What it does
If you read Plauger's The Standard C Library (1992), you will see that the
<stdio.h> header is allowed to provide
getc() as function-like macros (with special permission for
getc() to evaluate its file pointer argument more than once!). However, even if it provides macros, the implementation is also obliged to provid actual functions that do the same job, primarily so that you can access a function pointer called
getc() and pass that to other functions.
That is, by doing:
extern int some_function(int (*)(void));
int c = some_function(getchar);
As written, the
core_function() is pretty meaningless, but it illustrates the point. You can do the same thing with the
isxxxx() macros in
<ctype.h> too, for example.
Normally, you don't want to do that - you don't normally want to remove the macro definition. But, when you need the real function, you can get hold of it. People who provide libraries can emulate the functionality of the standard C library to good effect.
Also note that one of the reasons you seldom need to use the explicit
#undef is because you can invoke the function instead of the macro by writing:
int c = (getchar)();
Because the token after
getchar is not an
(, it is not an invocation of the function-like macro, so it must be a reference to the function. Similarly, the first example above, would compile and run correctly even without the
If you implement your own function with a macro override, you can use this to good effect, though it might be slightly confusing unless explained.
/* function.h */
extern int function(int c);
extern int other_function(int c, FILE *fp);
#define function(c) other_function(c, stdout);
/* function.c */
/* Provide function despite macro override */
int (function)(int c)
return function(c, stdout);
The function definition line doesn't invoke the macro because the token after
function is not
return line does invoke the macro.