I've always been curious, why does the time(time_t *) function both return a time_t, and set the time to the passed in pointer?

Example of returning the time:

time_t myTime = time(NULL);
printf("The time is now %s", ctime(&myTime));

Example of setting the value to the pointer:

time_t myTime;
printf("The time is now %s", ctime(&myTime));

I originally thought there would be a performance gain by writing to the memory instead of returning, but if it has to do both, doesn't that just make it slower?

2 Answers 2


There's no real benefit in the way it's currently defined.

I suspect that when the time() function was first defined, it used a type that could not be returned from a function. Very early C implementations didn't have long int and were not able to return structures from functions. On a system with 16-bit ints, the only way to represent a time would be as a structure or as an array; 16 bits worth of seconds is less than a day.

UPDATE: My speculation is confirmed, see below.

So early implementations of time() might have been used something like this (speculation):

time_t now;
time(&now);    /* sets now.time_high, now.time_low */

or perhaps:

int now[2];
time_t(now);    /* sets now[0], now[1] */

When later C implementations added longer integers and the ability to return structures by value, the ability to return a time_t value from the time() function was added, but the old functionality was kept to avoid breaking existing code.

I think that if time() were being defined today, it would look more like this:

time_t time(void);

I haven't been able to confirm that old implementations of the time() function worked this way (try Googling "time"!), but it makes sense given the history of the language.

If you pass a null pointer to the time() function, it returns the current time without also storing it in a variable; this avoids some of the performance penalty:

time_t now = time(NULL);


Early UNIX sources are available in https://github.com/dspinellis/unix-history-repo

Checking out the Research-V6 git tag, the man page for the time() system call is in usr/doc/man/man2/time.2. It's written in an obsolete form of *roff, but here's my attempt at formatting it. (The implementation, written in PDP-11 assembly and callable from C, is in usr/source/s2/time.s.)

C didn't have void functions at that time. Functions without a declared return type would return int by default. It's not clear to me what the time function would return, but my guess is that it would be the high-order 16-bit word of the 32-bit value. As of the date on the man page, that would have been about 1730, in units of 216 seconds (18h12m16s). Correctly written C code would not have attempted to use the return value.

TIME 8/5/73


time - get date and time


(time = 13.)
sys time

int tvec[2]


Time returns returns the time since 00:00:00 GMT, Jan. 1, 1970, measured in seconds. From as, the high order word is in the r0 register and the low order is in r1. From C, the user-supplied vector is filled in.


date (I), stime (II), ctime (III)

  • That sounds plausible. I was expecting the performance penalty to go the other way. It's avoided if you pass a NULL, but if you call it with a pointer and ignore the return result, it still has to shove the time into the return register. Sometimes I forget that C is nearly twice as old as I am. :)
    – wjl
    Mar 30, 2012 at 15:20
  • 3
    Sometimes I forget that C is nearly twice as old as I am. -- Thanks for making me feel old! 8-)} Mar 30, 2012 at 15:23
  • Thank you for coming and updating this, years later!
    – wjl
    Dec 26, 2019 at 11:33

It allows you to nest a call to time() within another expression, instead of doing it in a separate statement:

time_t x = time(&now) + more_time;

When the above statement finishes, now should contain the current time, and x should contain the current time plus some value.

strcpy falls in the same case because it returns the same char * pointer that has been passed as its destination, so nesting it is possible as well:

printf("Copied string is %s", strcpy(dst, src));
  • 4
    If time() took no arguments, that could just as easily be done by nesting an assignment: time_t x = (now=time()) + more_time;` Mar 30, 2012 at 14:57
  • 3
    While I agree with Keith, this answer is the first I've seen to provide a potential convenient usage for time's odd signature... Mar 30, 2012 at 16:49
  • 2
    I think in both cases it'd be better to use two lines for readability sake. It probably compiles down to the same thing either way.
    – wjl
    Apr 14, 2012 at 20:21

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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