Strictly this is c++ code, but it could have been ported from a 'c' project.
This is about portability as mentioned previously, but it actually goes far beyond. It's a clever exploit of the language definitions in order to comply with the languages.
These absurd looking macros are not as absurd as they appear at first glance, but they are in fact ingenious, as they guarantee for both C and C++ that
FALSE have the correct values (and type) of
false (even if the compiler is a C compiler which doesn't have those keywords, so you can't trivially write something like
#define TRUE true).
In C++ code, such a construct would be useless, since the language defines
false as keywords.
However, in order to have C and C++ seamlessly interoperate in the same code base, you need "something" that works for both (unless you want to use a different code style).
The way these macros are defined is a testimony of the C++ standard on being explicitly vague about what values
false actually have. The C++ standard states:
Values of type bool are either true or false.
A zero value, null pointer value, or null member pointer value is converted to false; any other value is converted to true.
A prvalue of type bool can be converted to a prvalue of type int, with false becoming zero and true becoming one.
Note how it says that two particular values exist and what their names are, and what corresponding integer values they convert to and from, but it does not say what these values are. You might be inclined to think that the values are obviously
1 (and incidentially you might have guessed right), but that's not the case. The actual values are deliberately not defined.
This is analogous to how pointers (and in particular the nullpointer) are defined. Remember that an integer literal of zero converts to the null pointer and that a nullpointer converts to
false, compares equal... blah blah... etc etc.
A lot is being said about which converts to what and whatnot, but it doesn't say anywhere that a null pointer has to have a binary representation of zero (and in fact, there exist some exotic architectures where this isn't the case!).