Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm hoping that someone can help me out with this problem, or at least point out the error of my ways...

As a simple illustration of my problem consider a part of an application where you can enter a "Functions Mode" state of operation. Four sub-modes are then available depending on which function key F1-F4 that the user presses. By default, F1 mode is entered. The state diagram starts off as follows:

Diagram 1

The user can press F1-F4 at any time to switch to the corresponding mode. Adding these transitions to the inner states leads to the following:

Diagram 2

Obviously this is (a) a mess, and (b) a lot of transitions to define. If at some point I want to add an F5Mode then... well, you get the picture. To avoid this I'd like to do the following:

Diagram 3

Boost Statechart allows me to define transitions from FunctionMode to any of the inner states, but the result isn't what I expected. The actual outcome is as follows:

Diagram 4

I.e. pressing F1-F4 to switch modes causes the outer FunctionMode state to be exited and re-entered along with triggering the unwanted exit and entry actions.

Way back in 2006, this thread between the library author and a user seems to describe the same problem. I think that the author suggests doing the following as a work-around:

Diagram 5

However, that work-around doesn't seem very appealing to me: It has added an extra state level to be compiled, the code has become less readable, deep-history would have to be used to return to any of the function mode sub-states and the Intermediate state object is needlessly being destructed and constructed again.

So... where am I going wrong? Or what are the alternatives? I've had a brief look at Boost Meta State Machine (msm) but from what I've seen so far I much prefer the look of Statechart.

I'm surprised that more users haven't faced the same problem... which makes me think that perhaps my approach is completely wrong!

share|improve this question
add comment

1 Answer

up vote 1 down vote accepted

Have you looked at the in-state reaction explained in the statechart tutorial? It seems to be doing what you are looking for.

Since you are asking for alternatives, in this period I am evaluating various C++ Harel statechart implementations. I looked at Boost statechart and Boost MSM. I wrote code with both. They hurt my feeble brain :-)

Then I found Machine Objects (Macho), very simple and small, and I love it. It supports hierarchical state machines, entry/exit actions, history, state machine snapshots, guards, internal transitions, event deferring, state-local storage (with optional persistence), so to me it is a satisfying Harel statechart implementation.

This code implements the FunctionMode part of the statechart with Macho:

#include "Macho.hpp"

#include <exception>
#include <iostream>
using namespace std;

namespace FunctionMode {

struct FunctionMode;
struct F1Mode;
struct F2Mode;

// The Top state, containing all the others.
TOPSTATE(Top) {
    STATE(Top)
    // All the events of the state machine are just virtual functions.

    // Here we throw to mean that no inner state has implemented the event
    // handler and we consider that an error. This is optional, we could
    // just have an empty body or log the error.
    virtual void evF1() { throw std::exception(); }
    virtual void evF2() { throw std::exception(); }
    // evF3 and so on...
private:
    void init() { setState<FunctionMode>(); } // initial transition
};

SUBSTATE(FunctionMode, Top) {
    STATE(FunctionMode)
    virtual void evF1() { setState<F1Mode>(); }
    virtual void evF2() { setState<F2Mode>(); }
    // evF3, ...
private:
    void entry() { cout << "FunctionMode::entry" << endl; }
    void exit() { cout << "FunctionMode::exit" << endl; }
    void init() { setState<F1Mode>(); } // initial transition
};

SUBSTATE(F1Mode, FunctionMode) {
    STATE(F1Mode)
    virtual void evF1() {} // make the event an internal transition (by swallowing it)
private:
    void entry() { cout << "F1Mode::entry" << endl; }
    void exit() { cout << "F1Mode::exit" << endl; }
};

SUBSTATE(F2Mode, FunctionMode) {
    STATE(F2Mode)
    virtual void evF2() {} // make the event an internal transition (by swallowing it)
private:
    void entry() { cout << "F2Mode::entry" << endl; }
    void exit() { cout << "F2Mode::exit" << endl; }
};

} // namespace FunctionMode

int main() {

    Macho::Machine<FunctionMode::Top> sm;
    // Now the machine is already in F1Mode.

    // Macho has 2 methods for synchronous event dispatching:
    // First method:
    sm->evF1(); // <= this one will be swallowed by F1Mode::evF1()
    // Second method:
    sm.dispatch(Event(&FunctionMode::Top::evF2));

    return 0;
}

Running it, the output is:

FunctionMode::entry
F1Mode::entry
F1Mode::exit
F2Mode::entry
F2Mode::exit
FunctionMode::exit

that shows that the transitions are internal.

In my opinion, clean, easy and compact code :-)

[EDIT1] The first version of the code didn't perform the initial transition FunctionMode -> F1Mode. Now it does.

share|improve this answer
    
Many thanks for that and apologies for the delay in responding, it looks like I didn't have email notifications turned on. Unfortunately, in-state reactions have the same issue - calling Transit<> from the outer state to change the inner state still causes the outer state to be exited and re-entered. However, your suggested alternative looks pretty neat to me, so thanks for that! –  Grant Aug 7 '12 at 17:15
    
@Grant: thanks, and I'm glad you like it :-) –  marco.m Aug 9 '12 at 8:30
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.