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