Nevertheless I found a "trick" to do so if you use GCC.
GCC has a handy ## extension on variadic macro that allows you to simulate a default argument.
The trick has limitations: it works only for 1 default value, and the argument must be the last of you function parameters.
Here is a working example.
#define SUM(a,...) sum( a, (5, ##__VA_ARGS__) )
int sum (a, b)
return a + b;
printf("%d\n", SUM( 3, 7 ) );
printf("%d\n", SUM( 3 ) );
In this case, I define SUM as a call to sum with the default second argument being 5.
If you call with 2 arguments (first call in main), it would be prepocessed as:
sum( 3, (5, 7) );
- 1st argument is 3
- second argument is the result of the sequence (5, 7)... which is
As gcc is clever, this has no effect on runtime as the first member of the sequence is a constant and it is not needed, it will simply be discarded at compile time.
If you call with only one argument, the gcc extension will remove the VA_ARGS AND the leading coma. So it is preprocessed as:
sum( 3, (5 ) );
Thus the program gives the expected output:
So, this does perfectly simulate (with the usual macro limitations) a function with 2 arguments, the last one being optional with a default value applied if not provided.