```
for ( size_t i = N ; i <= N ; i-- ) { .... }
```

This would do it because size_t is an unsigned int. Unsigned ints are 32bits. When the variable i has a value of 0, you want your loop to execute the condition. If you perform i--, the computer does

```
00000000000000000000000000000000
-00000000000000000000000000000001
```

Which results in a clear overflow, giving a value of 111111111...1. For a signed two's complement integer, this value is clearly negative. However, the type of i is an unsigned int so the computer will interpret 111111...1 to be a very large positive value.

So you have a few options:

1) Do as above and make the loop terminate when overflow occurs.

2) Make the loop run from i = 0 to i <= N but use (N-i) instead of i in everywhere in your loop. For example, myArray[i] would become myArray[N-i] (off by one depending on what the value of N actually represents).

3) Make the condition of your for loop exploit the precedence of the unary -- operator. As another user posted,

```
for ( size_t i = N + 1 ; i-- > 0 ; ) { ... }
```

This will set i to N+1, check to see if the condition N+1 > 0 still holds. It does, but i-- has a side effect, so the value of i is decremented to i = N. Keep going until you get to i = 1. The condition will be test, 1 > 0 is true, the side effect occurs, then i = 0 and it executse.

`size_t`

is guaranteed to be unsigned, and your usage of`(size_t)-1`

is correct. You only have a problem when N equals that value... – Jens Gustedt Aug 14 '10 at 18:44