Controlling State from outside of a StatefulWidget

There are multiple ways to interact with other stateful widgets.

1. findAncestorStateOfType

The first and most straightforward is through context.findAncestorStateOfType method.

Usually wrapped in a static method of the Stateful subclass like this :

class MyState extends StatefulWidget {
  static of(BuildContext context, {bool root = false}) => root
      ? context.findRootAncestorStateOfType<_MyStateState>()
      : context.findAncestorStateOfType<_MyStateState>();

  @override
  _MyStateState createState() => _MyStateState();
}

class _MyStateState extends State<MyState> {
  @override
  Widget build(BuildContext context) {
    return Container();
  }
}

This is how Navigator works for example.

Pro:

• Easiest solution

Con:

• Tempted to access State properties or manually call setState
• Requires to expose State subclass

Don’t use this method when you want to access a variable. As your widget may not reload when that variable change.

2. Listenable, Stream and/or InheritedWidget

Sometimes instead of a method, you may want to access some properties. The thing is, you most likely want your widgets to update whenever that value changes over time.

In this situation, dart offer Stream and Sink. And flutter adds on the top of it InheritedWidget and Listenable such as ValueNotifier. They all do relatively the same thing: subscribing to a value change event when coupled with a StreamBuilder/context.dependOnInheritedWidgetOfExactType/AnimatedBuilder.

This is the go-to solution when you want your State to expose some properties. I won’t cover all the possibilities but here’s a small example using InheritedWidget :

First, we have an InheritedWidget that expose a count :

class Count extends InheritedWidget {
  static of(BuildContext context) =>
      context.dependOnInheritedWidgetOfExactType<Count>();

  final int count;

  Count({Key key, @required Widget child, @required this.count})
      : assert(count != null),
        super(key: key, child: child);

  @override
  bool updateShouldNotify(Count oldWidget) {
    return this.count != oldWidget.count;
  }
}

Then we have our State that instantiate this InheritedWidget

class _MyStateState extends State<MyState> {
  int count = 0;

  @override
  Widget build(BuildContext context) {
    return Count(
      count: count,
      child: Scaffold(
        body: CountBody(),
        floatingActionButton: FloatingActionButton(
          onPressed: () {
            setState(() {
              count++;
            });
          },
        ),
      ),
    );
  }
}

Finally, we have our CountBody that fetch this exposed count

class CountBody extends StatelessWidget {
  @override
  Widget build(BuildContext context) {
    return Center(
      child: Text(Count.of(context).count.toString()),
    );
  }
}

Pros:

• More performant than findAncestorStateOfType
• Stream alternative is dart only (works with web) and is strongly integrated in the language (keywords such as await for or async*)
• Automic reload of the children when the value change

Cons:

• More boilerplate
• Stream can be complicated

3. Notifications

Instead of directly calling methods on State, you can send a Notification from your widget. And make State subscribe to these notifications.

An example of Notification would be :

class MyNotification extends Notification {
  final String title;

  const MyNotification({this.title});
}

To dispatch the notification simply call dispatch(context) on your notification instance and it will bubble up.

MyNotification(title: "Foo")..dispatch(context)

Note: you need put above line of code inside a class, otherwise no context, can NOT call notification.

Any given widget can listen to notifications dispatched by their children using NotificationListener<T> :

class _MyStateState extends State<MyState> {
  @override
  Widget build(BuildContext context) {
    return NotificationListener<MyNotification>(
      onNotification: onTitlePush,
      child: Container(),
    );
  }

  bool onTitlePush(MyNotification notification) {
    print("New item ${notification.title}");
    // true meaning processed, no following notification bubbling.
    return true;
  }
}

An example would be Scrollable, which can dispatch ScrollNotification including start/end/overscroll. Then used by Scrollbar to know scroll information without having access to ScrollController

Pros:

• Cool reactive API. We don’t directly do stuff on State. It’s State that subscribes to events triggered by its children
• More than one widget can subscribe to that same notification
• Prevents children from accessing unwanted State properties

Cons:

• May not fit your use-case
• Requires more boilerplate