How do I convert timeval to time_t? I'm trying to convert: umtp->ut_tv to a time_t so I can use a difftime(a,b).

struct {
   int32_t tv_sec;         /* Seconds */
   int32_t tv_usec;        /* Microseconds */
           } ut_tv;                    /* Time entry was made */
 struct timeval ut_tv;      /* Time entry was made */
  • Are you sure the microseconds don't matter to you? If they do, then you need to write your own struct timeval difftimeval(const struct timeval *t1, const struct timeval *t2); function that returns t2 - t1. Or you can define the return type to be a double if you prefer, so it is more nearly plug-compatible with difftime(). Feb 12, 2012 at 21:42
  • Incidentally, the code shown won't compile; you define a variable ut_tv twice with two different types (as an anonymous struct and as a struct timeval). Feb 12, 2012 at 21:43
  • Where did you get this definition of timeval? The type of tv_sec is supposed to be time_t and there is no conversion to be done, only truncation. Feb 13, 2012 at 0:54
  • @R this is coming from utmp.h which is part of Linux. @Jonathan, you're right about declared twice, in utmp.h, I actually took out an else statement so it's really one or the other. I was able to just use (time_t) utmp->ut_tv.tv.sec
    – user994165
    Feb 13, 2012 at 1:44

2 Answers 2


time_t just stores seconds, so

 time_t time = (time_t)ut_tv.tv_sec;

Should work, but since you're just looking for a difference, there's always the magic of subtraction.

struct timeval diff = {a.tv_sec-b.tv_sec, a.tv_usec-b.tv_usec};

This lets you keep all the precision you had before.

  • I was using "->" instead of "." before ".tv_sec"
    – user994165
    Feb 12, 2012 at 21:41
  • 6
    The subtraction is not properly normalized; if a.tv_usec = 123456 and b.tv_usec = 654321, then you end up with a negative fractional time, which should be normalized to a positive value and the tv_sec component adjusted appropriately. Of course, if a comes before b, maybe both parts of the result should be negative? This is 'segmented arithmetic', and it is typically easiest to keep the sign in a separate field. Where there isn't a separate sign field, then both value segments should have the same sign (or one or the other can be zero). Feb 12, 2012 at 21:48
  • I would say all but the most-significant field should always be non-negative. Feb 13, 2012 at 0:55
  • @R..: that works fine until you print out a negative value. Printing -1.900000 when you mean -0.100000 is the sort of thing that gives users the heebie-jeebies. Or, at least, at the point of printing out, you have to normalize the numbers. Of course, you have to do that, regardless; amongst other things, you must print the fractional part with %06d or %.6d, and make sure it is positive; again, if you omit the width specification, you can mislead people by printing 1 µs as 0.1, which is also not good!. Handling signed segmented numbers w/o a sign bit requires non-negligible effort. Feb 13, 2012 at 2:31
  • @JonathanLeffler you both wrong. the time value calculates as (double)(t2.tv_sec - t1.tv_sec) * 1000 + (double)(t2.tv_usec - t1.tv_usec) / 1000, so it never goes negative nor tv_usec diff whatever value it takes will never be above the decimal point, and tv_sec diff never can be below decimal point. overall, time is just two digits - sec, msec: "0.0" that is why ts_usec being introduced - and never being used alone. to calculate time diff, you have to convert to either secs or msecs and then subtract, then you always get the correct result. Mar 4 at 3:03

Without using c-cast, you can simply do this :

struct timeval rawtime_s_us;
gettimeofday( &rawtime_s_us, NULL );
time_t rawtime_s = rawtime_s_us.tv_sec;

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