# Convert milliseconds to seconds in C

Simple C question, how can I correctly and succintly convert milliseconds to seconds. There are two constraints:

• I've no floating point support in this tiny subset-of-C compiler
• I need the seconds rounded to the nearest second(1-499ms rounds down,500-999ms rounds up. Don't need to care about negative values)

``````int mseconds = 1600; // should be converted to 2 seconds
int msec = 23487;  // should be converted to 23 seconds
``````
-
How would you want 1500 and 2500 to round (hint: Some other languages let you choose the algorithm msdn.microsoft.com/en-us/library/system.midpointrounding.aspx) –  Rowland Shaw Aug 18 '09 at 16:17

This should work

``````int sec = ((msec + 500) / 1000);
``````
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That is the cleanest way. I usually do that when I have more then 1.6 seconds to think about it ;-) –  Guss Aug 18 '09 at 16:14
This assumes that: you're rounding away from zero (as opposed to nearest even) in the event of a tie, and that you're not round negative numbers... –  Rowland Shaw Aug 18 '09 at 16:19
In general: to do an integer divide with rounding, add half of the dividend before dividing. Rowland's caveats apply. –  Laurence Gonsalves Aug 18 '09 at 16:25
@Rowland: If you expect negative numbers, then its easy to account for that using (msec<0?-1:1)*500 - of course it means more CPU cycles, so only use it if you actually need it. A similar approach can be used to handle "round towards even". –  Guss Aug 19 '09 at 7:26
``````int seconds = msec / 1000;
if (msec % 1000 > 500)
seconds++;
``````
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He explicitly said he needed it rounded. –  T.J. Crowder Aug 18 '09 at 16:13
You people are too fast to downvote :) It took me 20 seconds after I posted to realise that rounding is needed and to add rounding part, and by that time I got 2 downvotes :) –  qrdl Aug 18 '09 at 16:15

At first I did not want to write this answer after the testing on x86, but the testing on sparc Solaris showed it had a performance gain compared with "obvious solution", so maybe it would be useful to someone. I've taken it from a PDF that accompanies the book Hacker's Delight. Here it goes:

``````unsigned msec2sec(unsigned n) {
unsigned q, r, t;
n = n + 500;
t = (n >> 7) + (n >> 8) + (n >> 12);
q = (n >> 1) + t + (n >> 15) + (t >> 11) + (t >> 14);
q = q >> 9;
r = n - q*1000;
return q + ((r + 24) >> 10);
}
``````

as opposed to:

``````unsigned msec2sec_obvious(unsigned n) {
return (n + 500)/1000;
}
``````

On x86 the "obvious algorithm" translates into adding 500 and then a long multiply by 274877907, followed by grabbing the most significant 32 bits from edx and shifting them 6 bit right - so it beats this code above hands down (~5 times times performance difference).

However, on Solaris/sparc, the "obvious" is transformed into a call to .udiv - which all in all turns out to give a performance difference of ~2.5 times in another direction.

-
``````secs = mseconds / 1000 + (mseconds % 1000 >= 500 ? 1 : 0);