# Get a timestamp in C in microseconds?

How do I get a microseconds timestamp in C?

I'm trying to do:

struct timeval tv;
gettimeofday(&tv,NULL);
return tv.tv_usec;

But this returns some nonsense value that if I get two timestamps, the second one can be smaller or bigger than the first (second one should always be bigger). Would it be possible to convert the magic integer returned by gettimeofday to a normal number which can actually be worked with?

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tv_usec is not "the current time in microseconds" but "current time in microseconds modulo 10^6". –  ruslik Apr 29 '11 at 14:06
–  pmg Apr 29 '11 at 14:06
@ruslik How do I convert it to a "normal" number? –  Kristina Brooks Apr 29 '11 at 14:08
@Nick Brooks: well.. "normal" numbers have a bad habbit of having range, so there will always be such a value for which there is no bigger value. I think you should review your alrogithm. Try (sec2 - sec1)*1000000 + (usec2 - usec1). Or, better, to avoid possible overflow for seconds, if you know that the period is smaller than a second, when the second value is smaller just add 1000000 to it. –  ruslik Apr 29 '11 at 14:11
I just need a microsecond timestamp to calculate scrolling inertia. I need something like time() but for microseconds. –  Kristina Brooks Apr 29 '11 at 14:13

You need to add in the seconds, too:

unsigned long time_in_micros = 1000000 * tv_sec + tv_usec;

Note that this will only last for about 232/106 =~ 4295 seconds, or roughly 71 minutes though (on a typical 32-bit system).

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Use a 64 bit integer to store microseconds, surely –  Havoc P Apr 29 '11 at 16:47
PROBLEM WITH SOLUTION: Because you don't start with tv_sec at zero, time_in_micros could roll-over at ANY time! There's no getting around needing 64 bits of time, whether as a single uint64_t or as two 32-bit values. At the very least, when you start the timing, save the tv_sec value from the start time and subtract it from all future timing values. –  Tom West Jul 19 '12 at 20:32
Letting the value to roll over in 32-bit system is not that bad if you know what you are doing. You can still get sane values from the calculation of current_microseconds-start_time if the interval never gets larger than 71 minutes in your implementation. –  Zouppen Mar 12 '13 at 9:33

You have two choices for getting a microsecond timestamp. The first (and best) choice, is to use the timeval type directly:

struct timeval GetTimeStamp() {
struct timeval tv;
gettimeofday(&tv,NULL);
return tv;
}

The second, and for me less desirable, choice is to build a uint64_t out of a timeval:

uint64_t GetTimeStamp() {
struct timeval tv;
gettimeofday(&tv,NULL);
return tv.tv_sec*(uint64_t)1000000+tv.tv_usec;
}
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why (uint64_t)1000000 instead of 1000000ull? –  Mooing Duck Jul 28 at 16:56
No valid reason comes to mind. –  Robᵩ Jul 28 at 16:59

struct timeval contains two components, the second and the microsecond. A timestamp with microsecond precision is represented as seconds since the epoch stored in the tv_sec field and the fractional microseconds in tv_usec. Thus you cannot just ignore tv_sec and expect sensible results.

If you use Linux or *BSD, you can use timersub() to subtract two struct timeval values, which might be what you want.

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+1 for timersub –  Robᵩ Apr 29 '11 at 15:03

But this returns some nonsense value that if I get two timestamps, the second one can be smaller or bigger than the first (second one should always be bigger).

What makes you think that? The value is probably OK. It’s the same situation as with seconds and minutes – when you measure time in minutes and seconds, the number of seconds rolls over to zero when it gets to sixty.

To convert the returned value into a “linear” number you could multiply the number of seconds and add the microseconds. But if I count correctly, one year is about 1e6*60*60*24*360 μsec and that means you’ll need more than 32 bits to store the result:

\$ perl -E '\$_=1e6*60*60*24*360; say int log(\$_)/log(2)'
44

That’s probably one of the reasons to split the original returned value into two pieces.

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First we need to know on the range of microseconds i.e. 000_000 to 999_999 (1000000 microseconds is equal to 1second). tv.tv_usec will return value from 0 to 999999 not 000000 to 999999 so when using it with seconds we might get 2.1seconds instead of 2.000001 seconds because when only talking about tv_usec 000001 is essentially 1. Its better if you insert

if(tv.tv_usec<10)
{
printf("00000");
}
else if(tv.tv_usec<100&&tv.tv_usec>9)// i.e. 2digits
{
printf("0000");
}

and so on...

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