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redux sample

This sample makes use of the Redux and flutter_redux libraries to manage state.

Key Concepts

  • App State is an immutable Object that lives at the top of your Widget hierarchy within a Store.
  • The Store is passed down to all ancestors via an InheritedWidget called a StoreProvider
  • The State object is immutable. To create a new State, you must dispatch an Action.
  • The Action will be picked up by a Reducer, which is a function that builds and returns a new State based on the previous State and the Action that was dispatched.
  • Reducers are pure functions.
  • When there is a new app State, all Widgets connected to the Store using StoreConnector will be rebuilt.
  • The Widgets that use StoreConnectors are called container Widgets. They are only responsible for converting the latest App State to a ViewModel.
  • The Widgets that display data are called presentation widgets. Think of a Text widget or FloatingActionButton.
  • To read data from the State, use selector functions. These act like queries against your "State Database".
  • To handle fetching data from our Database or Web Service, we use a Middleware.

App State Singleton

In Redux, the idea is to store your Application State in a root level singleton.

If you read through the Vanilla example, you'll see this takes advantage of a core principle: Lifting State up. In this case, we're Lifting our App State all the way to the top of our App so that all descendants have access to it.

To accomplish this, you create a Redux Store and hand it to a StoreProvider. All descendants of the StoreProvider can access the store using a StoreProvider.of(context).store or by using StoreConnector Widget.

Updating App State

In order to update the App State in a Redux app, you must dispatch an Action.

This Action will then be intercepted by your Reducer function, which is responsible for updating the App State using the data contained within the Action.

Reducer functions are pure functions. They are only responsible for taking in the last state and the dispatched action, and returning a new App State.

This means Reducer functions should not make any API calls or have side effects such as logging. For this purpose, use Middleware.

While this may feel like "Boilerplate" when you first start using Redux, the motivation is thus (from the original Redux Docs):

If a model can update another model, then a view can update a model, which updates another model, and this, in turn, might cause another view to update. At some point, you no longer understand what happens in your app as you have lost control over the when, why, and how of its state. When a system is opaque and non-deterministic, it's hard to reproduce bugs or add new features.

If you've felt this pain in your app, it might be a good time to consider Redux or another State management pattern.

Dispatching Actions and updating the App State in this rigorous way allows you to easily determine:

  1. What Action caused a State change
  2. What Reducer is responsible for handling that change
  3. Why the State was broken in response to an Action.
  4. When a View needs to update in response to a State change

Updating UI

Whenever your App State changes, as a result of an Action for example, you most likely want to update your UI in some way.

To do so, connect to the StoreProvider using a StoreConnector Widget. The job of the StoreConnector widget is simple: Take the latest state of the store and convert it into a ViewModel. Then, build a Widget tree using this ViewModel.

Whenever the App State changes, the StoreConnector will rebuild the ViewModel and Widget tree.

In order to make it easier to test your Widgets and share functionality, it is recommended you have two types of Widgets:

  • container Widgets -- These use StoreConnector Widgets to build up a ViewModel for your presentation Widgets.
  • presentation Widgets -- StatelessWidgets that are given all the data they need and are responsible for building the UI.

This allows you to more easily test your presentation Widgets, because you only need to pass in the data they require in each test for rendering, and then write assertions against the rendered output. Think of them as the "pure functions" of our UI.

It also allows you to reuse container Widgets. For an example, please look at the AppLoading Widget.

Selector Functions

Selector functions are simple functions that provide a single point of access to your App State. For a full explanation of why they are useful, please refer to the reselect package.

Fetching and Storing Data using Middleware

In order to fetch our Todos from the Web or a Database, we need to make an async call. Since Reducer functions are pure, we must instead use a Middleware.

Middleware are run in response to Actions that are dispatched, and execute before the Reducer. This allows you to intercept an Action and fetch data in response!

In this app, we have a "Store Todos Middleware". It responds to LoadTodos and SaveTodos type of actions by either fetching the todos or persisting them to a Database or Web Service.

Testing

Generally, this app conforms the "Testing Pyramid": Lots of Unit tests, fewer Widget tests, and fewer integration tests.

  • Unit tests
    • Reducer functions are very easy to unit test since they are pure functions
    • Middleware functions that call out to APIs can be tested using Mock implementations. This is done using the Mockito library.
    • selector functions are also easy to test since they are pure.
  • Widget Tests
    • container Widgets can be tested to ensure they generate the correct ViewModel.
    • presentation Widgets can be tested by passing in fake data and making assertions against the Widget rendered with that data.
  • Integration Tests
    • Run the app and drive it using flutter_driver flutter drive --target test_driver/todo_app.dart.
    • Use the "Page Object Model" pattern to make the tests easier to read and maintain.