I was reading comp.lang.cs description of booleans values, pre-C99. It mentions that some people prefer to define their own boolean values as:
#define TRUE (1==1)
#define FALSE (!TRUE)
However, the standard defines the equality operator to always return a signed int with a value of 1 when two values compare equal (C11 - 6.5.9) and the logical not operator shall return a int with a value of 0 if the value compares unequal to 0 (C11 - 6.5.3.3).
If this is the case and the above definitions use literals, won't the evaluation happen compile time and the resulting definitions be:
#define TRUE (1)
#define FALSE (0)
And a follow-up question. Is there any case where it makes sense to define the true and false labels to anything other than 1 and 0, respectively?
And pardon that I reference C11 when my question concerns C89 but I only have the C11 standard at hand.
TRUE=1
andFALSE=0
are bound to standard as you have noted.TRUE=(1==1)
andFALSE=(!TRUE)
are bound to compiler-specific implementation. So if you get a non-standard-compliant compiler (which is bad), you can still have somewhat portable code.1 == 1
is1
and!(1 == 1)
is zero – since they are constant expressions. One case where it would make sense is e. g. when you want your compiler not to acceptFALSE
as a null pointer literal.TRUE
will be the properbool
typedtrue
.!(1==1)
is a valid null pointer constant. (E.g.(0,0)
or(0 , !(1==1))
etc aren't, and would make the compiler complain if used in a pointer context.)