Skip to content

SwiftUI sample app using Clean Architecture. Examples of working with CoreData persistence, networking, dependency injection, unit testing, and more.

License

Notifications You must be signed in to change notification settings

torburg/clean-architecture-swiftui

 
 

Repository files navigation

Articles related to this project


Clean Architecture for SwiftUI + Combine

A demo project showcasing the setup of the SwiftUI app with Clean Architecture.

The app uses the restcountries.com REST API to show the list of countries and details about them.

Check out mvvm branch for the MVVM revision of the same app.

For the example of handling the authentication state in the app, you can refer to my other tiny project that harnesses the locks and keys principle for solving this problem.

platforms Build Status codecov codebeat badge

Diagram

Key features

  • Vanilla SwiftUI + Combine implementation
  • Decoupled Presentation, Business Logic, and Data Access layers
  • Full test coverage, including the UI (thanks to the ViewInspector)
  • Redux-like centralized AppState as the single source of truth
  • Data persistence with CoreData
  • Native SwiftUI dependency injection
  • Programmatic navigation. Push notifications with deep link
  • Simple yet flexible networking layer built on Generics
  • Handling of the system events (such as didBecomeActive, willResignActive)
  • Built with SOLID, DRY, KISS, YAGNI in mind
  • Designed for scalability. It can be used as a reference for building large production apps

Architecture overview

Diagram

Presentation Layer

SwiftUI views that contain no business logic and are a function of the state.

Side effects are triggered by the user's actions (such as a tap on a button) or view lifecycle event onAppear and are forwarded to the Interactors.

State and business logic layer (AppState + Interactors) are natively injected into the view hierarchy with @Environment.

Business Logic Layer

Business Logic Layer is represented by Interactors.

Interactors receive requests to perform work, such as obtaining data from an external source or making computations, but they never return data back directly.

Instead, they forward the result to the AppState or to a Binding. The latter is used when the result of work (the data) is used locally by one View and does not belong to the AppState.

Previously, this app did not use CoreData for persistence, and all loaded data were stored in the AppState.

With the persistence layer in place we have a choice - either to load the DB content onto the AppState, or serve the data from Interactors on an on-demand basis through Binding.

The first option suits best when you don't have a lot of data, for example, when you just store the last used login email in the UserDefaults. Then, the corresponding string value can just be loaded onto the AppState at launch and updated by the Interactor when the user changes the input.

The second option is better when you have massive amounts of data and introduce a fully-fledged database for storing it locally.

Data Access Layer

Data Access Layer is represented by Repositories.

Repositories provide asynchronous API (Publisher from Combine) for making CRUD operations on the backend or a local database. They don't contain business logic, neither do they mutate the AppState. Repositories are accessible and used only by the Interactors.


Twitter blog venmo

About

SwiftUI sample app using Clean Architecture. Examples of working with CoreData persistence, networking, dependency injection, unit testing, and more.

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Swift 99.7%
  • Objective-C 0.3%