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I'd like to get the unix timestamp of the beginning of current (or any given maybe) hour in c/c++.

I have this:

    time_t get_current_hour() {
        time_t beginning_of_hour;
        struct tm * ptm;


        ptm = gmtime(&beginning_of_hour);
        ptm->tm_min = 0;
        ptm->tm_sec = 0;
        ptm->tm_zone = (char*) "GMT";

        beginning_of_hour = mktime(ptm);

        return beginning_of_hour;

Which works, but under high load many of the result are not the beginning of the current hour but the actual time.

Is there a better way to solve the problem? Why does the function returns the current time?

Please advise, Akos

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3 Answers 3

up vote 1 down vote accepted

It could be that you have a multi-threaded application, and calls to gmtime are not thread-safe (re-entrant). If this is the case, try using the re-entrant version: gmtime_r

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Well, you have the point. The app is multithreaded indeed. Thanks, I'll use gmtime_r. –  Akos Feb 13 '12 at 15:15

You can do it all with time_t, without breaking it apart and rebuilding.
Just round it down to a multiple of 3600:

time_t get_current_hour(void) {
    time_t now;
    return now - (now % 3600);

Perhaps it isn't nice to treat time_t as an integer. But I think it is guaranteed to be seconds since the epoch, so it should be fine.

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+1, better answer than mine! –  Nim Feb 13 '12 at 14:44
time_t is only guaranteed to be a numeric type, so it could be double (not that I've ever seen such a thing). –  James Kanze Feb 13 '12 at 14:49
@JamesKanze: That is going to play hell on precision in a couple of thousand years when we start loosing the last couple of bits of an int. –  Loki Astari Feb 13 '12 at 15:55
@JamesKanze, this code works as long as now+1 == now is never true. Defining time_t that allows that seems quite bad to me. –  ugoren Feb 13 '12 at 16:09
@LokiAstari The 32 bit int for seconds since 1970 will overflow long before that. –  James Kanze Feb 13 '12 at 17:53

Is your application by any chance multi-threaded? gmtime returns a pointer to static memory, which will be overwritten the next time the function is called. Such functions are not thread-safe (and this is about the only thing I can think of which would account for your symptoms). Under Unix, there is also a gmtime_r, which allows you to declare a local buffer, and avoid the issue; Windows has a _gmtime_s which is (I think) similar.

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Thank you for your response, you are right. The app is multi threaded, I'll use gmtime_r –  Akos Feb 13 '12 at 15:16

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