AnyRouter
by either UnownedRouter
(in viewControllers, viewModels or references to parent coordinators) or StrongRouter
in your AppDelegate
or for references to child coordinators. In addition to that, the rootViewController is now injected into the initializer instead of being created in the Coordinator.generateRootViewController
method.
βHow does an app transition from one view controller to another?β. This question is common and puzzling regarding iOS development. There are many answers, as every architecture has different implementation variations. Some do it from within the implementation of a view controller, while some use a router/coordinator, an object connecting view models.
To better answer the question, we are building XCoordinator, a navigation framework based on the Coordinator pattern. It's especially useful for implementing MVVM-C, Model-View-ViewModel-Coordinator:
Create an enum with all of the navigation paths for a particular flow, i.e. a group of closely connected scenes. (It is up to you when to create a Route/Coordinator
. As our rule of thumb, create a new Route/Coordinator
whenever a new root view controller, e.g. a new navigation controller
or a tab bar controller
, is needed.).
Whereas the Route
describes which routes can be triggered in a flow, the Coordinator
is responsible for the preparation of transitions based on routes being triggered. We could, therefore, prepare multiple coordinators for the same route, which differ in which transitions are executed for each route.
In the following example, we create the UserListRoute
enum to define triggers of a flow of our application. UserListRoute
offers routes to open the home screen, display a list of users, to open a specific user and to log out. The UserListCoordinator
is implemented to prepare transitions for the triggered routes. When a UserListCoordinator
is shown, it triggers the .home
route to display a HomeViewController
.
enum UserListRoute: Route {
case home
case users
case user(String)
case registerUsersPeek(from: Container)
case logout
}
class UserListCoordinator: NavigationCoordinator<UserListRoute> {
init() {
super.init(initialRoute: .home)
}
override func prepareTransition(for route: UserListRoute) -> NavigationTransition {
switch route {
case .home:
let viewController = HomeViewController.instantiateFromNib()
let viewModel = HomeViewModelImpl(router: unownedRouter)
viewController.bind(to: viewModel)
return .push(viewController)
case .users:
let viewController = UsersViewController.instantiateFromNib()
let viewModel = UsersViewModelImpl(router: unownedRouter)
viewController.bind(to: viewModel)
return .push(viewController, animation: .interactiveFade)
case .user(let username):
let coordinator = UserCoordinator(user: username)
return .present(coordinator, animation: .default)
case .registerUsersPeek(let source):
return registerPeek(for: source, route: .users)
case .logout:
return .dismiss()
}
}
}
Routes are triggered from within Coordinators or ViewModels. In the following, we describe how to trigger routes from within a ViewModel. The router of the current flow is injected into the ViewModel.
class HomeViewModel {
let router: UnownedRouter<HomeRoute>
init(router: UnownedRouter<HomeRoute>) {
self.router = router
}
/* ... */
func usersButtonPressed() {
router.trigger(.users)
}
}
In general, an app's structure is defined by nesting coordinators and view controllers. You can transition (i.e. push
, present
, pop
, dismiss
) to a different coordinator whenever your app changes to a different flow. Within a flow, we transition between viewControllers.
Example: In UserListCoordinator.prepareTransition(for:)
we change from the UserListRoute
to the UserRoute
whenever the UserListRoute.user
route is triggered. By dismissing a viewController in UserListRoute.logout
, we additionally switch back to the previous flow - in this case the HomeRoute
.
To achieve this behavior, every Coordinator has its own rootViewController
. This would be a UINavigationController
in the case of a NavigationCoordinator
, a UITabBarController
in the case of a TabBarCoordinator
, etc. When transitioning to a Coordinator/Router, this rootViewController
is used as the destination view controller.
To use coordinators from the launch of the app, make sure to create the app's window
programmatically in AppDelegate.swift
(Don't forget to remove Main Storyboard file base name
from Info.plist
). Then, set the coordinator as the root of the window
's view hierarchy in the AppDelegate.didFinishLaunching
. Make sure to hold a strong reference to your app's initial coordinator or a strongRouter
reference.
@UIApplicationMain
class AppDelegate: UIResponder, UIApplicationDelegate {
let window: UIWindow! = UIWindow()
let router = AppCoordinator().strongRouter
func application(_ application: UIApplication, didFinishLaunchingWithOptions launchOptions: [UIApplicationLaunchOptionsKey: Any]?) -> Bool {
router.setRoot(for: window)
return true
}
}
For more advanced use, XCoordinator offers many more customization options. We introduce custom animated transitions and deep linking. Furthermore, extensions for use in reactive programming with RxSwift/Combine and options to split up huge routes are described.
Custom animated transitions define presentation and dismissal animations. You can specify Animation
objects in prepareTransition(for:)
in your coordinator for several common transitions, such as present
, dismiss
, push
and pop
. Specifying no animation (nil
) results in not overriding previously set animations. Use Animation.default
to reset previously set animation to the default animations UIKit offers.
class UsersCoordinator: NavigationCoordinator<UserRoute> {
/* ... */
override func prepareTransition(for route: UserRoute) -> NavigationTransition {
switch route {
case .user(let name):
let animation = Animation(
presentationAnimation: YourAwesomePresentationTransitionAnimation(),
dismissalAnimation: YourAwesomeDismissalTransitionAnimation()
)
let viewController = UserViewController.instantiateFromNib()
let viewModel = UserViewModelImpl(name: name, router: unownedRouter)
viewController.bind(to: viewModel)
return .push(viewController, animation: animation)
/* ... */
}
}
}
Deep Linking can be used to chain different routes together. In contrast to the .multiple
transition, deep linking can identify routers based on previous transitions (e.g. when pushing or presenting a router), which enables chaining of routes of different types. Keep in mind, that you cannot access higher-level routers anymore once you trigger a route on a lower level of the router hierarchy.
class AppCoordinator: NavigationCoordinator<AppRoute> {
/* ... */
override func prepareTransition(for route: AppRoute) -> NavigationTransition {
switch route {
/* ... */
case .deep:
return deepLink(AppRoute.login, AppRoute.home, HomeRoute.news, HomeRoute.dismiss)
}
}
}
Let's assume, there is a route type called HugeRoute
with more than 10 routes. To decrease coupling, HugeRoute
needs to be split up into mutliple route types. As you will discover, many routes in HugeRoute
use transitions dependent on a specific rootViewController, such as push
, show
, pop
, etc. If splitting up routes by introducing a new router/coordinator is not an option, XCoordinator has two solutions for you to solve such a case: RedirectionRouter
or using multiple coordinators with the same rootViewController (see this section for more information).
A RedirectionRouter
can be used to map a new route type onto a generalized ParentRoute
. A RedirectionRouter
is independent of the TransitionType
of its parent router. You can use RedirectionRouter.init(viewController:parent:map:)
or subclassing by overriding mapToParentRoute(_:)
to create a RedirectionRouter
.
The following code example illustrates how a RedirectionRouter
is initialized and used.
class ParentCoordinator: NavigationCoordinator<ParentRoute> {
/* ... */
override func prepareTransition(for route: ParentRoute) -> NavigationTransition {
switch route {
/* ... */
case .child:
let childCoordinator = ChildCoordinator(parent: unownedRouter)
return .push(childCoordinator)
}
}
}
class ChildCoordinator: RedirectionRouter<ParentRoute, ChildRoute> {
init(parent: UnownedRouter<ParentRoute>) {
let viewController = UIViewController()
// this viewController is used when performing transitions with the Subcoordinator directly.
super.init(viewController: viewController, parent: parent, map: nil)
}
/* ... */
override func mapToParentRoute(for route: ChildRoute) -> ParentRoute {
// you can map your ChildRoute enum to ParentRoute cases here that will get triggered on the parent router.
}
}
With XCoordinator 2.0, we introduce the option to use different coordinators with the same rootViewController. Since you can specify the rootViewController in the initializer of a new coordinator, you can specify an existing coordinator's rootViewController as in the following:
class FirstCoordinator: NavigationCoordinator<FirstRoute> {
/* ... */
override func prepareTransition(for route: FirstRoute) -> NavigationTransition {
switch route {
case .secondCoordinator:
let secondCoordinator = SecondCoordinator(rootViewController: self.rootViewController)
addChild(secondCoordinator)
return .none()
// you could also trigger a specific initial route at this point,
// such as `.trigger(SecondRoute.initial, on: secondCoordinator)`
}
}
}
We suggest to not use initial routes in the initializers of sibling coordinators, but instead using the transition option in the FirstCoordinator
instead.
viewController
property), your app will most likely crash.
Reactive programming can be very useful to keep the state of view and model consistent in a MVVM architecture. Instead of relying on the completion handler of the trigger
method available in any Router
, you can also use our RxSwift-extension. In the example application, we use Actions (from the Action framework) to trigger routes on certain UI events - e.g. to trigger LoginRoute.home
in LoginViewModel
, when the login button is tapped.
class LoginViewModelImpl: LoginViewModel, LoginViewModelInput, LoginViewModelOutput {
private let router: UnownedRouter<AppRoute>
private lazy var loginAction = CocoaAction { [unowned self] in
return self.router.rx.trigger(.home)
}
/* ... */
}
In addition to the above-mentioned approach, the reactive trigger
extension can also be used to sequence different transitions by using the flatMap
operator, as can be seen in the following:
let doneWithBothTransitions =
router.rx.trigger(.home)
.flatMap { [unowned self] in self.router.rx.trigger(.news) }
.map { true }
.startWith(false)
When using XCoordinator
with the Combine
extensions, you can use router.publishers.trigger
instead of router.rx.trigger
.
To get more information about XCoordinator, check out the documentation. Additionally, this repository serves as an example project using a MVVM architecture with XCoordinator.
For a MVC example app, have a look at some presentations we did about the Coordinator pattern and XCoordinator.
-
Separation of responsibilities with the coordinator being the only component knowing anything related to the flow of your application.
-
Reusable Views and ViewModels because they do not contain any navigation logic.
-
Less coupling between components
-
Changeable navigation: Each coordinator is only responsible for one component and does not need to make assumptions about its parent. It can therefore be placed wherever we want to.
The Coordinator by Soroush Khanlou
- Actual navigation code is already written and abstracted away.
- Clear separation of concerns:
- Coordinator: Coordinates routing of a set of routes.
- Route: Describes navigation path.
- Transition: Describe transition type and animation to new view.
- Reuse coordinators, routers and transitions in different combinations.
- Full support for custom transitions/animations.
- Support for embedding child views / container views.
- Generic
BasicCoordinator
classes suitable for many use cases and therefore less need to write your own coordinators. - Full support for your own coordinator classes conforming to our Coordinator protocol
- You can also start with one of the following types to get a head start:
NavigationCoordinator
,ViewCoordinator
,TabBarCoordinator
and more.
- You can also start with one of the following types to get a head start:
- Generic AnyRouter type erasure class encapsulates all types of coordinators and routers supporting the same set of routes. Therefore you can easily replace coordinators.
- Use of enum for routes gives you autocompletion and type safety to perform only transition to routes supported by the coordinator.
Describes possible navigation paths within a flow, a collection of closely related scenes.
An object loading views and creating viewModels based on triggered routes. A Coordinator creates and performs transitions to these scenes based on the data transferred via the route. In contrast to the coordinator, a router can be seen as an abstraction from that concept limited to triggering routes. Often, a Router is used to abstract from a specific coordinator in ViewModels.
You can create different router abstractions using the unownedRouter
, weakRouter
or strongRouter
properties of your Coordinator
.
You can decide between the following router abstractions of your coordinator:
- StrongRouter holds a strong reference to the original coordinator. You can use this to hold child coordinators or to specify a certain router in the
AppDelegate
. - WeakRouter holds a weak reference to the original coordinator. You can use this to hold a coordinator in a viewController or viewModel. It can also be used to keep a reference to a sibling or parent coordinator.
- UnownedRouter holds an unowned reference to the original coordinator. You can use this to hold a coordinator in a viewController or viewModel. It can also be used to keep a reference to a sibling or parent coordinator.
If you want to know more about the differences on how references can be held, have a look here.
Transitions describe the navigation from one view to another. Transitions are available based on the type of the root view controller in use. Example: Whereas ViewTransition
only supports basic transitions that every root view controller supports, NavigationTransition
adds navigation controller specific transitions.
The available transition types include:
- present presents a view controller on top of the view hierarchy - use presentOnRoot in case you want to present from the root view controller
- embed embeds a view controller into a container view
- dismiss dismisses the top most presented view controller - use dismissToRoot to call dismiss on the root view controller
- none does nothing, may be used to ignore routes or for testing purposes
- push pushes a view controller to the navigation stack (only in
NavigationTransition
) - pop pops the top view controller from the navigation stack (only in
NavigationTransition
) - popToRoot pops all the view controllers on the navigation stack except the root view controller (only in
NavigationTransition
)
XCoordinator additionally supports common transitions for UITabBarController
, UISplitViewController
and UIPageViewController
root view controllers.
To integrate XCoordinator into your Xcode project using CocoaPods, add this to your Podfile
:
pod 'XCoordinator', '~> 2.0'
To use the RxSwift extensions, add this to your Podfile
:
pod 'XCoordinator/RxSwift', '~> 2.0'
To use the Combine extensions, add this to your Podfile
:
pod 'XCoordinator/Combine', '~> 2.0'
To integrate XCoordinator into your Xcode project using Carthage, add this to your Cartfile
:
github "quickbirdstudios/XCoordinator" ~> 2.0
Then run carthage update
.
If this is your first time using Carthage in the project, you'll need to go through some additional steps as explained over at Carthage.
See this WWDC presentation about more information how to adopt Swift packages in your app.
Specify https://github.com/quickbirdstudios/XCoordinator.git
as the XCoordinator
package link.
You can then decide between three different frameworks, i.e. XCoordinator
, XCoordinatorRx
and XCoordinatorCombine
.
While XCoordinator
contains the main framework, you can choose XCoordinatorRx
or XCoordinatorCombine
to get RxSwift
or Combine
extensions as well.
If you prefer not to use any of the dependency managers, you can integrate XCoordinator into your project manually, by downloading the source code and placing the files on your project directory.
This framework is created with β€οΈ by QuickBird Studios.
To get more information on XCoordinator check out our blog post.
Open an issue if you need help, if you found a bug, or if you want to discuss a feature request. If you feel like having a chat about XCoordinator with the developers and other users, join our Slack Workspace.
Open a PR if you want to make changes to XCoordinator.
XCoordinator is released under an MIT license. See License.md for more information.