Perhaps it doesn't matter to the compiler once it optimizes, but in C/C++, I see most people make a for loop in the form of:
for (i = 0; i < arr.length; i++)
where the incrementing is done with the post fix ++. I get the difference between the two forms. i++ returns the current value of i, but then adds 1 to i on the quiet. ++i first adds 1 to i, and returns the new value (being 1 more than i was).
I would think that i++ takes a little more work, since a previous value needs to be stored in addition to a next value: Push *(&i) to stack (or load to register); increment *(&i). Versus ++i: Increment *(&i); then use *(&i) as needed.
(I get that the "Increment *(&i)" operation may involve a register load, depending on CPU design. In which case, i++ would need either another register or a stack push.)
Anyway, at what point, and why, did i++ become more fashionable?
I'm inclined to believe azheglov: It's a pedagogic thing, and since most of us do C/C++ on a Window or *nix system where the compilers are of high quality, nobody gets hurt.
If you're using a low quality compiler or an interpreted environment, you may need to be sensitive to this. Certainly, if you're doing advanced C++ or device driver or embedded work, hopefully you're well seasoned enough for this to be not a big deal at all. (Do dogs have Buddah-nature? Who really needs to know?)
i;
takes no work (any compiler worth the author's time writing it will compile it to no code at all), there is no "work" in "storing" the value ofi
before incrementing it if the value is never used. Would you expecti; ++i;
to be slower than++i;
? If not, why would you expecti++;
to be slower?++i
used frequently, and it's the version I write by default. I don't choosei++
unless I know I need the value ofi
prior to incrementing it.++i
is the current value ofi
plus 1; the side effect is thati
gets incremented. The side effect doesn't have to be applied immediately; it only has to be applied by the next sequence point. In an expression with multiple side effects likex = ++i * j++
, it's possible for the updates toi
andj
to be deferred until after the multiplication and assignment tox
. With respect to using++i
ori++
in a for loop, there is no difference; a smart compiler will generate the same code for both.