphs glyphs (run, (size_t) numGlyphs);
const Advances advances (run, numGlyphs);
const Positions positions (run, (size_t) numGlyphs);
for (CFIndex k = 0; k < numGlyphs; ++k)
glyphRun->glyphs.add (TextLayout::Glyph (glyphs.glyphs[k], Point<float> ((float) positions.points[k].x,
(float) positions.points[k].y),
(float) advances.advances[k].width));
}
}
CFRelease (frame);
}
}
//==============================================================================
class OSXTypeface : public Typeface
{
public:
OSXTypeface (const Font& font)
: Typeface (font.getTypefaceName(),
font.getTypefaceStyle()),
fontRef (nullptr),
ctFontRef (nullptr),
fontHeightToPointsFactor (1.0f),
renderingTransform (CGAffineTransformIdentity),
isMemoryFont (false),
attributedStringAtts (nullptr),
ascent (0.0f),
unitsToHeightScaleFactor (0.0f)
{
ctFontRef = CoreTextTypeLayout::createCTFont (font, referenceFontSize, renderingTransform);
if (ctFontRef != nullptr)
{
fontRef = CTFontCopyGraphicsFont (ctFontRef, nullptr);
initialiseMetrics();
}
}
OSXTypeface (const void* data, size_t dataSize)
: Typeface (String(), String()),
fontRef (nullptr),
ctFontRef (nullptr),
fontHeightToPointsFactor (1.0f),
renderingTransform (CGAffineTransformIdentity),
isMemoryFont (true),
attributedStringAtts (nullptr),
ascent (0.0f),
unitsToHeightScaleFactor (0.0f)
{
CFDataRef cfData = CFDataCreate (kCFAllocatorDefault, (const UInt8*) data, (CFIndex) dataSize);
CGDataProviderRef provider = CGDataProviderCreateWithCFData (cfData);
CFRelease (cfData);
fontRef = CGFontCreateWithDataProvider (provider);
CGDataProviderRelease (provider);
if (fontRef != nullptr)
{
ctFontRef = CTFontCreateWithGraphicsFont (fontRef, referenceFontSize, nullptr, nullptr);
if (ctFontRef != nullptr)
{
if (CFStringRef fontName = CTFontCopyName (ctFontRef, kCTFontFamilyNameKey))
{
name = String::fromCFString (fontName);
CFRelease (fontName);
}
if (CFStringRef fontStyle = CTFontCopyName (ctFontRef, kCTFontStyleNameKey))
{
style = String::fromCFString (fontStyle);
CFRelease (fontStyle);
}
initialiseMetrics();
}
}
}
void initialiseMetrics()
{
const float ctAscent = std::abs ((float) CTFontGetAscent (ctFontRef));
const float ctDescent = std::abs ((float) CTFontGetDescent (ctFontRef));
const float ctTotalHeight = ctAscent + ctDescent;
ascent = ctAscent / ctTotalHeight;
unitsToHeightScaleFactor = 1.0f / ctTotalHeight;
pathTransform = AffineTransform::identity.scale (unitsToHeightScaleFactor);
fontHeightToPointsFactor = referenceFontSize / ctTotalHeight;
const short zero = 0;
CFNumberRef numberRef = CFNumberCreate (0, kCFNumberShortType, &zero);
CFStringRef keys[] = { kCTFontAttributeName, kCTLigatureAttributeName };
CFTypeRef values[] = { ctFontRef, numberRef };
attributedStringAtts = CFDictionaryCreate (nullptr, (const void**) &keys, (const void**) &values, numElementsInArray (keys),
&kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
CFRelease (numberRef);
}
~OSXTypeface()
{
if (attributedStringAtts != nullptr)
CFRelease (attributedStringAtts);
if (fontRef != nullptr)
CGFontRelease (fontRef);
if (ctFontRef != nullptr)
CFRelease (ctFontRef);
}
float getAscent() const override { return ascent; }
float getDescent() const override { return 1.0f - ascent; }
float getHeightToPointsFactor() const override { return fontHeightToPointsFactor; }
float getStringWidth (const String& text) override
{
float x = 0;
if (ctFontRef != nullptr && text.isNotEmpty())
{
CFStringRef cfText = text.toCFString();
CFAttributedStringRef attribString = CFAttributedStringCreate (kCFAllocatorDefault, cfText, attributedStringAtts);
CFRelease (cfText);
CTLineRef line = CTLineCreateWithAttributedString (attribString);
CFArrayRef runArray = CTLineGetGlyphRuns (line);
for (CFIndex i = 0; i < CFArrayGetCount (runArray); ++i)
{
CTRunRef run = (CTRunRef) CFArrayGetValueAtIndex (runArray, i);
CFIndex length = CTRunGetGlyphCount (run);
const CoreTextTypeLayout::Advances advances (run, length);
for (int j = 0; j < length; ++j)
x += (float) advances.advances[j].width;
}
CFRelease (line);
CFRelease (attribString);
x *= unitsToHeightScaleFactor;
}
return x;
}
void getGlyphPositions (const String& text, Array <int>& resultGlyphs, Array <float>& xOffsets) override
{
xOffsets.add (0);
if (ctFontRef != nullptr && text.isNotEmpty())
{
float x = 0;
CFStringRef cfText = text.toCFString();
CFAttributedStringRef attribString = CFAttributedStringCreate (kCFAllocatorDefault, cfText, attributedStringAtts);
CFRelease (cfText);
CTLineRef line = CTLineCreateWithAttributedString (attribString);
CFArrayRef runArray = CTLineGetGlyphRuns (line);
for (CFIndex i = 0; i < CFArrayGetCount (runArray); ++i)
{
CTRunRef run = (CTRunRef) CFArrayGetValueAtIndex (runArray, i);
CFIndex length = CTRunGetGlyphCount (run);
const CoreTextTypeLayout::Advances advances (run, length);
const CoreTextTypeLayout::Glyphs glyphs (run, (size_t) length);
for (int j = 0; j < length; ++j)
{
x += (float) advances.advances[j].width;
xOffsets.add (x * unitsToHeightScaleFactor);
resultGlyphs.add (glyphs.glyphs[j]);
}
}
CFRelease (line);
CFRelease (attribString);
}
}
bool getOutlineForGlyph (int glyphNumber, Path& path) override
{
jassert (path.isEmpty()); // we might need to apply a transform to the path, so this must be empty
CGPathRef pathRef = CTFontCreatePathForGlyph (ctFontRef, (CGGlyph) glyphNumber, &renderingTransform);
if (pathRef == 0)
return false;
CGPathApply (pathRef, &path, pathApplier);
CFRelease (pathRef);
if (! pathTransform.isIdentity())
path.applyTransform (pathTransform);
return true;
}
//==============================================================================
CGFontRef fontRef;
CTFontRef ctFontRef;
float fontHeightToPointsFactor;
CGAffineTransform renderingTransform;
bool isMemoryFont;
private:
CFDictionaryRef attributedStringAtts;
float ascent, unitsToHeightScaleFactor;
AffineTransform pathTransform;
static void pathApplier (void* info, const CGPathElement* const element)
{
Path& path = *static_cast<Path*> (info);
const CGPoint* const p = element->points;
switch (element->type)
{
case kCGPathElementMoveToPoint: path.startNewSubPath ((float) p[0].x, (float) -p[0].y); break;
case kCGPathElementAddLineToPoint: path.lineTo ((float) p[0].x, (float) -p[0].y); break;
case kCGPathElementAddQuadCurveToPoint: path.quadraticTo ((float) p[0].x, (float) -p[0].y,
(float) p[1].x, (float) -p[1].y); break;
case kCGPathElementAddCurveToPoint: path.cubicTo ((float) p[0].x, (float) -p[0].y,
(float) p[1].x, (float) -p[1].y,
(float) p[2].x, (float) -p[2].y); break;
case kCGPathElementCloseSubpath: path.closeSubPath(); break;
default: jassertfalse; break;
}
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (OSXTypeface)
};
CTFontRef getCTFontFromTypeface (const Font& f)
{
if (OSXTypeface* tf = dynamic_cast<OSXTypeface*> (f.getTypeface()))
return tf->ctFontRef;
return 0;
}
StringArray Font::findAllTypefaceNames()
{
StringArray names;
#if MAC_OS_X_VERSION_MIN_REQUIRED > MAC_OS_X_VERSION_10_5 && ! JUCE_IOS
// CTFontManager only exists on OS X 10.6 and later, it does not exist on iOS
CFArrayRef fontFamilyArray = CTFontManagerCopyAvailableFontFamilyNames();
for (CFIndex i = 0; i < CFArrayGetCount (fontFamilyArray); ++i)
{
const String family (String::fromCFString ((CFStringRef) CFArrayGetValueAtIndex (fontFamilyArray, i)));
if (! family.startsWithChar ('.')) // ignore fonts that start with a '.'
names.addIfNotAlreadyThere (family);
}
CFRelease (fontFamilyArray);
#else
CTFontCollectionRef fontCollectionRef = CTFontCollectionCreateFromAvailableFonts (nullptr);
CFArrayRef fontDescriptorArray = CTFontCollectionCreateMatchingFontDescriptors (fontCollectionRef);
CFRelease (fontCollectionRef);
for (CFIndex i = 0; i < CFArrayGetCount (fontDescriptorArray); ++i)
{
CTFontDescriptorRef ctFontDescriptorRef = (CTFontDescriptorRef) CFArrayGetValueAtIndex (fontDescriptorArray, i);
CFStringRef cfsFontFamily = (CFStringRef) CTFontDescriptorCopyAttribute (ctFontDescriptorRef, kCTFontFamilyNameAttribute);
names.addIfNotAlreadyThere (String::fromCFString (cfsFontFamily));
CFRelease (cfsFontFamily);
}
CFRelease (fontDescriptorArray);
#endif
names.sort (true);
return names;
}
StringArray Font::findAllTypefaceStyles (const String& family)
{
if (FontStyleHelpers::isPlaceholderFamilyName (family))
return findAllTypefaceStyles (FontStyleHelpers::getConcreteFamilyNameFromPlaceholder (family));
StringArray results;
CFStringRef cfsFontFamily = family.toCFString();
CFStringRef keys[] = { kCTFontFamilyNameAttribute };
CFTypeRef values[] = { cfsFontFamily };
CFDictionaryRef fontDescAttributes = CFDictionaryCreate (nullptr, (const void**) &keys, (const void**) &values, numElementsInArray (keys), &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks);
CFRelease (cfsFontFamily);
CTFontDescriptorRef ctFontDescRef = CTFontDescriptorCreateWithAttributes (fontDescAttributes);
CFRelease (fontDescAttributes);
CFArrayRef fontFamilyArray = CFArrayCreate (kCFAllocatorDefault, (const void**) &ctFontDescRef, 1, &kCFTypeArrayCallBacks);
CFRelease (ctFontDescRef);
CTFontCollectionRef fontCollectionRef = CTFontCollectionCreateWithFontDescriptors (fontFamilyArray, nullptr);
CFRelease (fontFamilyArray);
CFArrayRef fontDescriptorArray = CTFontCollectionCreateMatchingFontDescriptors (fontCollectionRef);
CFRelease (fontCollectionRef);
if (fontDescriptorArray != nullptr)
{
for (CFIndex i = 0; i < CFArrayGetCount (fontDescriptorArray); ++i)
{
CTFontDescriptorRef ctFontDescriptorRef = (CTFontDescriptorRef) CFArrayGetValueAtIndex (fontDescriptorArray, i);
CFStringRef cfsFontStyle = (CFStringRef) CTFontDescriptorCopyAttribute (ctFontDescriptorRef, kCTFontStyleNameAttribute);
results.add (String::fromCFString (cfsFontStyle));
CFRelease (cfsFontStyle);
}
CFRelease (fontDescriptorArray);
}
return results;
}
#else
//==============================================================================
// The stuff that follows is a mash-up that supports pre-OSX 10.5 APIs.
// (Hopefully all of this can be ditched at some point in the future).
//==============================================================================
#if MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_5
#define SUPPORT_10_4_FONTS 1
#define NEW_CGFONT_FUNCTIONS_UNAVAILABLE (CGFontCreateWithFontName == 0)
#if MAC_OS_X_VERSION_MAX_ALLOWED < MAC_OS_X_VERSION_10_5
#define SUPPORT_ONLY_10_4_FONTS 1
#endif
} // (juce namespace)
@interface NSFont (PrivateHack)
- (NSGlyph) _defaultGlyphForChar: (unichar) theChar;
@end
namespace juce
{
#endif
//==============================================================================
class OSXTypeface : public Typeface
{
public:
OSXTypeface (const Font& font)
: Typeface (font.getTypefaceName(), font.getTypefaceStyle())
{
JUCE_AUTORELEASEPOOL
{
renderingTransform = CGAffineTransformIdentity;
NSDictionary* nsDict = [NSDictionary dictionaryWithObjectsAndKeys:
juceStringToNS (name), NSFontFamilyAttribute,
juceStringToNS (style), NSFontFaceAttribute, nil];
NSFontDescriptor* nsFontDesc = [NSFontDescriptor fontDescriptorWithFontAttributes: nsDict];
nsFont = [NSFont fontWithDescriptor: nsFontDesc size: referenceFontSize];
[nsFont retain];
#if SUPPORT_ONLY_10_4_FONTS
initWithATSFont();
#else
#if SUPPORT_10_4_FONTS
if (NEW_CGFONT_FUNCTIONS_UNAVAILABLE)
{
initWithATSFont();
}
else
#endif
{
fontRef = CGFontCreateWithFontName ((CFStringRef) [nsFont fontName]);
const float absAscent = std::abs ((float) CGFontGetAscent (fontRef));
const float totalHeight = absAscent + std::abs ((float) CGFontGetDescent (fontRef));
ascent = absAscent / totalHeight;
unitsToHeightScaleFactor = 1.0f / totalHeight;
const float nsFontAscent = std::abs ([nsFont ascender]);
const float nsFontDescent = std::abs ([nsFont descender]);
fontHeightToPointsFactor = referenceFontSize / (nsFontAscent + nsFontDescent);
}
#endif
pathTransform = AffineTransform::identity.scale (unitsToHeightScaleFactor);
}
}
~OSXTypeface()
{
#if ! JUCE_IOS
[nsFont release];
#endif
if (fontRef != 0)
CGFontRelease (fontRef);
}
#if SUPPORT_10_4_FONTS
void initWithATSFont()
{
ATSFontRef atsFont = ATSFontFindFromName ((CFStringRef) [nsFont fontName], kATSOptionFlagsDefault);
if (atsFont == 0)
atsFont = ATSFontFindFromPostScriptName ((CFStringRef) [nsFont fontName], kATSOptionFlagsDefault);
fontRef = CGFontCreateWithPlatformFont (&atsFont);
const float absAscent = std::abs ([nsFont ascender]);
const float absDescent = std::abs ([nsFont descender]);
const float totalHeight = absAscent + absDescent;
unitsToHeightScaleFactor = 1.0f / totalHeight;
fontHeightToPointsFactor = referenceFontSize / totalHeight;
ascent = absAscent / totalHeight;
}
#endif
float getAscent() const override { return ascent; }
float getDescent() const override { return 1.0f - ascent; }
float getHeightToPointsFactor() const override { return fontHeightToPointsFactor; }
float getStringWidth (const String& text) override
{
if (fontRef == 0 || text.isEmpty())
return 0;
const int length = text.length();
HeapBlock <CGGlyph> glyphs;
createGlyphsForString (text.getCharPointer(), length, glyphs);
float x = 0;
#if SUPPORT_ONLY_10_4_FONTS
HeapBlock <NSSize> advances (length);
[nsFont getAdvancements: advances forGlyphs: reinterpret_cast<NSGlyph*> (glyphs.getData()) count: length];
for (int i = 0; i < length; ++i)
x += advances[i].width;
#else
#if SUPPORT_10_4_FONTS
if (NEW_CGFONT_FUNCTIONS_UNAVAILABLE)
{
HeapBlock <NSSize> advances (length);
[nsFont getAdvancements: advances forGlyphs: reinterpret_cast<NSGlyph*> (glyphs.getData()) count: length];
for (int i = 0; i < length; ++i)
x += advances[i].width;
}
else
#endif
{
HeapBlock <int> advances (length);
if (CGFontGetGlyphAdvances (fontRef, glyphs, length, advances))
for (int i = 0; i < length; ++i)
x += advances[i];
}
#endif
return x * unitsToHeightScaleFactor;
}
void getGlyphPositions (const String& text, Array<int>& resultGlyphs, Array<float>& xOffsets) override
{
xOffsets.add (0);
if (fontRef == 0 || text.isEmpty())
return;
const int length = text.length();
HeapBlock <CGGlyph> glyphs;
createGlyphsForString (text.getCharPointer(), length, glyphs);
#if SUPPORT_ONLY_10_4_FONTS
HeapBlock <NSSize> advances (length);
[nsFont getAdvancements: advances forGlyphs: reinterpret_cast <NSGlyph*> (glyphs.getData()) count: length];
int x = 0;
for (int i = 0; i < length; ++i)
{
x += advances[i].width;
xOffsets.add (x * unitsToHeightScaleFactor);
resultGlyphs.add (reinterpret_cast <NSGlyph*> (glyphs.getData())[i]);
}
#else
#if SUPPORT_10_4_FONTS
if (NEW_CGFONT_FUNCTIONS_UNAVAILABLE)
{
HeapBlock <NSSize> advances (length);
NSGlyph* const nsGlyphs = reinterpret_cast<NSGlyph*> (glyphs.getData());
[nsFont getAdvancements: advances forGlyphs: nsGlyphs count: length];
float x = 0;
for (int i = 0; i < length; ++i)
{
x += advances[i].width;
xOffsets.add (x * unitsToHeightScaleFactor);
resultGlyphs.add (nsGlyphs[i]);
}
}
else
#endif
{
HeapBlock <int> advances (length);
if (CGFontGetGlyphAdvances (fontRef, glyphs, length, advances))
{
int x = 0;
for (int i = 0; i < length; ++i)
{
x += advances [i];
xOffsets.add (x * unitsToHeightScaleFactor);
resultGlyphs.add (glyphs[i]);
}
}
}
#endif
}
bool getOutlineForGlyph (int glyphNumber, Path& path) override
{
#if JUCE_IOS
return false;
#else
if (nsFont == nil)
return false;
// we might need to apply a transform to the path, so it mustn't have anything else in it
jassert (path.isEmpty());
JUCE_AUTORELEASEPOOL
{
NSBezierPath* bez = [NSBezierPath bezierPath];
[bez moveToPoint: NSMakePoint (0, 0)];
[bez appendBezierPathWithGlyph: (NSGlyph) glyphNumber
inFont: nsFont];
for (int i = 0; i < [bez elementCount]; ++i)
{
NSPoint p[3];
switch ([bez elementAtIndex: i associatedPoints: p])
{
case NSMoveToBezierPathElement: path.startNewSubPath ((float) p[0].x, (float) -p[0].y); break;
case NSLineToBezierPathElement: path.lineTo ((float) p[0].x, (float) -p[0].y); break;
case NSCurveToBezierPathElement: path.cubicTo ((float) p[0].x, (float) -p[0].y,
(float) p[1].x, (float) -p[1].y,
(float) p[2].x, (float) -p[2].y); break;
case NSClosePathBezierPathElement: path.closeSubPath(); break;
default: jassertfalse; break;
}
}
path.applyTransform (pathTransform);
}
return true;
#endif
}
//==============================================================================
CGFontRef fontRef;
float fontHeightToPointsFactor;
CGAffineTransform renderingTransform;
private:
float ascent, unitsToHeightScaleFactor;
#if ! JUCE_IOS
NSFont* nsFont;
AffineTransform pathTransform;
#endif
void createGlyphsForString (String::CharPointerType text, const int length, HeapBlock <CGGlyph>& glyphs)
{
#if SUPPORT_10_4_FONTS
#if ! SUPPORT_ONLY_10_4_FONTS
if (NEW_CGFONT_FUNCTIONS_UNAVAILABLE)
#endif
{
glyphs.malloc (sizeof (NSGlyph) * length, 1);
NSGlyph* const nsGlyphs = reinterpret_cast<NSGlyph*> (glyphs.getData());
for (int i = 0; i < length; ++i)
nsGlyphs[i] = (NSGlyph) [nsFont _defaultGlyphForChar: text.getAndAdvance()];
return;
}
#endif
#if ! SUPPORT_ONLY_10_4_FONTS
if (charToGlyphMapper == nullptr)
charToGlyphMapper = new CharToGlyphMapper (fontRef);
glyphs.malloc (length);
for (int i = 0; i < length; ++i)
glyphs[i] = (CGGlyph) charToGlyphMapper->getGlyphForCharacter (text.getAndAdvance());
#endif
}
#if ! SUPPORT_ONLY_10_4_FONTS
// Reads a CGFontRef's character map table to convert unicode into glyph numbers
class CharToGlyphMapper
{
public:
CharToGlyphMapper (CGFontRef cgFontRef)
: segCount (0), endCode (0), startCode (0), idDelta (0),
idRangeOffset (0), glyphIndexes (0)
{
CFDataRef cmapTable = CGFontCopyTableForTag (cgFontRef, 'cmap');
if (cmapTable != 0)
{
const int numSubtables = getValue16 (cmapTable, 2);
for (int i = 0; i < numSubtables; ++i)
{
if (getValue16 (cmapTable, i * 8 + 4) == 0) // check for platform ID of 0
{
const int offset = getValue32 (cmapTable, i * 8 + 8);
if (getValue16 (cmapTable, offset) == 4) // check that it's format 4..
{
const int length = getValue16 (cmapTable, offset + 2);
const int segCountX2 = getValue16 (cmapTable, offset + 6);
segCount = segCountX2 / 2;
const int endCodeOffset = offset + 14;
const int startCodeOffset = endCodeOffset + 2 + segCountX2;
const int idDeltaOffset = startCodeOffset + segCountX2;
const int idRangeOffsetOffset = idDeltaOffset + segCountX2;
const int glyphIndexesOffset = idRangeOffsetOffset + segCountX2;
endCode = CFDataCreate (kCFAllocatorDefault, CFDataGetBytePtr (cmapTable) + endCodeOffset, segCountX2);
startCode = CFDataCreate (kCFAllocatorDefault, CFDataGetBytePtr (cmapTable) + startCodeOffset, segCountX2);
idDelta = CFDataCreate (kCFAllocatorDefault, CFDataGetBytePtr (cmapTable) + idDeltaOffset, segCountX2);
idRangeOffset = CFDataCreate (kCFAllocatorDefault, CFDataGetBytePtr (cmapTable) + idRangeOffsetOffset, segCountX2);
glyphIndexes = CFDataCreate (kCFAllocatorDefault, CFDataGetBytePtr (cmapTable) + glyphIndexesOffset, offset + length - glyphIndexesOffset);
}
break;
}
}
CFRelease (cmapTable);
}
}
~CharToGlyphMapper()
{
if (endCode != 0)
{
CFRelease (endCode);
CFRelease (startCode);
CFRelease (idDelta);
CFRelease (idRangeOffset);
CFRelease (glyphIndexes);
}
}
int getGlyphForCharacter (const juce_wchar c) const
{
for (int i = 0; i < segCount; ++i)
{
if (getValue16 (endCode, i * 2) >= c)
{
const int start = getValue16 (startCode, i * 2);
if (start > c)
break;
const int delta = getValue16 (idDelta, i * 2);
const int rangeOffset = getValue16 (idRangeOffset, i * 2);
if (rangeOffset == 0)
return delta + c;
return getValue16 (glyphIndexes, 2 * ((rangeOffset / 2) + (c - start) - (segCount - i)));
}
}
// If we failed to find it "properly", this dodgy fall-back seems to do the trick for most fonts!
return jmax (-1, (int) c - 29);
}
private:
int segCount;
CFDataRef endCode, startCode, idDelta, idRangeOffset, glyphIndexes;
static uint16 getValue16 (CFDataRef data, const int index)
{
return CFSwapInt16BigToHost (*(UInt16*) (CFDataGetBytePtr (data) + index));
}
static uint32 getValue32 (CFDataRef data, const int index)
{
return CFSwapInt32BigToHost (*(UInt32*) (CFDataGetBytePtr (data) + index));
}
};
ScopedPointer <CharToGlyphMapper> charToGlyphMapper;
#endif
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (OSXTypeface)
};
StringArray Font::findAllTypefaceNames()
{
StringArray names;
JUCE_AUTORELEASEPOOL
{
#if JUCE_IOS
for (NSString* name in [UIFont familyNames])
#else
for (NSString* name in [[NSFontManager sharedFontManager] availableFontFamilies])
#endif
names.add (nsStringToJuce (name));
names.sort (true);
}
return names;
}
StringArray Font::findAllTypefaceStyles (const String& family)
{
if (FontStyleHelpers::isPlaceholderFamilyName (family))
return findAllTypefaceStyles (FontStyleHelpers::getConcreteFamilyNameFromPlaceholder (family));
StringArray results;
JUCE_AUTORELEASEPOOL
{
for (NSArray* style in [[NSFontManager sharedFontManager] availableMembersOfFontFamily: juceStringToNS (family)])
results.add (nsStringToJuce ((NSString*) [style objectAtIndex: 1]));
}
return results;
}
#endif
//==============================================================================
Typeface::Ptr Typeface::createSystemTypefaceFor (const Font& font)
{
return new OSXTypeface (font);
}
Typeface::Ptr Typeface::createSystemTypefaceFor (const void* data, size_t dataSize)
{
#if JUCE_CORETEXT_AVAILABLE
return new OSXTypeface (data, dataSize);
#else
jassertfalse; // You need CoreText enabled to use this feature!
return nullptr;
#endif
}
void Typeface::scanFolderForFonts (const File&)
{
jassertfalse; // not implemented on this platform
}
struct DefaultFontNames
{
DefaultFontNames()
#if JUCE_IOS
: defaultSans ("Helvetica"),
defaultSerif ("Times New Roman"),
defaultFixed ("Courier New"),
#else
: defaultSans ("Lucida Grande"),
defaultSerif ("Times New Roman"),
defaultFixed ("Menlo"),
#endif
defaultFallback ("Arial Unicode MS")
{
}
String defaultSans, defaultSerif, defaultFixed, defaultFallback;
};
Typeface::Ptr Font::getDefaultTypefaceForFont (const Font& font)
{
static DefaultFontNames defaultNames;
Font newFont (font);
const String& faceName = font.getTypefaceName();
if (faceName == getDefaultSansSerifFontName()) newFont.setTypefaceName (defaultNames.defaultSans);
else if (faceName == getDefaultSerifFontName()) newFont.setTypefaceName (defaultNames.defaultSerif);
else if (faceName == getDefaultMonospacedFontName()) newFont.setTypefaceName (defaultNames.defaultFixed);
if (font.getTypefaceStyle() == getDefaultStyle())
newFont.setTypefaceStyle ("Regular");
return Typeface::createSystemTypefaceFor (newFont);
}
#if JUCE_CORETEXT_AVAILABLE
static bool containsNoMemoryTypefaces (const AttributedString& text)
{
const int numCharacterAttributes = text.getNumAttributes();
for (int i = 0; i < numCharacterAttributes; ++i)
if (const Font* const f = text.getAttribute (i)->getFont())
if (OSXTypeface* tf = dynamic_cast<OSXTypeface*> (f->getTypeface()))
if (tf->isMemoryFont)
return false;
return true;
}
#endif
bool TextLayout::createNativeLayout (const AttributedString& text)
{
#if JUCE_CORETEXT_AVAILABLE
// Seems to be an unfathomable bug in CoreText which prevents the layout working with
// typefaces that were loaded from memory, so have to fallback if we hit any of those..
if (containsNoMemoryTypefaces (text))
{
CoreTextTypeLayout::createLayout (*this, text);
return true;
}
#endif
(void) text;
return false;
}