How does one get all characters of the font with CTFontCopyCharacterSet() in Swift? ... for macOS?

The issue occured when implementing the approach from an OSX: CGGlyph to UniChar answer in Swift.

func createUnicodeFontMap() {
    // Get all characters of the font with CTFontCopyCharacterSet().
    let cfCharacterSet: CFCharacterSet = CTFontCopyCharacterSet(ctFont)

    let cfCharacterSetStr = "\(cfCharacterSet)"
    print("CFCharacterSet: \(cfCharacterSet)")  

    // Map all Unicode characters to corresponding glyphs
    var unichars = [UniChar](…NYI…) // NYI: lacking unichars for CFCharacterSet
    var glyphs = [CGGlyph](repeating: 0, count: unichars.count)
    guard CTFontGetGlyphsForCharacters(
        ctFont, // font: CTFont
        &unichars, // characters: UnsafePointer<UniChar>
        &glyphs, // UnsafeMutablePointer<CGGlyph>
        unichars.count // count: CFIndex
        else {

    // For each Unicode character and its glyph, 
    // store the mapping glyph -> Unicode in a dictionary.
    // ... NYI

What to do with CFCharacterSet to retrieve the actual characters has been elusive. Autocompletion of the cfCharacterSet instance offers show no relavant methods.

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And the Core Foundation > CFCharacterSet appears have methods for creating another CFCharacterSet, but not something the provides an array|list|string of unichars to be able to create a mapped dictionary.

Note: I'm looking for a solution which is not specific to iOS as in Get all available characters from a font which uses UIFont.


CFCharacterSet is toll-free bridged with the Cocoa Foundation counterpart NSCharacterSet, and can be bridged to the corresponding Swift value type CharacterSet:

let charset = CTFontCopyCharacterSet(ctFont) as CharacterSet

Then the approach from NSArray from NSCharacterSet can be used to enumerate all Unicode scalar values of that character set (including non-BMP points, i.e. Unicode scalar values greater than U+FFFF).

The CTFontGetGlyphsForCharacters() expects non-BMP characters as surrogate pair, i.e. as an array of UTF-16 code units.

Putting it together, the function would look like this:

func createUnicodeFontMap(ctFont: CTFont) ->  [CGGlyph : UnicodeScalar] {

    let charset = CTFontCopyCharacterSet(ctFont) as CharacterSet

    var glyphToUnicode = [CGGlyph : UnicodeScalar]() // Start with empty map.

    // Enumerate all Unicode scalar values from the character set:
    for plane: UInt8 in 0...16 where charset.hasMember(inPlane: plane) {
        for unicode in UTF32Char(plane) << 16 ..< UTF32Char(plane + 1) << 16 {
            if let uniChar = UnicodeScalar(unicode), charset.contains(uniChar) {

                // Get glyph for this `uniChar` ...
                let utf16 = Array(uniChar.utf16)
                var glyphs = [CGGlyph](repeating: 0, count: utf16.count)
                if CTFontGetGlyphsForCharacters(ctFont, utf16, &glyphs, utf16.count) {
                    // ... and add it to the map.
                    glyphToUnicode[glyphs[0]] = uniChar

    return glyphToUnicode
| improve this answer | |

You can do something like this.

let cs = CTFontCopyCharacterSet(font) as NSCharacterSet
let bitmapRepresentation = cs.bitmapRepresentation

The format of the bitmap is defined in the reference page for CFCharacterSetCreateWithBitmapRepresentation

| improve this answer | |
  • 1
    as CharacterSet. developer.apple.com/documentation/foundation/characterset would also lead to the .bitmapRepresentation approach. – l --marc l Jun 27 '19 at 19:37
  • 1
    Good to know. Also worth mentioning that using the bitmapRepresentation you can be quite a bit more efficient than the accepted answer; it has to loop through 65535 unicodes for each plane. Using bitmap representation you can skip groups of 8 - 64 by comparing a UInt8 - UInt64 at an index in the buffer to zero. Then you can skip regions that have no codes in them. – idz Jun 27 '19 at 20:06
  • Interesting. I was unfamiliar with the bitmapRepresentation data format so, next steps to a mapped dictionary of UnicodeScalar was TBD... although likely not difficult. A secondary, longer term goal is have some CGFont and CTFont functionality in portable Swift (e.g. Ubuntu, etc). My workaround, for now, (and use case for this question) is a one-time pass to extract some desired font metrics to a portable format. I may revisit this approach if better performance is needed. Thx. – l --marc l Jun 27 '19 at 21:23
  • Yeah, I have no idea if the time taken to do either approach would ever be significant, just thought I'd mention it for completeness sake. – idz Jun 27 '19 at 21:33
  • 1
    Just enumerating the character set of "Helvetiva“ takes 6 milliseconds on my MacBook. – Btw, note that planes 1...15 in the bitmapRepresentation are not aligned at 8 byte boundaries, that must be taken care of when interpreting the data as UInt64 numbers. – Martin R Jun 28 '19 at 7:05

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