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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?

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2 Answers 2

up vote 5 down vote accepted

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.

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);
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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 '12 at 15:20
Sometimes I forget that C is nearly twice as old as I am. -- Thanks for making me feel old! 8-)} –  Keith Thompson Mar 30 '12 at 15:23

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));
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If time() took no arguments, that could just as easily be done by nesting an assignment: time_t x = (now=time()) + more_time;` –  Keith Thompson Mar 30 '12 at 14:57
While I agree with Keith, this answer is the first I've seen to provide a potential convenient usage for time's odd signature... –  R.. Mar 30 '12 at 16:49
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 '12 at 20:21

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