cout will eat 99% of the clock cycles for this loop. Beware micro-optimization. At any rate, these two will give essentially identical code.
The only time when a
for loop can be faster is when you have a known terminating condition - e.g.
for(ii = 0; ii < 24; ii++)
because some optimizing compilers will perform
loop unrolling. This means they will not perform a test on every pass through the loop because they can "see" that just doing the thing inside the loop 24 times (or 6 times in blocks of 4, etc) will be a tiny bit more efficient. When the thing inside the loop is very small (e.g.
jj += ii;), such optimization makes the for loop a bit faster than the
while (which typically doesn't do "unrolling").
Otherwise - no difference.
update at the request of @zeroth
Quote from source (my emphasis):
Unrolling a loop at the source- code level involves identification of
loop constructs (e.g., for, while, do-while, etc.), determination of
the loop count to ensure that it is a counting loop, replication of
the loop body and the adjustment of loop count of the unrolled loop. A
prologue or epilogue code may also be inserted. Using this approach,
it is difficult to unroll loops formed using a while and goto
statements since the loop count is not obvious. However, for all but
the simplest of loops, this approach is tedious and error prone.
The other alternative is to unroll loops automatically. Automatic
unrolling can be done early on source code, late on the unoptimized
intermediate representation, or very late on an optimized
representation of the program. If it is done at the source-code level,
then typically only counting loops formed using for statements are
unrolled. Unrolling loops formed using other control constructs is
difficult since the loop count is not obvious.