Non-deterministic Finite State Machine (with Empty Moves) Implementation
Bower:
$ bower install --save avtomat
The syntax of the constructor is:
Avtomat.StateMachine(states, startState)where:
statesis the JSON object containing the details of the machine's states (see below)startStateis the ID of the state acting as a start state of the machine
The states object has this following structure:
{
"stateID1": {
"final": stateFinal, // Boolean
"transitions": {
// stateSymbol could be integer, float, or string
"inputSymbol1": "stateID1",
"inputSymbol2": "stateID2",
// more transitions...
"inputSymbol3": ["stateID1", "stateID2"], // NFA machine can have two or more destination states
"": "stateName3" // for the empty (epsilon) moves, put a zero-length string for input
}
},
"stateID2": {
// ...
},
// more states...
}where:
stateIDis a string which acts as identifier for a statestateFinalis a Boolean valueinputSymbolis any object (recommended is a single character)
| Method | Description |
|---|---|
getCurrentStates() |
Gets the machine's current state(s). |
getAllStates() |
Gets all the machine's state(s). |
input(symbol) |
Inputs a symbol to the machine. |
reset() |
Resets the machine. |
isStateAccepted() |
Determines if at least one of the current states is a final state. |
isStateNull() |
Determines if the list of current states is empty. |
addState(id, isFinal, transitions) |
Adds a state to the machine. |
deleteState(id) |
Deletes a state from the machine. |
addTransition(idFrom, inputSymbol, idTo) |
Adds a transition from one state to another. |
deleteTransition(idFrom, inputSymbol) |
Deletes a transition from one state to another. |
hasTransition(stateId, inputSymbol) |
Determines if the machine has a state with a corresponding input. |
hasTransitions(stateId) |
Determines if a state has transitions. |
Bind state events with bindStateEvent(stateId, type, fn). type should be one of the following:
"arriving"- when state is becoming a current state"arrive"- when state is a current state"leaving"- when state is losing its current state status"leave"- when state is no longer a current state
Bind machine events with bindMachineEvent(type, fn). type should be one of the following:
"changing"- when machine is changing state"change"- when machine has changed state
State-bound events take higher priority than machine-bound events.
var automaton = new Avtomat.StateMachine({
"A": {
final: false, transitions: {
"b": "B",
"c": ["C", "D"],
"d": "A",
"": "E"
}
},
"B": {
final: false, transitions: {
"a": "A",
"c": "C",
"d": "E"
}
},
"C": {
final: false,
transitions: {
"": "A"
}
},
"D": {
final: true,
transitions: {
"a": "D",
"b": "E",
"c": ["B", "D"],
"d": "D",
"e": "E"
}
},
"E": {
final: false,
transitions: {
"d": "D",
"c": "C",
}
}
}, "A");
automaton.state(); // ["E"]: A("") => E
automaton.input("d"); // ["D"]: E("d") => D
automaton.accepted(); // true: D is final state
automaton.input("B"); // []: No such transition, goes to null state
try {
automaton.input("a"); // []: Null states have no transitions, throws exceptions
} catch(e) {
}
automaton.nullState(); // true
automaton.reset(); // ["E"]: Reset to original state A, A("") => E
automaton.input("d"); // ["D"]: E("d") => D
automaton.input("c"); // ["B", "D"]: D("c") => {B, D}
automaton.input("d"); // ["D", "E"]: B("d") => E, D("d") => D
automaton.accepted(); // true: D is final state
automaton.input("e"); // ["E"]: D("e") => E, E("e") => null
automaton.accepted(); // false: E is not a final state
automaton.reset(); // ["E"]: Reset to original state A, A("") => E
automaton.input("c"); // ["E"]: E("c") => C, C("") => A, A("") => E