/state

Finite state machine for TypeScript and JavaScript

Primary LanguageJavaScriptMIT LicenseMIT

state

Executable finite state machine for TypeScript and JavaScript.

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Note: v8 is now live and contains breaking changes but offers a further simplified code base performance improvements. See the release notes for more information.

Warning: v8 does not yet contain any support for serialization due to the challanges brought by the introduction of deferred events which are cached within the state machine instance alongside the active state configuration.

Install

npm i @steelbreeze/state

Usage

The API is broken up into two distinct parts:

  1. A set of classes that represent a state machine model (State, PseudoState, Region, etc.);
  2. An class managing the active state configuration of a state machine instance at runtime (Instance).

Together, they enable multiple instances of the same state machine model.

The full API reference can be found here.

TypeScript

import * as state from "@steelbreeze/state";

// create event class that a transition will respond to
class MyEvent {
	public constructor(public fieldA: string, public fieldB: number) { }

	public toString(): string {
		return JSON.stringify(this);
	}
}

// log state entry, exit and trigger event evaluation
state.log.add(message => console.info(message), state.log.Entry | state.log.Exit | state.log.Evaluate);

// create the state machine model elements
const model = new state.State("model");
const initial = new state.PseudoState("initial", model, state.PseudoStateKind.Initial);
const stateA = new state.State("stateA", model);
const stateB = new state.State("stateB", model);

// create the transition from initial pseudo state to stateA
initial.to(stateA);

// create a transtion from stateA to stateB a for events of type MyEvent with a guard condition
stateA.on(MyEvent).when(myEvent => myEvent.fieldB > 2).to(stateB);

// create an instance of the state machine model
let instance = new state.Instance("instance", model);

// send the machine events for evaluation
instance.evaluate(new MyEvent("test", 1));
instance.evaluate(new MyEvent("test", 3));

JavaScript (ECMAScript 2015)

var state = require("@steelbreeze/state");

// create event class that a transition will respond to
class MyEvent {
	constructor(fieldA, fieldB) { this.fieldA = fieldA; this.fieldB = fieldB; }

	toString() { return JSON.stringify(this); }
}

// log state entry, exit and trigger event evaluation
state.log.add(message => console.info(message), state.log.Entry | state.log.Exit | state.log.Evaluate);

// create the state machine model elements
const model = new state.State("model");
const initial = new state.PseudoState("initial", model, state.PseudoStateKind.Initial);
const stateA = new state.State("stateA", model);
const stateB = new state.State("stateB", model);

// create the transition from initial pseudo state to stateA
initial.to(stateA);

// create a transtion from stateA to stateB a for events of type MyEvent with a guard condition
stateA.on(MyEvent).when(myEvent => myEvent.fieldB > 2).to(stateB);

// create an instance of the state machine model
let instance = new state.Instance("instance", model);

// send the machine events for evaluation
instance.evaluate(new MyEvent("test", 1));
instance.evaluate(new MyEvent("test", 3));

JavaScript (ECMAScript 3)

var state = require("@steelbreeze/state");

// create event class that a transition will respond to
var MyEvent = (function () {
	function MyEvent(fieldA, fieldB) { this.fieldA = fieldA; this.fieldB = fieldB; }

	MyEvent.prototype.toString = function () { return JSON.stringify(this); };

	return MyEvent;
}());

// log state entry, exit and trigger event evaluation
state.log.add(function (message) { console.info(message); }, state.log.Entry | state.log.Exit | state.log.Evaluate);

// create the state machine model elements
var model = new state.State("model");
var initial = new state.PseudoState("initial", model, state.PseudoStateKind.Initial);
var stateA = new state.State("stateA", model);
var stateB = new state.State("stateB", model);

// create the transition from initial pseudo state to stateA
initial.to(stateA);

// create a transtion from stateA to stateB a for events of type MyEvent with a guard condition
stateA.on(MyEvent).when(function (myEvent) { return myEvent.fieldB > 2; }).to(stateB);

// create an instance of the state machine model
var instance = new state.Instance("instance", model);

// send the machine events for evaluation
instance.evaluate(new MyEvent("test", 1));
instance.evaluate(new MyEvent("test", 3));

Output

The output of the above code will be:

instance enter model
instance enter model.default
instance enter model.default.initial
instance leave model.default.initial
instance enter model.default.stateA
instance evaluate {"fieldA":"test","fieldB":1}
instance evaluate {"fieldA":"test","fieldB":3}
instance leave model.default.stateA
instance enter model.default.stateB

Note that in the example above, a default region is inserted as a child of model and parent of initial, stateA and stateB; the name of default regions copy their parent state hence seeing model.model in the output above.

License

MIT License

Copyright (c) 2014-9 David Mesquita-Morris