iOS7 Day-by-Day :: Day 22 :: Downloadable Fonts

Written by Sam Davies

This post is part of a daily series of posts introducing the most exciting new parts of iOS7 for developers –#iOS7DayByDay. To see the posts you’ve missed check out the introduction page, but have a read through the rest of this post first!


iOS comes with a selection of pre-installed fonts, but it is by no means exhaustive. In order to save disk-space with the install image, iOS provides a mechanism for downloading and using fonts at run-time.

Apple provides a set of fonts which they host and license for use, including fonts for non-roman alphabets, and a selection of fonts users are used to using on desktop applications. The font-downloading functionality has been available since iOS6, but in iOS7 there’s a much larger list of available fonts.

Downloaded fonts are stored somewhere on the system – as app developers we don’t have access to where the fonts are stored. The font we require might well have already been downloaded at the request of another app, however, if this isn’t the case we need to be ready for the situation where the user doesn’t have network connectivity and therefore our chosen font isn’t available. Or when there is a delay downloading the requested font – do we switch the fonts out when they’re available?

Firstly we’ll take a look at how to get a list of fonts, before then demonstrating how to download and use a specific font.

The code for this blog post is available in the github repo which accompanies this series – at

Listing available fonts

The API for downloading fonts is not part of TextKit, but rather the underlying rendering engine CoreText. This therefore means that rather than dealing with Cocoa objects, we’re going to see a lot of CoreFoundation objects, and we’ll be leaning on toll-free bridging to make our lives easier.

The function in CoreText we need to use is CTFontDescriptorCreateMatchingFontDescriptors, and we use it to match an attribute which labels the font as a downloadable one: kCTFontDownloadableAttribute.

NSDictionary *descriptorOptions = @{(id)kCTFontDownloadableAttribute : @YES};
CTFontDescriptorRef descriptor = CTFontDescriptorCreateWithAttributes((CFDictionaryRef)descriptorOptions);
CFArrayRef fontDescriptors = CTFontDescriptorCreateMatchingFontDescriptors(descriptor, NULL);

The first line, we create an NSDictionary of descriptor attributes – here just specifying that we’re only interested in fonts which are downloadable. Then we create a CTFontDescriptorRef using this dictionary – note here that we cast the NSDictionary to aCFDictionaryRef – making use of toll-free bridging. Finally we call the method which will provide us with a list of fonts descriptors which match this descriptor we provided – i.e. a list of descriptors which represent downloadable fonts.

The call to this last method is blocking, and may require a network call, so we’re going to wrap this functionality up in arequestDownloadableFontList method:

- (void)requestDownloadableFontList
    dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_BACKGROUND, 0), ^{
        NSDictionary *descriptorOptions = @{(id)kCTFontDownloadableAttribute : @YES};
        CTFontDescriptorRef descriptor = CTFontDescriptorCreateWithAttributes((CFDictionaryRef)descriptorOptions);
        CFArrayRef fontDescriptors = CTFontDescriptorCreateMatchingFontDescriptors(descriptor, NULL);

        dispatch_async(dispatch_get_main_queue(), ^{
            [self fontListDownloadComplete:(NSArray *)CFBridgingRelease(fontDescriptors)];

        // Need to release the font descriptor

Things to note about this completed method:

  • We perform the request asynchronously on a background queue, so that we don’t block the main thread.
  • Therefore we marshal a call to the fontListDownloadComplete: method back on to the main queue.
  • This completion method expects an NSArray but we have a CFArrayRef, so we cast it to an NSArray. Since the method which created the CFArrayRef has the word Create in its name, we need to transfer ownership of the object into ARC with aCFBridgingRelease call.
  • Finally, we need to release the font descriptor with CFRelease, for the same reason.

In the sample app which accompanies today’s post we present these results as a table view which at the first level displays font family names. Tapping on one of the family names will then push a new tableview into the navigation controller which displays all the fonts within that family. Therefore, at the top level, we implement the following method for fontDownloadListComplete:

- (void)fontListDownloadComplete:(NSArray *)fontList
    // Need to reorganise array into dictionary
    NSMutableDictionary *fontFamilies = [NSMutableDictionary new];
    for(UIFontDescriptor *descriptor in fontList) {
        NSString *fontFamilyName = [descriptor objectForKey:UIFontDescriptorFamilyAttribute];
        NSMutableArray *fontDescriptors = [fontFamilies objectForKey:fontFamilyName];
        if(!fontDescriptors) {
            fontDescriptors = [NSMutableArray new];
            [fontFamilies setObject:fontDescriptors forKey:fontFamilyName];

        [fontDescriptors addObject:descriptor];

    _fontList = [fontFamilies copy];

    [self.tableView reloadData];

Here we are simply re-organising the array of font descriptors into a dictionary, arranged by font family. We’re making use here of the fact that UIFontDescriptor is toll-free bridged with CTFontDescriptorRef.

Once we have arranged the data correctly, we can reload the table. With the tableview datasource methods set appropriately, andviewDidLoad:

- (void)viewDidLoad
    [super viewDidLoad];
    // Do any additional setup after loading the view, typically from a nib.
    self.title = @"Families";

    [self requestDownloadableFontList];

we can run the app up and see that the first page of the navigation controller will look like this.

Fonts Families1font families

The next level of the navigation controller displays the fonts within a specific family, so to do that we create an NSArray property which contains a list of font descriptors. We set this in the prepareForSegue: method of the first view controller:

- (void)prepareForSegue:(UIStoryboardSegue *)segue sender:(id)sender
    if ([[segue identifier] isEqualToString:@"ShowFamily"]) {
        SCFontViewController *vc = [segue destinationViewController];
        NSIndexPath *indexPath = [self.tableView indexPathForSelectedRow];
        NSString *fontFamilyName = [_fontList allKeys][indexPath.row];
        NSArray *fontList = _fontList[fontFamilyName];
        vc.fontList = fontList;
        vc.title = fontFamilyName;

With appropriate datasource methods, the second level of the drill-down will look like this:


Downloading a font

The final stage of the app will display what the font looks like with some sample glyphs, if the font is available. Otherwise the user will have the opportunity to download the font.

The download process is completely within the handleDownloadPressed: method, and the function we’re interested in isCTFontDescriptorMatchFontDescriptorsWithProgressHandler. This takes a CFArrayRef of font descriptors and downloads the font if required. It takes a block as a parameter which provides updates of the user. This method returns immediately, and the operation is performed on a background queue.

- (IBAction)handleDownloadPressed:(id)sender {
    self.downloadProgressBar.hidden = NO;
            ^bool(CTFontDescriptorMatchingState state, CFDictionaryRef progressParameter) {
        double progressValue = [[(__bridge NSDictionary *)progressParameter objectForKey:(id)kCTFontDescriptorMatchingPercentage] doubleValue];
        if (state == kCTFontDescriptorMatchingDidFinish) {
            dispatch_async(dispatch_get_main_queue(), ^{
                self.downloadProgressBar.hidden = YES;
                [self updateView];
        } else {
            dispatch_async(dispatch_get_main_queue(), ^{
                self.downloadProgressBar.progress = progressValue;
        return (bool)YES;

In the progress block, we extract the current progress percentage from the provided dictionary, and update the progress bar as appropriate. If the state parameter suggests that the download has been completed, we call updateView, which is a method we have created to apply the font to the sample glyphs. Note that we have to ensure that the UI updates are performed on the main thread, as we usually do:

- (void)updateView
    NSString *fontName = [self.fontDescriptor objectForKey:UIFontDescriptorNameAttribute];
    self.title = fontName;
    UIFont *font = [UIFont fontWithName:fontName size:26.f];
    if(font && [font.fontName isEqualToString:fontName]) {
        self.sampleTextLabel.font = font;
        self.downloadButton.enabled = NO;
        self.detailDescriptionLabel.text = @"Font available";
    } else {
        self.sampleTextLabel.font = [UIFont systemFontOfSize:font.pointSize];
        self.downloadButton.enabled = YES;
        self.detailDescriptionLabel.text = @"This font is not yet downloaded";

Running the app up now will allow us to browse through the list of available fonts from Apple, and download each of them to try them out.

Pre DownloadPost DownloadPost DownloadPost Download


Downloadable fonts are a handy feature which will allow you to customise the appearance of your app without having to license a font and bundle it with your app. However, it’s important to ensure that you handle the case where the user doesn’t have network connectivity – what should the fall-back font be, and does the UI work with both options.

Don’t forget that you can get the code for this project on github at If you have any feedback/comments then feel free to use the comments box below, or hit me up on twitter – @iwantmyrealname.