/ios-mvp-clean-architecture

Demo iOS application built to highlight MVP (Model View Presenter) and Clean Architecture concepts

Primary LanguageSwiftMIT LicenseMIT

Library - iOS - MVP + Clean Architecture Demo

Description

Library is an iOS application built to highlight MVP (Model View Presenter) and Clean Architecture concepts

Run Requirements

  • Xcode 10
  • Swift 4.2

High Level Layers

MVP Concepts

Presentation Logic
  • View - delegates user interaction events to the Presenter and displays data passed by the Presenter
    • All UIViewController, UIView, UITableViewCell subclasses belong to the View layer
    • Usually the view is passive / dumb - it shouldn't contain any complex logic and that's why most of the times we don't need write Unit Tests for it
  • Presenter - contains the presentation logic and tells the View what to present
    • Usually we have one Presenter per scene (view controller)
    • It doesn't reference the concrete type of the View, but rather it references the View protocol that is implemented usually by a UIViewController subclass
    • It should be a plain Swift class and not reference any iOS framework classes - this makes it easier to reuse it maybe in a macOS application
    • It should be covered by Unit Tests
  • Configurator - injects the dependency object graph into the scene (view controller)
    • You could very easily use a DI (dependency injection) library. Unfortunately DI libraries are not quite mature yet on iOS / Swift
    • Usually it contains very simple logic and we don't need to write Unit Tests for it
  • Router - contains navigation / flow logic from one scene (view controller) to another
    • In some communities / blog posts it might be referred to as a FlowController
    • Writing tests for it is quite difficult because it contains many references to iOS framework classes so usually we try to keep it really simple and we don't write Unit Tests for it
    • It is usually referenced only by the Presenter but due to the func prepare(for segue: UIStoryboardSegue, sender: Any?) method we some times need to reference it in the view controller as well

Clean Architecture Concepts

Application Logic
  • UseCase / Interactor - contains the application / business logic for a specific use case in your application
    • It is referenced by the Presenter. The Presenter can reference multiple UseCases since it's common to have multiple use cases on the same screen
    • It manipulates Entities and communicates with Gateways to retrieve / persist the entities
    • The Gateway protocols should be defined in the Application Logic layers and implemented by the Gateways & Framework Logic
    • The separation described above ensures that the Application Logic depends on abstractions and not on actual frameworks / implementations
    • It should be covered by Unit Tests
  • Entity - plain Swift classes / structs
    • Models objects used by your application such as Order, Product, Shopping Cart, etc
Gateways & Framework Logic
  • Gateway - contains actual implementation of the protocols defined in the Application Logic layer
    • We can implement for instance a LocalPersistenceGateway protocol using CoreData or Realm
    • We can implement for instance an ApiGateway protocol using URLSession or Alamofire
    • We can implement for instance a UserSettings protocol using UserDefaults
    • It should be covered by Unit Tests
  • Persistence / API Entities - contains framework specific representations
    • For instance we could have a CoreDataOrder that is a NSManagedObject subclass
    • The CoreDataOrder would not be passed to the Application Logic layer but rather the Gateways & Framework Logic layer would have to "transform" it to an Order entity defined in the Application Logic layer
  • Framework specific APIs - contains implementations of iOS specific APIs such as sensors / bluetooth / camera

Demo Application Details

  • The demo applications tries to expose a fairly complex set of features that justifies the usage of the concepts presented above
  • The following Unit Tests have been written:
    • BooksPresenterTest - highlights how you can test the presentation logic
    • DeleteBookUseCaseTest - highlights how you can test the application / business logic and also how to test async code that uses completion handlers and NotificationCenter
    • CacheBooksGatewayTest - highlights how you can test a cache policy
    • CoreDataBooksGatewayTest - highlights how you can test a CoreData gateway
    • ApiClientTest - highlights how you can test the API / Networking layer of your application by substituting the URLSession stack
  • Code comments can be found in several classes highlighting different design decisions or referencing followup resources
  • The project structure tries to mimic the Screaming Architecture concept that can be found in the references section
  • High level UML diagram: High level UML diagram

Debatable Design Decisions

Giving that a large majority of mobile apps are a thin client on top of a set of APIs and that most of them contain little business logic (since most of the business logic is found in the APIs) some of the Clean Architecture concepts can be debatable in the mobile world. Below you can find some:

  • Creating a representation for each layer (API, CoreData) might seem like over-engineering. If your application relies heavily on an API that is under your control then it might make sense to model both the entity and the API representation using the same class. You shouldn't however allow the persistence representation (the NSManagedObject subclass for instance) leak in the other layers (see Parse example that got discontinued)
  • If you find that in most cases your Use Cases / Interactors simply delegate the actions to the Gateway then maybe you don't need the Use Cases / Interactors in the first place and you can use the Gateway directly in the Presenter
  • If you want to enforce the layer separation even more you can consider moving all the layers in their own projects / modules
  • Some might consider that creating display(xyz: String) methods on a CellView protocol is over-engineering and that passing a plane CellViewModel object to the CellView and have the view configure itself with the view model is more straightforward. If you want top keep the view as passive / dumb as possible then you should probably create the methods, but then again simply reading some strings from a view model and setting some labels is not really complex logic

The list above is definitely not complete, and if you identify other debatable decisions please create an issue and we can discuss about it and include it in the list above.

For the items listed above (and also for other items of your own) it is important that you use your own judgement and make an informed decision.

Keep in mind that you don't have to make all the design decisions up front and that you can refactor them in as you go.

Discuss about all the design decision with your team members and make sure you are all in agreement.

Useful Resources

MVP & Other presentation patterns

Clean Architecture

Unit Tests

Contributing

Please feel free to open an issue for any questions or suggestions you have!