cacao 0.2.1

Rust bindings for AppKit (macOS, beta) and UIKit (iOS/tvOS, alpha).
Documentation

Cacao

This library provides safe Rust bindings for AppKit on macOS (beta quality, fairly usable) and UIKit on iOS/tvOS (alpha quality, see repo). It tries to do so in a way that, if you've done programming for the framework before (in Swift or Objective-C), will feel familiar. This is tricky in Rust due to the ownership model, but some creative coding and assumptions can get us pretty far.

0.2.0 exists on crates.io in part to enable the project to see wider usage, which can inform development. That said, this library is currently early stages and may have bugs - your usage of it is at your own risk. However, provided you follow the rules (regarding memory/ownership) it's already fine for some apps. The core repository has a wealth of examples to help you get started.

Note that this crate relies on the Objective-C runtime. Interfacing with the runtime requires unsafe blocks; this crate handles those unsafe interactions for you and provides a safe wrapper, but by using this crate you understand that usage of unsafe is a given and will be somewhat rampant for wrapped controls. This does not mean you can't assess, review, or question unsafe usage - just know it's happening, and in large part it's not going away. Issues pertaining to the mere existence of unsafe will be closed without comment.

Hello World

use cacao::macos::{App, AppDelegate};
use cacao::macos::window::Window;

#[derive(Default)]
struct BasicApp {
    window: Window
}

impl AppDelegate for BasicApp {
    fn did_finish_launching(&self) {
        self.window.set_minimum_content_size(400., 400.);
        self.window.set_title("Hello World!");
        self.window.show();
    }
}

fn main() {
    App::new("com.hello.world", BasicApp::default()).run();
}

For more thorough examples, check the examples/ folder.

If you're interested in a more "kitchen sink" example, check out the todos_list with:

cargo run --example todos_list

Initialization

Due to the way that AppKit and UIKit programs typically work, you're encouraged to do the bulk of your work starting from the did_finish_launching() method of your AppDelegate. This ensures the application has had time to initialize and do any housekeeping necessary behind the scenes.

Currently Supported

In terms of mostly working pieces, the following currently work. This list is not exhaustive and you're encouraged to check out the documentation for more info:

  • App initialization and event delegation
  • Window construction, handling, and event delegation
  • View construction, basic styling, some event delegation
  • ViewController construction, lifecycle delegation
  • Color, for handling system-established color types
  • ListView support, including cell reuse (still needs testing)
  • Button support, as well as enabling them in Toolbars
  • Label and TextField support for basic text handling.
  • Image, ImageView and SystemIcon for image usage. Images can use a custom draw handler, and draw graphics with the core_graphics crate
  • Toolbar construction and basic API
  • SplitViewController support, including some Big-Sur-only additions
  • WebView with a basic API for handling callbacks
  • UserDefaults for persisting small pieces of data per-application
  • Autolayout for View layout and such

Optional Features

The following are a list of Cargo features that can be enabled or disabled.

The following are a list of Cargo features that can be enabled or disabled.

  • cloudkit: Links CloudKit.framework and provides some wrappers around CloudKit functionality. Currently not feature complete.
  • color_fallbacks: Provides fallback colors for older systems where systemColor types don't exist. This feature is very uncommon and you probably don't need it.
  • quicklook: Links QuickLook.framework and offers methods for generating preview images for files.
  • user-notifications: Links UserNotifications.framework and provides functionality for emitting notifications on macOS and iOS. Note that this requires your application be code-signed, and will not work without it.
  • webview: Links WebKit.framework and provides a WebView control backed by WKWebView. This feature is not supported on tvOS, as the platform has no webview control.
  • webview-downloading-macos: Enables downloading files from the WebView via a private interface. This is not an App-Store-safe feature, so be aware of that before enabling. This feature is not supported on iOS (a user would handle downloads very differently) or tvOS (there's no web browser there at all).

General Notes

Why not extend the existing cocoa-rs crate?
A good question. At the end of the day, that crate (I believe, and someone can correct me if I'm wrong) is somewhat tied to Servo, and I wanted to experiment with what the best approach for representing the Cocoa UI model in Rust was. This crate doesn't ignore their work entirely, either - core_foundation and core_graphics are used internally and re-exported for general use.

Why should I write in Rust, rather than X language?
In my case, I want to be able to write native applications for my devices (and the platform I like to build products for) without being locked in to writing in Apple-specific languages... and without writing in C/C++ or JavaScript (note: the toolchain, not the language - ES6/Typescript are fine). I want to do this because I'm tired of hitting a mountain of work when I want to port my applications to other ecosystems. I think that Rust offers a (growing, but significant) viable model for sharing code across platforms and ecosystems without sacrificing performance.

(This is the part where the internet lights up and rants about some combination of Electron, Qt, and so on - we're not bothering here as it's beaten to death elsewhere)

This crate is useful for people who don't need to go all-in on the Apple ecosystem, but want to port their work there with some relative ease. It's not expected that everyone will suddenly want to rewrite their macOS/iOS/tvOS apps in Rust.

Isn't Objective-C dead?
Yes, and no.

It's true that Apple definitely favors Swift, and for good reason (and I say this as an unabashed lover of Objective-C). With that said, I would be surprised if we didn't have another ~5+ years of support; Apple is quick to deprecate, but removing the Objective-C runtime would require a ton of time and effort. Maybe SwiftUI kills it, who knows. A wrapper around this stuff should conceivably make it easier to swap out the underlying UI backend whenever it comes time.

One thing to note is that Apple has started releasing Swift-only frameworks. For cases where you need those, it should be possible to do some combination of linking and bridging - which would inform how swapping out the underlying UI backend would happen at some point.

Some might also decry Objective-C as slow. To that, I'd note the following:

  • Your UI engine is probably not the bottleneck.
  • Swift is generally better as it fixes a class of bugs that Objective-C doesn't catch; for the most part it still sits on top of the existing Cocoa frameworks anyway (though this statement will not age well~).
  • Message dispatching in Objective-C is more optimized than significant chunks of the code you'll write, and is fast enough for most things.

tl;dr it's probably fine, and you have Rust for your performance needs.

Why not just wrap UIKit, and then rely on Catalyst?
I have yet to see a single application where Catalyst felt good. The goal is good, though, and if it got to a point where that just seemed like the way forward (e.g, Apple just kills AppKit) then it's certainly an option.

You can't possibly wrap all platform-specific behavior here...
Correct! Each UI control contains a objc field, which you can use as an escape hatch - if the control doesn't support something, you're free to drop to the Objective-C runtime yourself and handle it.

Why don't you use bindings to automatically generate this stuff?
For initial exploration purposes I've done most of this by hand, as I wanted to find an approach that fit well in the Rust model before committing to binding generation. This is something I'll likely focus on next now that I've got things "working" well enough.

Is this related to Cacao, the Swift project?
No. The project referred to in this question aimed to map portions of Cocoa and UIKit over to run on Linux, but hasn't seen activity in some time (it was really cool, too!).

Open source project naming in 2020 is like trying to buy a .com domain: everything good is taken. Luckily, multiple projects can share a name... so that's what's going to happen here.

Isn't this kind of cheating the Rust object model?
Depends on how you look at it. I personally don't care too much - the GUI layer for these platforms is a hard requirement to support for certain classes of products, and giving them up also means giving up battle-tested tools for things like Accessibility and deeper OS integration. With that said, internally there are efforts to try and make things respect Rust's model of how things should work.

You can think of this as similar to gtk-rs. If you want to support or try a more pure model, go check out Druid or something. :)

License

Dual licensed under an MIT/MPL-2.0 license. See the appropriate files in this repository for more information. Apple, AppKit, UIKit, Cocoa, and other trademarks are copyright Apple, Inc.

Questions, Comments, etc

You can follow me over on twitter or email me with questions that don't fit as an issue here.