// 6 september 2015 #import "uipriv_darwin.h" // TODO #define complain(...) implbug(__VA_ARGS__) // TODO double-check that we are properly handling allocation failures (or just toll free bridge from cocoa) struct uiDrawFontFamilies { CFArrayRef fonts; }; uiDrawFontFamilies *uiDrawListFontFamilies(void) { uiDrawFontFamilies *ff; ff = uiNew(uiDrawFontFamilies); ff->fonts = CTFontManagerCopyAvailableFontFamilyNames(); if (ff->fonts == NULL) implbug("error getting available font names (no reason specified) (TODO)"); return ff; } int uiDrawFontFamiliesNumFamilies(uiDrawFontFamilies *ff) { return CFArrayGetCount(ff->fonts); } char *uiDrawFontFamiliesFamily(uiDrawFontFamilies *ff, int n) { CFStringRef familystr; char *family; familystr = (CFStringRef) CFArrayGetValueAtIndex(ff->fonts, n); // toll-free bridge family = uiDarwinNSStringToText((NSString *) familystr); // Get Rule means we do not free familystr return family; } void uiDrawFreeFontFamilies(uiDrawFontFamilies *ff) { CFRelease(ff->fonts); uiFree(ff); } struct uiDrawTextFont { CTFontRef f; }; uiDrawTextFont *mkTextFont(CTFontRef f, BOOL retain) { uiDrawTextFont *font; font = uiNew(uiDrawTextFont); font->f = f; if (retain) CFRetain(font->f); return font; } uiDrawTextFont *mkTextFontFromNSFont(NSFont *f) { // toll-free bridging; we do retain, though return mkTextFont((CTFontRef) f, YES); } static CFMutableDictionaryRef newAttrList(void) { CFMutableDictionaryRef attr; attr = CFDictionaryCreateMutable(NULL, 0, &kCFTypeDictionaryKeyCallBacks, &kCFTypeDictionaryValueCallBacks); if (attr == NULL) complain("error creating attribute dictionary in newAttrList()()"); return attr; } static void addFontFamilyAttr(CFMutableDictionaryRef attr, const char *family) { CFStringRef cfstr; cfstr = CFStringCreateWithCString(NULL, family, kCFStringEncodingUTF8); if (cfstr == NULL) complain("error creating font family name CFStringRef in addFontFamilyAttr()"); CFDictionaryAddValue(attr, kCTFontFamilyNameAttribute, cfstr); CFRelease(cfstr); // dictionary holds its own reference } static void addFontSizeAttr(CFMutableDictionaryRef attr, double size) { CFNumberRef n; n = CFNumberCreate(NULL, kCFNumberDoubleType, &size); CFDictionaryAddValue(attr, kCTFontSizeAttribute, n); CFRelease(n); } #if 0 TODO // See http://stackoverflow.com/questions/4810409/does-coretext-support-small-caps/4811371#4811371 and https://git.gnome.org/browse/pango/tree/pango/pangocoretext-fontmap.c for what these do // And fortunately, unlike the traits (see below), unmatched features are simply ignored without affecting the other features :D static void addFontSmallCapsAttr(CFMutableDictionaryRef attr) { CFMutableArrayRef outerArray; CFMutableDictionaryRef innerDict; CFNumberRef numType, numSelector; int num; outerArray = CFArrayCreateMutable(NULL, 0, &kCFTypeArrayCallBacks); if (outerArray == NULL) complain("error creating outer CFArray for adding small caps attributes in addFontSmallCapsAttr()"); // Apple's headers say these are deprecated, but a few fonts still rely on them num = kLetterCaseType; numType = CFNumberCreate(NULL, kCFNumberIntType, &num); num = kSmallCapsSelector; numSelector = CFNumberCreate(NULL, kCFNumberIntType, &num); innerDict = newAttrList(); CFDictionaryAddValue(innerDict, kCTFontFeatureTypeIdentifierKey, numType); CFRelease(numType); CFDictionaryAddValue(innerDict, kCTFontFeatureSelectorIdentifierKey, numSelector); CFRelease(numSelector); CFArrayAppendValue(outerArray, innerDict); CFRelease(innerDict); // and likewise for CFArray // these are the non-deprecated versions of the above; some fonts have these instead num = kLowerCaseType; numType = CFNumberCreate(NULL, kCFNumberIntType, &num); num = kLowerCaseSmallCapsSelector; numSelector = CFNumberCreate(NULL, kCFNumberIntType, &num); innerDict = newAttrList(); CFDictionaryAddValue(innerDict, kCTFontFeatureTypeIdentifierKey, numType); CFRelease(numType); CFDictionaryAddValue(innerDict, kCTFontFeatureSelectorIdentifierKey, numSelector); CFRelease(numSelector); CFArrayAppendValue(outerArray, innerDict); CFRelease(innerDict); // and likewise for CFArray CFDictionaryAddValue(attr, kCTFontFeatureSettingsAttribute, outerArray); CFRelease(outerArray); } #endif // Named constants for these were NOT added until 10.11, and even then they were added as external symbols instead of macros, so we can't use them directly :( // kode54 got these for me before I had access to El Capitan; thanks to him. #define ourNSFontWeightUltraLight -0.800000 #define ourNSFontWeightThin -0.600000 #define ourNSFontWeightLight -0.400000 #define ourNSFontWeightRegular 0.000000 #define ourNSFontWeightMedium 0.230000 #define ourNSFontWeightSemibold 0.300000 #define ourNSFontWeightBold 0.400000 #define ourNSFontWeightHeavy 0.560000 #define ourNSFontWeightBlack 0.620000 static const CGFloat ctWeights[] = { // yeah these two have their names swapped; blame Pango [uiDrawTextWeightThin] = ourNSFontWeightUltraLight, [uiDrawTextWeightUltraLight] = ourNSFontWeightThin, [uiDrawTextWeightLight] = ourNSFontWeightLight, // for this one let's go between Light and Regular // we're doing nearest so if there happens to be an exact value hopefully it's close enough [uiDrawTextWeightBook] = ourNSFontWeightLight + ((ourNSFontWeightRegular - ourNSFontWeightLight) / 2), [uiDrawTextWeightNormal] = ourNSFontWeightRegular, [uiDrawTextWeightMedium] = ourNSFontWeightMedium, [uiDrawTextWeightSemiBold] = ourNSFontWeightSemibold, [uiDrawTextWeightBold] = ourNSFontWeightBold, // for this one let's go between Bold and Heavy [uiDrawTextWeightUtraBold] = ourNSFontWeightBold + ((ourNSFontWeightHeavy - ourNSFontWeightBold) / 2), [uiDrawTextWeightHeavy] = ourNSFontWeightHeavy, [uiDrawTextWeightUltraHeavy] = ourNSFontWeightBlack, }; // Unfortunately there are still no named constants for these. // Let's just use normalized widths. // As far as I can tell (OS X only ships with condensed fonts, not expanded fonts; TODO), regardless of condensed or expanded, negative means condensed and positive means expanded. // TODO verify this is correct static const CGFloat ctStretches[] = { [uiDrawTextStretchUltraCondensed] = -1.0, [uiDrawTextStretchExtraCondensed] = -0.75, [uiDrawTextStretchCondensed] = -0.5, [uiDrawTextStretchSemiCondensed] = -0.25, [uiDrawTextStretchNormal] = 0.0, [uiDrawTextStretchSemiExpanded] = 0.25, [uiDrawTextStretchExpanded] = 0.5, [uiDrawTextStretchExtraExpanded] = 0.75, [uiDrawTextStretchUltraExpanded] = 1.0, }; struct closeness { CFIndex index; CGFloat weight; CGFloat italic; CGFloat stretch; CGFloat distance; }; // Stupidity: CTFont requires an **exact match for the entire traits dictionary**, otherwise it will **drop ALL the traits**. // We have to implement the closest match ourselves. // Also we have to do this before adding the small caps flags, because the matching descriptors won't have those. CTFontDescriptorRef matchTraits(CTFontDescriptorRef against, uiDrawTextWeight weight, uiDrawTextItalic italic, uiDrawTextStretch stretch) { CGFloat targetWeight; CGFloat italicCloseness, obliqueCloseness, normalCloseness; CGFloat targetStretch; CFArrayRef matching; CFIndex i, n; struct closeness *closeness; CTFontDescriptorRef current; CTFontDescriptorRef out; targetWeight = ctWeights[weight]; switch (italic) { case uiDrawTextItalicNormal: italicCloseness = 1; obliqueCloseness = 1; normalCloseness = 0; break; case uiDrawTextItalicOblique: italicCloseness = 0.5; obliqueCloseness = 0; normalCloseness = 1; break; case uiDrawTextItalicItalic: italicCloseness = 0; obliqueCloseness = 0.5; normalCloseness = 1; break; } targetStretch = ctStretches[stretch]; matching = CTFontDescriptorCreateMatchingFontDescriptors(against, NULL); if (matching == NULL) // no matches; give the original back and hope for the best return against; n = CFArrayGetCount(matching); if (n == 0) { // likewise CFRelease(matching); return against; } closeness = (struct closeness *) uiAlloc(n * sizeof (struct closeness), "struct closeness[]"); for (i = 0; i < n; i++) { CFDictionaryRef traits; CFNumberRef cfnum; CTFontSymbolicTraits symbolic; closeness[i].index = i; current = CFArrayGetValueAtIndex(matching, i); traits = CTFontDescriptorCopyAttribute(current, kCTFontTraitsAttribute); if (traits == NULL) { // couldn't get traits; be safe by ranking it lowest // LONGTERM figure out what the longest possible distances are closeness[i].weight = 3; closeness[i].italic = 2; closeness[i].stretch = 3; continue; } symbolic = 0; // assume no symbolic traits if none are listed cfnum = CFDictionaryGetValue(traits, kCTFontSymbolicTrait); if (cfnum != NULL) { SInt32 s; if (CFNumberGetValue(cfnum, kCFNumberSInt32Type, &s) == false) complain("error getting symbolic traits in matchTraits()"); symbolic = (CTFontSymbolicTraits) s; // Get rule; do not release cfnum } // now try weight cfnum = CFDictionaryGetValue(traits, kCTFontWeightTrait); if (cfnum != NULL) { CGFloat val; // LONGTERM instead of complaining for this and width and possibly also symbolic traits above, should we just fall through to the default? if (CFNumberGetValue(cfnum, kCFNumberCGFloatType, &val) == false) complain("error getting weight value in matchTraits()"); closeness[i].weight = val - targetWeight; } else // okay there's no weight key; let's try the literal meaning of the symbolic constant // LONGTERM is the weight key guaranteed? if ((symbolic & kCTFontBoldTrait) != 0) closeness[i].weight = ourNSFontWeightBold - targetWeight; else closeness[i].weight = ourNSFontWeightRegular - targetWeight; // italics is a bit harder because Core Text doesn't expose a concept of obliqueness // Pango just does a g_strrstr() (backwards case-sensitive search) for "Oblique" in the font's style name (see https://git.gnome.org/browse/pango/tree/pango/pangocoretext-fontmap.c); let's do that too I guess if ((symbolic & kCTFontItalicTrait) != 0) closeness[i].italic = italicCloseness; else { CFStringRef styleName; BOOL isOblique; isOblique = NO; // default value styleName = CTFontDescriptorCopyAttribute(current, kCTFontStyleNameAttribute); if (styleName != NULL) { CFRange range; // note the use of the toll-free bridge for the string literal, since CFSTR() *can* return NULL range = CFStringFind(styleName, (CFStringRef) @"Oblique", kCFCompareBackwards); if (range.location != kCFNotFound) isOblique = YES; CFRelease(styleName); } if (isOblique) closeness[i].italic = obliqueCloseness; else closeness[i].italic = normalCloseness; } // now try width // TODO this does not seem to be enough for Skia's extended variants; the width trait is 0 but the Expanded flag is on // TODO verify the rest of this matrix (what matrix?) cfnum = CFDictionaryGetValue(traits, kCTFontWidthTrait); if (cfnum != NULL) { CGFloat val; if (CFNumberGetValue(cfnum, kCFNumberCGFloatType, &val) == false) complain("error getting width value in matchTraits()"); closeness[i].stretch = val - targetStretch; } else // okay there's no width key; let's try the literal meaning of the symbolic constant // LONGTERM is the width key guaranteed? if ((symbolic & kCTFontExpandedTrait) != 0) closeness[i].stretch = 1.0 - targetStretch; else if ((symbolic & kCTFontCondensedTrait) != 0) closeness[i].stretch = -1.0 - targetStretch; else closeness[i].stretch = 0.0 - targetStretch; CFRelease(traits); } // now figure out the 3-space difference between the three and sort by that for (i = 0; i < n; i++) { CGFloat weight, italic, stretch; weight = closeness[i].weight; weight *= weight; italic = closeness[i].italic; italic *= italic; stretch = closeness[i].stretch; stretch *= stretch; closeness[i].distance = sqrt(weight + italic + stretch); } qsort_b(closeness, n, sizeof (struct closeness), ^(const void *aa, const void *bb) { const struct closeness *a = (const struct closeness *) aa; const struct closeness *b = (const struct closeness *) bb; // via http://www.gnu.org/software/libc/manual/html_node/Comparison-Functions.html#Comparison-Functions // LONGTERM is this really the best way? isn't it the same as if (*a < *b) return -1; if (*a > *b) return 1; return 0; ? return (a->distance > b->distance) - (a->distance < b->distance); }); // and the first element of the sorted array is what we want out = CFArrayGetValueAtIndex(matching, closeness[0].index); CFRetain(out); // get rule // release everything uiFree(closeness); CFRelease(matching); // and release the original descriptor since we no longer need it CFRelease(against); return out; } // Now remember what I said earlier about having to add the small caps traits after calling the above? This gets a dictionary back so we can do so. CFMutableDictionaryRef extractAttributes(CTFontDescriptorRef desc) { CFDictionaryRef dict; CFMutableDictionaryRef mdict; dict = CTFontDescriptorCopyAttributes(desc); // this might not be mutable, so make a mutable copy mdict = CFDictionaryCreateMutableCopy(NULL, 0, dict); CFRelease(dict); return mdict; } uiDrawTextFont *uiDrawLoadClosestFont(const uiDrawTextFontDescriptor *desc) { CTFontRef f; CFMutableDictionaryRef attr; CTFontDescriptorRef cfdesc; attr = newAttrList(); addFontFamilyAttr(attr, desc->Family); addFontSizeAttr(attr, desc->Size); // now we have to do the traits matching, so create a descriptor, match the traits, and then get the attributes back cfdesc = CTFontDescriptorCreateWithAttributes(attr); // TODO release attr? cfdesc = matchTraits(cfdesc, desc->Weight, desc->Italic, desc->Stretch); // specify the initial size again just to be safe f = CTFontCreateWithFontDescriptor(cfdesc, desc->Size, NULL); // TODO release cfdesc? return mkTextFont(f, NO); // we hold the initial reference; no need to retain again } void uiDrawFreeTextFont(uiDrawTextFont *font) { CFRelease(font->f); uiFree(font); } uintptr_t uiDrawTextFontHandle(uiDrawTextFont *font) { return (uintptr_t) (font->f); } void uiDrawTextFontDescribe(uiDrawTextFont *font, uiDrawTextFontDescriptor *desc) { // TODO } // text sizes and user space points are identical: // - https://developer.apple.com/library/mac/documentation/TextFonts/Conceptual/CocoaTextArchitecture/TypoFeatures/TextSystemFeatures.html#//apple_ref/doc/uid/TP40009459-CH6-51627-BBCCHIFF text points are 72 per inch // - https://developer.apple.com/library/mac/documentation/Cocoa/Conceptual/CocoaDrawingGuide/Transforms/Transforms.html#//apple_ref/doc/uid/TP40003290-CH204-SW5 user space points are 72 per inch void uiDrawTextFontGetMetrics(uiDrawTextFont *font, uiDrawTextFontMetrics *metrics) { metrics->Ascent = CTFontGetAscent(font->f); metrics->Descent = CTFontGetDescent(font->f); metrics->Leading = CTFontGetLeading(font->f); metrics->UnderlinePos = CTFontGetUnderlinePosition(font->f); metrics->UnderlineThickness = CTFontGetUnderlineThickness(font->f); } struct uiDrawTextLayout { CFMutableAttributedStringRef mas; CFRange *charsToRanges; double width; }; uiDrawTextLayout *uiDrawNewTextLayout(const char *str, uiDrawTextFont *defaultFont, double width) { uiDrawTextLayout *layout; CFAttributedStringRef immutable; CFMutableDictionaryRef attr; CFStringRef backing; CFIndex i, j, n; layout = uiNew(uiDrawTextLayout); attr = newAttrList(); // this will retain defaultFont->f; no need to worry CFDictionaryAddValue(attr, kCTFontAttributeName, defaultFont->f); immutable = CFAttributedStringCreate(NULL, (CFStringRef) [NSString stringWithUTF8String:str], attr); if (immutable == NULL) complain("error creating immutable attributed string in uiDrawNewTextLayout()"); CFRelease(attr); layout->mas = CFAttributedStringCreateMutableCopy(NULL, 0, immutable); if (layout->mas == NULL) complain("error creating attributed string in uiDrawNewTextLayout()"); CFRelease(immutable); uiDrawTextLayoutSetWidth(layout, width); // unfortunately the CFRanges for attributes expect UTF-16 codepoints // we want graphemes // fortunately CFStringGetRangeOfComposedCharactersAtIndex() is here for us // https://developer.apple.com/library/mac/documentation/Cocoa/Conceptual/Strings/Articles/stringsClusters.html says that this does work on all multi-codepoint graphemes (despite the name), and that this is the preferred function for this particular job anyway backing = CFAttributedStringGetString(layout->mas); n = CFStringGetLength(backing); // allocate one extra, just to be safe layout->charsToRanges = (CFRange *) uiAlloc((n + 1) * sizeof (CFRange), "CFRange[]"); i = 0; j = 0; while (i < n) { CFRange range; range = CFStringGetRangeOfComposedCharactersAtIndex(backing, i); i = range.location + range.length; layout->charsToRanges[j] = range; j++; } // and set the last one layout->charsToRanges[j].location = i; layout->charsToRanges[j].length = 0; return layout; } void uiDrawFreeTextLayout(uiDrawTextLayout *layout) { uiFree(layout->charsToRanges); CFRelease(layout->mas); uiFree(layout); } void uiDrawTextLayoutSetWidth(uiDrawTextLayout *layout, double width) { layout->width = width; } struct framesetter { CTFramesetterRef fs; CFMutableDictionaryRef frameAttrib; CGSize extents; }; // TODO CTFrameProgression for RTL/LTR // TODO kCTParagraphStyleSpecifierMaximumLineSpacing, kCTParagraphStyleSpecifierMinimumLineSpacing, kCTParagraphStyleSpecifierLineSpacingAdjustment for line spacing static void mkFramesetter(uiDrawTextLayout *layout, struct framesetter *fs) { CFRange fitRange; CGFloat width; fs->fs = CTFramesetterCreateWithAttributedString(layout->mas); if (fs->fs == NULL) complain("error creating CTFramesetter object in mkFramesetter()"); // TODO kCTFramePathWidthAttributeName? fs->frameAttrib = NULL; width = layout->width; if (layout->width < 0) width = CGFLOAT_MAX; // TODO these seem to be floor()'d or truncated? fs->extents = CTFramesetterSuggestFrameSizeWithConstraints(fs->fs, CFRangeMake(0, 0), fs->frameAttrib, CGSizeMake(width, CGFLOAT_MAX), &fitRange); // not documented as accepting NULL } static void freeFramesetter(struct framesetter *fs) { if (fs->frameAttrib != NULL) CFRelease(fs->frameAttrib); CFRelease(fs->fs); } // LONGTERM allow line separation and leading to be factored into a wrapping text layout // TODO reconcile differences in character wrapping on platforms void uiDrawTextLayoutExtents(uiDrawTextLayout *layout, double *width, double *height) { struct framesetter fs; mkFramesetter(layout, &fs); *width = fs.extents.width; *height = fs.extents.height; freeFramesetter(&fs); } // Core Text doesn't draw onto a flipped view correctly; we have to do this // see the iOS bits of the first example at https://developer.apple.com/library/mac/documentation/StringsTextFonts/Conceptual/CoreText_Programming/LayoutOperations/LayoutOperations.html#//apple_ref/doc/uid/TP40005533-CH12-SW1 (iOS is naturally flipped) // TODO how is this affected by the CTM? static void prepareContextForText(CGContextRef c, CGFloat cheight, double *y) { CGContextSaveGState(c); CGContextTranslateCTM(c, 0, cheight); CGContextScaleCTM(c, 1.0, -1.0); CGContextSetTextMatrix(c, CGAffineTransformIdentity); // wait, that's not enough; we need to offset y values to account for our new flipping *y = cheight - *y; } // TODO placement is incorrect for Helvetica void doDrawText(CGContextRef c, CGFloat cheight, double x, double y, uiDrawTextLayout *layout) { struct framesetter fs; CGRect rect; CGPathRef path; CTFrameRef frame; prepareContextForText(c, cheight, &y); mkFramesetter(layout, &fs); // oh, and since we're flipped, y is the bottom-left coordinate of the rectangle, not the top-left // since we are flipped, we subtract y -= fs.extents.height; rect.origin = CGPointMake(x, y); rect.size = fs.extents; path = CGPathCreateWithRect(rect, NULL); frame = CTFramesetterCreateFrame(fs.fs, CFRangeMake(0, 0), path, fs.frameAttrib); if (frame == NULL) complain("error creating CTFrame object in doDrawText()"); CTFrameDraw(frame, c); CFRelease(frame); CFRelease(path); freeFramesetter(&fs); CGContextRestoreGState(c); } // LONGTERM provide an equivalent to CTLineGetTypographicBounds() on uiDrawTextLayout? // LONGTERM keep this for later features and documentation purposes #if 0 w = CTLineGetTypographicBounds(line, &ascent, &descent, NULL); // though CTLineGetTypographicBounds() returns 0 on error, it also returns 0 on an empty string, so we can't reasonably check for error CFRelease(line); // LONGTERM provide a way to get the image bounds as a separate function later bounds = CTLineGetImageBounds(line, c); // though CTLineGetImageBounds() returns CGRectNull on error, it also returns CGRectNull on an empty string, so we can't reasonably check for error // CGContextSetTextPosition() positions at the baseline in the case of CTLineDraw(); we need the top-left corner instead CTLineGetTypographicBounds(line, &yoff, NULL, NULL); // remember that we're flipped, so we subtract y -= yoff; CGContextSetTextPosition(c, x, y); #endif static CFRange charsToRange(uiDrawTextLayout *layout, int startChar, int endChar) { CFRange start, end; CFRange out; start = layout->charsToRanges[startChar]; end = layout->charsToRanges[endChar]; out.location = start.location; out.length = end.location - start.location; return out; } #define rangeToCFRange() charsToRange(layout, startChar, endChar) void uiDrawTextLayoutSetColor(uiDrawTextLayout *layout, int startChar, int endChar, double r, double g, double b, double a) { CGColorSpaceRef colorspace; CGFloat components[4]; CGColorRef color; // for consistency with windows, use sRGB colorspace = CGColorSpaceCreateWithName(kCGColorSpaceSRGB); components[0] = r; components[1] = g; components[2] = b; components[3] = a; color = CGColorCreate(colorspace, components); CGColorSpaceRelease(colorspace); CFAttributedStringSetAttribute(layout->mas, rangeToCFRange(), kCTForegroundColorAttributeName, color); CGColorRelease(color); // TODO safe? }