How to draw a Finite state machine

How to draw a Finite state machine according this code

``````machine() ->
{add, P} -> receive {X, Y} -> P!(X + Y), machine() end;
{sub, P} -> receive {X, Y} -> P!(X - Y), machine() end
end.
``````

In an erlang implementation of an fsm:

1. A recursive function is a `state`, so your fsm has only one state, i.e. `machine`, which doesn't even sound like a state name. Rather, "machine" or "calculator" would be a more appropriate name for the fsm (module).

2. A received message is an `event`.

3. An `action` is a function that is called in response to an event.

If you look at LYSE, your fsm is essentially the cat. In your case, there are two paths back to the original state, and each path requires two events. So, something like this: But, perhaps your calculator fsm should look more like this:

``````-module(calc).
-compile(export_all).

selection() ->
sub -> subtraction();
_Other   -> selection()
end.

{X, Y} ->
display("~w + ~w = ~w", [X, Y, X+Y]),
selection();
end.

subtraction() ->
{X, Y} ->
display("~w - ~w = ~w", [X, Y, X-Y]),
selection();
_Other -> subtraction()
end.

display(Str, Args) ->
io:format(Str ++ "~n", Args).
``````

In this fsm, there are three `states`:

1. selection (select the operation)
The `selection state` has two events:
1. `add`
2. `sub`
The `addition/subtraction states` have one event:
1. `{X, Y}`
The addition/subtraction states both execute the display() `action` before transitioning back to the selection() state.