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.

This question asks about a finite state machine with 100 states and each state having 100 events, and then does a brief comparison of using an if-else, switch statement, or function pointers to implement the state machine.

My question is: if using function pointers, how would the function pointers be appropriately set? With an if-else or a switch statement (in which case, would function pointers be more of a hybrid solution)? Or is there another way this is commonly done?

share|improve this question

3 Answers 3

up vote 1 down vote accepted

You could do something like below:

typedef int (*current_state) (void);
typedef int (*nextnew_state) (void);
struct FuncPointerState
  current_state curr_state;
  nextnew_state next_state;

/*init_state is the initial function state*/
struct FuncPointerState FpState = {init_state, NULL};     
int iRet = 0;


   iRet = FpState.curr_state();
   if(iRet<= 0 )
      return iRet;
     /* State Machine finished it's job */
   FpState.curr_state = FpState.next_state;


Each state function should populate the next_state pointer. Also, you can modify the function pointers to take input arguments.

share|improve this answer

I would expect each state to be represented by a function, and all states to "know" about each other.

So, the setting could be either directly:

void set_state(void (*state)(void))
  the_current_state = state;

void state_idle(void)
  printf("oh, hai, boring to be in the idle state, let's switch\n");

this assumes that the current state is modelled by a global function pointer (the_current_state).

You could of course also let each state return the new state, or maybe NULL to mean "don't switch".

share|improve this answer
struct state_fn {
   void (*handler)(void);

static int state;
static struct state_fn[MAX_STATE] = {
   { .handler = handler_state_0, },
   { .handler = handler_state_1, },
   { .handler = handler_state_2, },

then call state_fn[state]->handler();

you can optionaly add arguments from the structure. like this:

struct state_fn {
    void (*handler)(void *data);
    void *data;

then call state_fn[state]->handler(state_fn[state]->data);

{ .handler = handler_state_0, .data = "blabla" },

this is handy if one function handler can serve several states.

share|improve this answer

Your Answer


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.