I'm a little reluctant to post this answer because it's use of macro hackery can become the source of problems. However - if the calls to the function you want to have disappear are always used alone in a statement (ie., they are never part of a larger expression), then something like the following could work (and it handles varargs):
#define foo (1) ? ((void) 0) : (void)
#define foo MyFunction
So if you have the line of code:
foo( "this is a %s - a++ is %d\n", "test", a++);
it will end up after the preprocessing step as either:
MyFunction( "this is a %s - a++ is %d\n", "test", a++);
(1) ? ((void) 0) : (void)( "this is a %s - a++ is %d\n", "test", a++);
which turns the pseudo-function's parameter list into a bunch of expressions separated by the comma operator that will never be evaluated, since the conditional always returns the
((void) 0) result.
A variant of this is something close to what ChriSW and Jonathan Leffler suggested:
#define foo if (0) MyFunction
#define foo if (1) MyFunction
This is slightly different in that it does not require the compiler to support variadic macros (
I think this can be useful for eliminating debug trace function calls which are generally never combined into a larger expression, but beyond that I think it's a dangerous technique.
Note the potential for problems - especially if the parameters in the call produce side-effects (this is a general problem with macros - not just this hack). In the example, the
a++ will be evaluated only if
SOMETHING is defined in the build, otherwise it's not. So if code after the call depends on the value of
a to be incremented, one of the builds has a bug.