Features

Lightweight Observable is a simple implementation of an observable sequence that you can subscribe to. The framework is designed to be minimal meanwhile convenient. The entire code is only ~100 lines (excluding comments). With Lightweight Observable you can easily set up UI-Bindings in an MVVM application, handle asynchronous network calls and a lot more.

Credits

The code was heavily influenced by roberthein/observable. However I needed something that was syntactically closer to RxSwift, which is why I came up with this code, and for re-usability reasons afterwards moved it into a CocoaPod.

Migration Guide

If you want to update from version 1.x.x, please have a look at the Lightweight Observable 2.0 Migration Guide

Example

To run the example project, clone the repo, and open the workspace from the Example directory.

Requirements

  • Swift 5.0
  • Xcode 10.2+
  • iOS 9.0+

Projects targeting iOS >= 13.0

In case your minimum required version is greater equal iOS 13.0, I highly recommend using Combine instead of adding Lightweight Observable as a dependency. If you rely on having a current and previous value in your subscription closure, please have a look at this extension: Combine+Pairwise.swift.

Integration

CocoaPods

CocoaPods is a dependency manager for Cocoa projects. For usage and installation instructions, visit their website. To integrate Lightweight Observable into your Xcode project using CocoaPods, specify it in your Podfile:

pod 'LightweightObservable', '~> 2.0'
Carthage

Carthage is a decentralized dependency manager that builds your dependencies and provides you with binary frameworks. To integrate Lightweight Observable into your Xcode project using Carthage, specify it in your Cartfile:

github "fxm90/LightweightObservable" ~> 2.0

Run carthage update to build the framework and drag the built LightweightObservable.framework into your Xcode project.

Swift Package Manager

The Swift Package Manager is a tool for automating the distribution of Swift code and is integrated into the swift compiler. It is in early development, but Lightweight Observable does support its use on supported platforms.

Once you have your Swift package set up, adding Lightweight Observable as a dependency is as easy as adding it to the dependencies value of your Package.swift.

dependencies: [
    .package(url: "https://github.com/fxm90/LightweightObservable", from: "2.0.0")
]

How to use

The framework provides three classes Observable, PublishSubject and Variable:

  • Observable: An observable sequence that you can subscribe to, but not change the underlying value (immutable). This is useful to avoid side-effects on an internal API.
  • PublishSubject: Subclass of Observable that starts empty and only emits new elements to subscribers (mutable).
  • Variable: Subclass of Observable that starts with an initial value and replays it or the latest element to new subscribers (mutable).

– Create and update a PublishSubject

A PublishSubject starts empty and only emits new elements to subscribers.

let userLocationSubject = PublishSubject<CLLocation>()

// ...

userLocationSubject.update(receivedUserLocation)

– Create and update a Variable

A Variable starts with an initial value and replays it or the latest element to new subscribers.

let formattedTimeSubject = Variable("4:20 PM")

// ...

formattedTimeSubject.value = "4:21 PM"

– Create an Observable

Initializing an observable directly is not possible, as this would lead to a sequence that will never change. Instead you need to cast a PublishSubject or a Variable to an Observable.

var formattedTime: Observable<String> {
    formattedTimeSubject
}
lazy var formattedTime: Observable<String> = formattedTimeSubject

– Subscribe to changes

A subscriber will be informed at different times, depending on the corresponding subclass of the observable:

  • PublishSubject: Starts empty and only emits new elements to subscribers.
  • Variable: Starts with an initial value and replays it or the latest element to new subscribers.
– Closure based subscription

Declaration

func subscribe(_ observer: @escaping Observer) -> Disposable

Use this method to subscribe to an observable via a closure:

formattedTime.subscribe { [weak self] newFormattedTime, oldFormattedTime in
    self?.timeLabel.text = newFormattedTime
}

Please notice that the old value (oldFormattedTime) is an optional of the underlying type, as we might not have this value on the initial call to the subscriber.

Important: To avoid retain cycles and/or crashes, always use [weak self] when self is needed by an observer.

- KeyPath based subscription

Declaration

func bind<Root: AnyObject>(to keyPath: ReferenceWritableKeyPath<Root, Value>, on object: Root) -> Disposable

It is also possible to use Swift's KeyPath feature to bind an observable directly to a property:

formattedTime.bind(to: \.text, on: timeLabel)

– Memory Management (Disposable / DisposeBag)

When you subscribe to an Observable the method returns a Disposable, which is basically a reference to the new subscription.

We need to maintain it, in order to properly control the life-cycle of that subscription.

Let me explain you why in a little example:

Imagine having a MVVM application using a service layer for network calls. A service is used as a singleton across the entire app.

The view-model has a reference to a service and subscribes to an observable property of this service. The subscription-closure is now saved inside the observable property on the service.

If the view-model gets deallocated (e.g. due to a dismissed view-controller), without noticing the observable property somehow, the subscription-closure would continue to be alive.

As a workaround, we store the returned disposable from the subscription on the view-model. On deallocation of the disposable, it automatically informs the observable property to remove the referenced subscription closure.

In case you only use a single subscriber you can store the returned Disposable to a variable:

// MARK: - Using `subscribe(_:)`

let disposable = formattedTime.subscribe { [weak self] newFormattedTime, oldFormattedTime in
    self?.timeLabel.text = newFormattedTime
}

// MARK: - Using a `bind(to:on:)`

let disposable = dateTimeViewModel
    .formattedTime
    .bind(to: \.text, on: timeLabel)

In case you're having multiple observers, you can store all returned Disposable in an array of Disposable. (To match the syntax from RxSwift, this pod contains a typealias called DisposeBag, which is an array of Disposable).

var disposeBag = DisposeBag()

// MARK: - Using `subscribe(_:)`

formattedTime.subscribe { [weak self] newFormattedTime, oldFormattedTime in
    self?.timeLabel.text = newFormattedTime
}.disposed(by: &disposeBag)

formattedDate.subscribe { [weak self] newFormattedDate, oldFormattedDate in
    self?.dateLabel.text = newFormattedDate
}.disposed(by: &disposeBag)

// MARK: - Using a `bind(to:on:)`

formattedTime
    .bind(to: \.text, on: timeLabel)
    .disposed(by: &disposeBag)

formattedDate
    .bind(to: \.text, on: dateLabel)
    .disposed(by: &disposeBag)

A DisposeBag is exactly what it says it is, a bag (or array) of disposables.

– Observing Equatable values

If you create an Observable which underlying type conforms to Equatable you can subscribe to changes using a specific filter. Therefore this pod contains the method:

typealias Filter = (NewValue, OldValue) -> Bool

func subscribe(filter: @escaping Filter, observer: @escaping Observer) -> Disposable {}

Using this method, the observer will only be notified on changes if the corresponding filter matches.

This pod comes with one predefined filter method, called subscribeDistinct. Subscribing to an observable using this method, will only notify the observer if the new value is different from the old value. This is useful to prevent unnecessary UI-Updates.

Feel free to add more filters, by extending the Observable like this:

extension Observable where T: Equatable {}

– Getting the current value synchronously

You can get the current value of the Observable by accessing the property value. However it is always better to subscribe to a given observable! This shortcut should only be used during testing.

XCTAssertEqual(viewModel.formattedTime.value, "4:20")

Sample code

Using the given approach, your view-model could look like this:

class TimeViewModel {
    // MARK: - Public properties

    /// The current time as a formatted string (**immutable**).
    var formattedTime: Observable<String> {
        formattedTimeSubject
    }

    // MARK: - Private properties

    /// The current time as a formatted string (**mutable**).
    private let formattedTimeSubject: Variable<String> = Variable("\(Date())")

    private var timer: Timer?

    // MARK: - Initializer

    init() {
        // Update variable with current time every second.
        timer = Timer.scheduledTimer(withTimeInterval: 1, repeats: true, block: { [weak self] _ in
            self?.formattedTimeSubject.value = "\(Date())"
        })
    }

And your view controller like this:

class TimeViewController: UIViewController {
    // MARK: - Outlets

    @IBOutlet private var timeLabel: UILabel!

    // MARK: - Private properties

    /// The view model calculating the current time.
    private let timeViewModel = TimeViewModel()

    /// The dispose bag for this view controller. On it's deallocation, it removes the
    /// subscription-closures from the corresponding observable-properties.
    private var disposeBag = DisposeBag()

    // MARK: - Public methods

    override func viewDidLoad() {
        super.viewDidLoad()

        timeViewModel
            .formattedTime
            .bind(to: \.text, on: timeLabel)
            .disposed(by: &disposeBag)
    }

Feel free to check out the example application as well for a better understanding of this approach ?

Author

Felix Mau (me(@)felix.hamburg)

License

LightweightObservable is available under the MIT license. See the LICENSE file for more info.

GitHub

https://github.com/fxm90/LightweightObservable