fountain 0.1.1-beta fountain: ^0.1.1-beta copied to clipboard
A new Flutter package project.
The modular state management solution for flutter.
- Easy debugging : each event is predictable and goes into a single pipeline
- Centralized state : solid state validation
- Power of async generators : writing asynchronous code is easy thanks to Dart generators
Quickstart #
The global logical state of our application :
class CounterState {
factory CounterState.initial() => const CounterState(0, 10);
const CounterState(this.count, this.max);
final int count;
final int max;
bool get isMax => count >= max;
}
The available actions that alterate the logical state of the application :
class AddAction extends ApplicationAction<CounterState> {
const AddAction(this.value);
final int value;
@override
Stream<ApplicationStateUpdater<CounterState>> call(
ApplicationContext<CounterState> context,
) async* {
yield (state) => CounterState(min(state.count + value, state.max), state.max);
}
}
class ResetAction extends ApplicationAction<CounterState> {
@override
Stream<ApplicationStateUpdater<CounterState>> call(
ApplicationContext<CounterState> context,
) async* {
yield (state) => CounterState(0, state.max);
}
}
class SaveAction extends ApplicationAction<CounterState> {
@override
Stream<ApplicationStateUpdater<CounterState>> call(
ApplicationContext<CounterState> context,
) async* {
await File(_cachePath).writeAsString(context.state.count.toString());
}
}
class LoadAction extends ApplicationAction<CounterState> {
@override
Stream<ApplicationStateUpdater<CounterState>> call(
ApplicationContext<CounterState> context,
) async* {
final content = await File(_cachePath).readAsString();
final count = int.parse(content);
yield (state) => CounterState(min(count, state.max), state.max);
}
}
The view that subscribes to the state changes and dispatches actions :
class MyHomePage extends StatelessWidget {
MyHomePage({Key? key}) : super(key: key);
@override
Widget build(BuildContext context) {
return Scaffold(
appBar: AppBar(
title: Text('Flutter Demo Home Page'),
),
body: Center(
child: Column(
mainAxisAlignment: MainAxisAlignment.center,
children: <Widget>[
Text(
'You have pushed the button this many times:',
),
Builder(
builder: (context) {
/// This widget will be rebuilt each time the `count` value changes
final count =
context.select((CounterState state) => state.count);
return Text(
'$count',
style: Theme.of(context).textTheme.headline4,
);
},
),
],
),
),
floatingActionButton: Builder(
builder: (context) {
/// This widget will be rebuilt each time the `isMax` value changes
final isMax = context.select((CounterState state) => state.isMax);
if (isMax) {
return FloatingActionButton(
/// The action is executed in the [ApplicationContext].
onPressed: () => context.dispatch<CounterState>(ResetAction()),
tooltip: 'Reset',
child: Icon(Icons.delete),
);
}
return FloatingActionButton(
/// The action is executed in the [ApplicationContext].
onPressed: () => context.dispatch<CounterState>(AddAction(1)),
tooltip: 'Increment',
child: Icon(Icons.add),
);
},
),
);
}
}
The state initialization :
class MyApp extends StatelessWidget {
@override
Widget build(BuildContext context) {
return ApplicationProvider(
initialState: (context) => CounterState.initial(),
child: MaterialApp(
title: 'Flutter Demo',
theme: ThemeData(
primarySwatch: Colors.blue,
),
home: MyHomePage(),
),
);
}
}
Core concepts #
ApplicationContext
The application context maintains a unique global logical immutable state for the application.
The context also contains all the middlewares that will process the dispatched event.
The application context is provided to the widget tree from an ApplicationProvider
so that any descendent widget can observe a property of the state with the select
extension method. It can also dispatch events into the middlewares with the dispatch
extension methods.
ApplicationMiddleware #
The application middleware process the dispatched ApplicationEvent
s and can produce state updates.
They are composable by nature which means that each middleware can wrap another middleware.
ApplicationEvent #
The events are inputs for middlewares. They can describe a user action, or a system event for exemple. They are processed by the middlewares which can produce new application states.
Included middlewares #
Actions #
By default, the framework includes a ApplicationActionExecutor
middleware that allows to define ApplicationActions
which are then invokes directly to produce new states.
Logger #
The framework also includes an ApplicationLogger
middleware that logs all actions and state updates.
About #
Wait ... yet another state management solution for Flutter ? #
Fountain is not so new to me, I've used this approach for a longtime now. Centralizing it as an opensource library makes a lot of sense to create a standard for a all of my personal and professional projects.
Inspired by #
This project stands on the shoulders of giants, with the intention of reducing boilerplate, being minimalist and simple at its core.
- Redux for the functional update cycle and general principles with the purpose of having less boilerplate by being more opiniated.
- Express | Koa for their composability and modularity thanks to middlewares.
- Bloc for its use of Streams.
- Provider for its
select
method.
How is it different from other popular solutions ? #
- Provider : Fountain is a lot more opiniated than Provider, and thus Provider is a more general purpose tool. It is often used in combination with a
ChangeNotifier
to create a simple solution. - Redux : Fountain has the same overall philosophy than Redux with
Thunks
but brings less boilerplate when dealing with asynchronous withApplicationAction
s logic by usingStream
s. Fountain also brings the middleware concept. - Bloc : Fountain use a global state instead of various
Blocs
. We believe it is important since there's a lot of areas which need to be aware of another part of your app logic. With a global state, each state update can be verified so that it does not break another part of the application.