statemachine 2.0.0 statemachine: ^2.0.0 copied to clipboard
A simple, yet powerful state machine framework for Dart supporting Flutter and web apps.
State Machine #
A simple, yet powerful state machine framework for Dart supporting Flutter and web apps.
This library is open source, stable and well tested. Development happens on GitHub. Feel free to report issues or create a pull-request there. General questions are best asked on StackOverflow.
The package is hosted on dart packages. Up-to-date class documentation is created with every release.
Tutorial #
Installation #
Follow the installation instructions on dart packages.
Import the package into your Dart code using:
import 'package:statemachine/statemachine.dart';
Creating a machine #
To create a new state machine instantiate Machine
:
var machine = Machine();
Defining states #
To create states call Machine.newState
and store them in variables. The first state created it the start state of the machine. Optionally you can provide a name as argument to ease debugging.
var startState = machine.newState();
var activeState = machine.newState('active');
It is possible to explicitly create start and stop states of the machine using Machine.newStartState
and Machine.newStopState
.
Callbacks on states #
States support callbacks whenever a state is entered or left.
activeState.onEntry(() => print('activated'));
activeState.onExit(() => print('deactivate'));
Starting and stopping a machine #
To start a state machine and set its state to its starting state call Machine.start
:
machine.start();
Similarly, you can stop a machine by calling Machine.stop
.
Transitioning between states #
There are various ways in which your machine can switch states.
Manually triggered transition
From anywhere within your code you can enter a specific state by calling State.enter
.
activeState.enter();
Event triggered transition
You can define transitions between states that are triggered by events of any kind using State.onStream
. The example below registers for click events when the inactive state is entered. In case of a click event the callback is executed, and the state machine transitions into the active state:
startState.onStream(element.onClick, (value) => activeState.enter());
Future completion transition
Also, transitions can be triggered by the completion of a future using State.onFuture
. Since futures cannot be suspended or cancelled, the future continues to run even if the owning state is deactivated. Should the state be activated, and the future value is already present, then the value is immediately supplied into the callback. Further activations have no effect.
startState.onFuture(computation, (value) => activeState.enter());
Time based transition
Also, you can automatically trigger callbacks after a timeout using State.onTimeout
. The following snippet calls the callback 1 second after the active state is entered and falls back to the inactive state:
activeState.onTimeout(Duration({seconds: 1}), () => startState.enter());
Callbacks often contain code to check for additional constraints and update other objects or UI element before entering a different state. See the tooltip example directory for a more complete illustration of the functionality provided by this library.
Nested machines #
Machines can be nested. Simply add another machine that gets started when the state is entered, and stopped when the state is left.
activeState.addNested(anotherMachine);
Misc #
Resources #
- The Rise Of The State Machines.
- You are managing state? Think twice.
- Robust React User Interfaces with Finite State Machines.
License #
The MIT License, see LICENSE.