I have a process that needs to do some work every fifteen seconds. I'm currently doing it like this:


interval_milliseconds ()-> 15000.
     _State = FascinatingStateData,
     _TimeoutInterval = interval_milliseconds ()

%% This gets called automatically as a result of our handlers
%% including the optional _TimeoutInterval value in the returned
%% Result
handle_info(timeout, StateData)->
     _State = do_some_work(StateData),
      _TimeoutInterval = interval_milliseconds ()

This works, but it's extremely brittle: if I want to teach my server a new message, when I write any new handler function, I have to remember to include the optional timeout interval in its return value. That is, say if I'm handling a synchronous call, I need to do this:

%% Someone wants to know our state; tell them
handle_call(query_state_data, _From, StateData)->
    {reply, StateData, _NewStateData = whatever (), interval_milliseconds ()};

instead of

%% Someone wants to know our state; tell them
handle_call(query_state_data, _From, StateData)->
    {reply, StateData, _NewStateData = whatever ()};

As you might guess, I've made that very mistake a number of times. It's nasty, because once the code handles that query_state_data message, the timeouts no longer get generated, and the whole server grinds to a halt. (I can "defibrillate" it manually by getting a shell on the machine and sending a "timeout" message by hand, but ... eww.)

Now, I could try to remember to always specify that optional Timeout parameter in my Result value. But that doesn't scale: I'll forget someday, and will be staring at this bug once again. So: what's a better way?

I don't think I want to write an actual loop that runs forever, and spends most of its time sleeping; that seems counter to the spirit of OTP.

3 Answers 3


Use timer:send_interval/2. E.g.:


interval_milliseconds()-> 15000.
    timer:send_interval(interval_milliseconds(), interval),
    {ok, FascinatingStateData}.

%% this clause will be called every 15 seconds
handle_info(interval, StateData)->
    State2 = do_some_work(StateData)
    {noreply, State2}.
  • 1
    /me smacks forehead Thanks :)
    – offby1
    Apr 20, 2009 at 21:17
  • 2
    unless you need accurate timeouts sub-millisecond and then you need to roll your own solution
    – Rob Elsner
    Apr 25, 2009 at 22:11
  • 22
    I've chosen to use erlang:send_after, rather than timer:send_interval, and I thought it'd be illuminating to explain why. It's because my handle_info might take so long to complete that it'd still be running when the next interval comes by, and I don't want the timeout messages to pile up in the queue. By using erlang:send_after (once in the init function, and once again at the end of the handle_info(timeout, ...) function), I can ensure that each timeout comes at least interval_milliseconds after the previous one. This might not be right for everyone, but it seems right for me.
    – offby1
    Apr 27, 2009 at 21:14

The best way is:

init([]) ->
  Timer = erlang:send_after(1, self(), check),
  {ok, Timer}.

handle_info(check, OldTimer) ->
  Timer = erlang:send_after(1000, self(), check),
  {noreply, Timer}.
  • 2
    It's been a couple of years since I've touched Erlang, but this looks like just what I wound up doing. Thanks.
    – offby1
    Jul 25, 2013 at 15:57
  • For completeness sake, you don't need to use erlang:cancel_timer/1 in the handle_info/2 callback. The timer reference returned is typically used to cancel it before the message is actually sent. Once you get the message in handle_info the timer has already expired so the erlang:cancel_timer/1 call is a no-op. Jul 19 at 15:13

Use the timer module :)


Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

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