Am Freitag, den 12.12.2008, 09:07 -0700 schrieb James Mckenzie:
unsigned int i;
...
for (i = sizeof(foo) / sizeof(foo[0]) - 1; ~i; --i)
Tested? No. Readable? Don't ask me... :-)
I understood it, but is not the goal to avoid the use of C++ constructs in WINE code?
There is no C++ construct in that code. Still i-- would do the same and is more idiomatic C.
The real question is why convert a for loop to a while loop?
After the last iteration, the --i (or i--) overflows. In a for loop, the step statement (the third statement in the loop head) is always executed before the test (the second statement in the loop head), so there is no way to prevent the overflow. While this is not a problem per se, as overflow of unsigned variables is well-defined, testing for "overflow just happended" tends to be more confusing to the readers than testing for "is at the end".
If you use a while loop instead, you can arrange the test to be executed *before* the step is performed, so you have to abort on "i == 0 just finished" insted of "i == ~0U is next", the former being easier to understand.
My guess is to avoid a possible empty or zero length foo.
Even in for loops, the tests is executed before the first iteration, so it would work in the for loop as well.
Of course, there should be a check before this for an empty or misformed foo[0] avoiding a divide by zero error.
Sorry for the strong language: Either you need to take a second look at the code we talk about or a second look at an medium-level C textbook. sizeof is a built-in operator that returns the amount of memory storage the object foo[0] directly occupies. If foo[0] is a pointer, it is the size of a pointer, not the size of the allocated memory foo[0] might point to. As there are no objects of size zero in C or C++, sizeof(foo[0]) can *never* be zero.
The idiom used here "sizeof(foo) / sizeof(foo[0])" yields the size of an array "foo". It breaks *horribly*[1] if foo is not an array, but a pointer. If foo denotes an array, sizeof foo returns the size of the whole array, which is the size per element multiplied by the number of elements. The size of a single element is calculated by sizeof(foo[anything]), anything being zero by convention.
Regards, Michael Karcher
1: breaks horribly means in that case: Returns nonsense (if foo[0] is a structure, usually zero), no compile-time error, no obvious error in that line (one needs the context to find it, and most people just assume foo to be an array reading that line).