signed char c;
You get a warning when you do anything that would be "free" if bool wasn't required to be 0 or 1. b = !!t is effectively assigning the result of the (language built-in, non-overrideable)
You shouldn't expect the ! or != operators to cost zero asm instructions even with an optimizing compiler. It is usually true that int i = t is usually optimized away completely. Or even signed char c = t; (on x86/amd64, if t is in the %eax register, after c = t, using c just means using %al. amd64 has byte addressing for every register, BTW. IIRC, in x86 some registers don't have byte addressing.)
b = t; i = b;
; isn't the same as instead of i = t & 0xff
c = t; i = c; it's i = !!t;
Err, I guess everyone already knows all that from the previous replies. My point was, the warning made sense to me, since it caught cases where the compiler had to do things you didn't really tell it to, like !!BOOL on return because you declared the function bool, but are returning an integral value that could be true and != 1. e.g. a lot of windows stuff returns BOOL (int).
This is one of MSVC's few warnings that G++ doesn't have. I'm a lot more used to g++, and it definitely warns about stuff MSVC doesn't, but that I'm glad it told me about. I wrote a portab.h header file with stubs for the MFC/Win32 classes/macros/functions I used. This got the MFC app I'm working on to compile on my GNU/Linux machine at home (and with cygwin). I mainly wanted to be able to compile-test what I was working on at home, but I ended up finding g++'s warnings very useful. It's also a lot stricter about e.g. templates...
On bool in general, I'm not sure it makes for better code when used as a return values and parameter passing. Even for locals, g++ 4.3 doesn't seem to figure out that it doesn't have to coerce the value to 0 or 1 before branching on it. If it's a local variable and you never take its address, the compiler should keep it in whatever size is fastest. If it has to spill it from registers to the stack, it could just as well keep it in 4 bytes, since that may be slightly faster. (It uses a lot of movsx (sign-extension) instructions when loading/storing (non-local) bools, but I don't really remember what it did for automatic (local stack) variables. I do remember seeing it reserve an odd amount of stack space (not a multiple of 4) in functions that had some bools locals.)
Using bool flags was slower than int with the Digital Mars D compiler as of last year:
(D is a lot like C++, but abandons full C backwards compat to define some nice new semantics, and good support for template metaprogramming. e.g. "static if" or "static assert" instead of template hacks or cpp macros. I'd really like to give D a try sometime. :)
For data structures, it can make sense, e.g. if you want to pack a couple flags before an int and then some doubles in a struct you're going to have quite a lot of.