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I have something to do for work and I need your help. We want to implement a FSM - Finite State Machine, to identify char sequence(like: A, B, C, A, C), and tell if it accepted.

We think to implement three classes: State, Event and Machine. The state class presents a node in the FSM, we thought to implement it with State design pattern, every node will extends from the abstract class state and every class would handle different types of events and indicate transitions to a new state. Is it good idea to your opinion?

Second thing, we don't know how to save all the transitions? Again we thought to implement it with some kind of map, that hold the stating point and gets some kind of vector with the next states, but I'm not sure thats a good idea.

I would be happy to get some ideas of how to implement it or maybe you can give me some starting points.

How should I save the FSM, meaning how should I build the tree at the beginning of the program? I googled it and found a lot of examples but nothing that helps me.

Thanks a lot.

share|improve this question
A nice idea, for sure, but if you're going to identify strings, wouldn't you better use e.g. a regular expression? – xtofl Nov 4 '12 at 18:55
@xtofl I meant string like: A, B, C, A, C. More like a char sequence. – Ofir A. Nov 4 '12 at 18:57
maybe you can try 2-d arrays. – XiaJun Jul 20 at 14:27
up vote 16 down vote accepted

The heart of a state machine is the transition table, which takes a state and a symbol (what you're calling an event) to a new state. That's just a two-index array of states. For sanity and type safety, declare the states and symbols as enumerations. I always add a "length" member in some way (language-specific) for checking array bounds. When I've hand-coded FSM's, I format the code in row and column format with whitespace fiddling. The other elements of a state machine are the initial state and the set of accepting states. The most direct implementation of the set of accepting states is an array of booleans indexed by the states. In Java, however, enumerations are classes, and you can specify an argument "accepting" in the declaration for each enumerated value and initialize it in the constructor for the enumeration.

For the machine type, you can write it as a generic class. It would take two type arguments, one for the states and one for the symbols, an array argument for the transition table, a single state for the initial. The only other detail (though it's critical) is that you have to call Enum.ordinal() to get an integer suitable for indexing the transition array, since you there's no syntax for directly declaring an array with a enumeration index (though there ought to be).

To preempt one issue, EnumMap won't work for the transition table, because the key required is a pair of enumeration values, not a single one.

enum State {
    Initial( false ),
    Final( true ),
    Error( false );
    static public final Integer length = 1 + Error.ordinal();

    final boolean accepting;

    State( boolean accepting ) {
        this.accepting = accepting;

enum Symbol {
    A, B, C;
    static public final Integer length = 1 + C.ordinal();

State transition[][] = {
    //  A               B               C
        State.Initial,  State.Final,    State.Error
    }, {
        State.Final,    State.Initial,  State.Error
share|improve this answer
That's a really nice idea. I need that you elaborate more please. What do you mean in two-index array of states, and if I have a couple of routes from one state? For the state class, we have an abstract class that each derived class is (start state, regular state and accepted state), that way we have a type for each one. Way do you think we need machine class as a generic class? And one last thing, do you have any link to give me that your method is presented? Thanks a lot for your help. – Ofir A. Nov 5 '12 at 7:46
A two-index array is a two-dimensional array. See example. Start states and acceptance states are regular states. You don't need or even want separate classes for these. Acceptance is a boolean predicate on states. The initial state is a property of the state machine, not of the state itself. The machine itself doesn't need to be generic, though I find it good practice to make it so. In particular, it allows you to unit-test the state machine code independent of the specific state machine you want to use with it, which would get its own set of tests. – eh9 Nov 5 '12 at 12:27
Thanks for your help. What I've done till now is to create an abstract class for state, the derived classes is from different types(start, standard, end and error). Each state has a hashTable<symbol, state> that holds his children, or error state in case of null. What I want to do now is to print different message for different sequence. Do you have any suggestions how to achieve this? Thanks. – Ofir A. Nov 6 '12 at 21:33
If you want to have messages that are specific to sequences, then you need a state that represents that sequence. When you enter the state, you can trigger your action. But this concern is how to design the machine rather than to implement it, which was your original question. – eh9 Nov 7 '12 at 0:07
You don't need to declare static length in Java this way. Use State.values().length or Symbol.values().length instead. – Yahor Jun 15 '15 at 16:38

Hmm, I would suggest that you use Flyweight to implement the states. Purpose: Avoid the memory overhead of a large number of small objects. State machines can get very, very big.


I'm not sure that I see the need to use design pattern State to implement the nodes. The nodes in a state machine are stateless. They just match the current input symbol to the available transitions from the current state. That is, unless I have entirely forgotten how they work (which is a definite possiblilty).

If I were coding it, I would do something like this:

interface FsmNode {
  public boolean canConsume(Symbol sym);
  public FsmNode consume(Symbol sym);
  // Other methods here to identify the state we are in

  List<Symbol> input = getSymbols();
  FsmNode current = getStartState();
  for (final Symbol sym : input) {
    if (!current.canConsume(sym)) {
      throw new RuntimeException("FSM node " + current + " can't consume symbol " + sym);
    current = current.consume(sym);
  System.out.println("FSM consumed all input, end state is " + current);

What would Flyweight do in this case? Well, underneath the FsmNode there would probably be something like this:

Map<Integer, Map<Symbol, Integer>> fsm; // A state is an Integer, the transitions are from symbol to state number
FsmState makeState(int stateNum) {
  return new FsmState() {
    public FsmState consume(final Symbol sym) {
      final Map<Symbol, Integer> transitions = fsm.get(stateNum);
      if (transisions == null) {
        throw new RuntimeException("Illegal state number " + stateNum);
      final Integer nextState = transitions.get(sym);  // May be null if no transition
      return nextState;
    public boolean canConsume(final Symbol sym) {
      return consume(sym) != null;

This creates the State objects on a need-to-use basis, It allows you to use a much more efficient underlying mechanism to store the actual state machine. The one I use here (Map(Integer, Map(Symbol, Integer))) is not particulary efficient.

Note that the Wikipedia page focuses on the cases where many somewhat similar objects share the similar data, as is the case in the String implementation in Java. In my opinion, Flyweight is a tad more general, and covers any on-demand creation of objects with a short life span (use more CPU to save on a more efficient underlying data structure).

share|improve this answer
Thanks for your help. What I've done till now is to create an abstract class for state, the derived classes is from different types(start, standard, end and error). Each state has a hashTable<symbol, state> that holds his children, or error state in case of null. What I want to do now is to print different message for different sequence. Do you have any suggestions how to achieve this? Thanks. – Ofir A. Nov 6 '12 at 22:41
Sure. You can do this in several ways: If the message should depend on the path taken to the end symbol you either need to let the nodes print parts of the message in their consume method, or record the path in some list that is maintained while consuming the nodes. If the message depends on which end node is reached as the final node, just let that node print it as part of its consume method. Did that make sense? – Anders Johansen Nov 8 '12 at 7:38
This implementation, is from some kind of interview. They told me that I have an abstract class for State and the derived classes should implement the logic of the FSM. I think that each derived class should be from different type, like I said, e.g start, standard, end and error. Do you think it is the right choice, or you can think of an other idea? Thanks. – Ofir A. Nov 8 '12 at 8:29
I'm not sure that you need distinct classes for that. You could handle it in a lot of other ways. Basically, if you ever find yourself checking the exact type of some reference you are probably doing something in the calling code that should be handled by the object (see Liskov Substitution Principle). If you really really need it (say, to check if you are in an end state) implement a method on the common interface instead (isEndState()). In my code, I might have an Error class that could be returned instead of a null. That implementation would basically fail whenever any method was invoked. – Anders Johansen Nov 8 '12 at 9:40
So in that case, how do you think that I should use the abstract class? I'm am really don't know how to continue with this. I saw so much examples that make me confuse. – Ofir A. Nov 8 '12 at 10:17

EasyFSM is a dynamic Java Library which can be used to implement an FSM.

You can find documentation for the same at : Finite State Machine in Java

Also, you can download the library at : Java FSM Library : DynamicEasyFSM

share|improve this answer

You can implement Finite State Machine in two different ways.

Option 1:

Finite State machine with a pre-defined workflow : Recommended if you know all states in advance and state machine is almost fixed without any changes in future

  1. Identify all possible states in your application

  2. Identify all the events in your application

  3. Identify all the conditions in your application, which may lead state transition

  4. Occurrence of an event may cause transitions of state

  5. Build a finite state machine by deciding a workflow of states & transitions.

    e.g If an event 1 occurs at State 1, the state will be updated and machine state may still be in state 1.

    If an event 2 occurs at State 1, on some condition evaluation, the system will move from State 1 to State 2

This design is based on State and Context patterns.

Have a look at Finite State Machine prototype classes.

Option 2:

Behavioural trees: Recommended if there are frequent changes to state machine workflow. You can dynamically add new behaviour without breaking the tree.

enter image description here

The base Task class provides a interface for all these tasks, the leaf tasks are the ones just mentioned, and the parent tasks are the interior nodes that decide which task to execute next.

The Tasks have only the logic they need to actually do what is required of them, all the decision logic of whether a task has started or not, if it needs to update, if it has finished with success, etc. is grouped in the TaskController class, and added by composition.

The decorators are tasks that “decorate” another class by wrapping over it and giving it additional logic.

Finally, the Blackboard class is a class owned by the parent AI that every task has a reference to. It works as a knowledge database for all the leaf tasks

Have a look at this article by Jaime Barrachina Verdia for more details

share|improve this answer

Consider the easy, lightweight Java library EasyFlow. From their docs:

With EasyFlow you can:

  • implement complex logic but keep your code simple and clean
  • handle asynchronous calls with ease and elegance
  • avoid concurrency by using event-driven programming approach
  • avoid StackOverflow error by avoiding recursion
  • simplify design, programming and testing of complex java applications
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