Since in the first unsigned int, you put -1, but from the unsigned int point of view it is 0xFFFFFFFF (this is how negative integers are stored into a computer); in the second case the bitwise not does not look at the "kind" at all and "transform" 0 into 1 and viceversa, so all zeros of 0 becomes 1 (looking at bits), so you obtain 0xFFFFFFFF.

The next question is, why comparing an unsigned integer with a signed integer does not distinguish them? (numerically 4294967295 is not equal to -1 of course, even though their representation in a computer is the same). Indeed it could, but clearly C does not mandate such a distinction, and it is "natural", since processor aren't able to do it of their own (I am not sure about this last sentence being **always** true, ... but it is for most processor): to take into account this distinction in asm, you have to add extra code.

From the C point of view, you have to decide if to cast int into unsigned int, or signed int into unsigned int. But a negative number can't be cast into a unsigned one, of course, and on the other hand, an unsigned number could cause overflow (e.g. for 4294967295 you need a 64bit register (or a 33bit regster!) to be able to have it and still be able to calculate its negative value)...

So likely the most natural thing is to avoid strange casting, and permit a "cpu like" comparison, which in this case lead to 0xFFFFFFFF (-1 on 32 bit) compared to 0xFFFFFFFF (~0 on 32bit), which are the same, and more in genereal one can be considered as MAXUINT (the maximum unsigned integer that can be hold) and the other as -1. (Take a look at your machine `limits.h`

include to check it)