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This question is a follow-on from http://stackoverflow.com/a/5365786/383306.

#define _DEFINE_REF_INTERNAL2(id, ...)


#define _VA_NARGS_2_IMPL(_1, _2, N, ...) N
#define _VA_NARGS_2(...) _VA_NARGS_2_IMPL(__VA_ARGS__, 2, 1)
#define _DEFINE_REF_IMPL2(count, ...) _DEFINE_REF_INTERNAL ## count (__VA_ARGS__)
#define _DEFINE_REF_IMPL(count, ...) _DEFINE_REF_IMPL2(count, __VA_ARGS__)

DEFINE_REF(MyClass, typename... Args, Args...); 
// error: ‘_DEFINE_REF_INTERNALArgs’ does not name a type
DEFINE_REF(MyClass, typename T, T); // this is OK

How do I make the macro trick work when passing ellipsis as part of an argument?

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1 Answer 1

up vote 1 down vote accepted

The problem isn't with the ellipsis. The problem is that you are passing three arguments in __VA_ARGS__ to DEFINE_REF, but _VA_NARGS_2 only handles up to two arguments.

Once you fix that, the program (I believe) exhibits the desired behavior. gcc 4.7.2 and Clang 3.2 both transform this:

#define DEFINE_REF_INTERNAL3(arg0, arg1, arg2) [arg0] [arg1] [arg2]

#define VA_NARGS_(_1, _2, _3, N, ...) N
#define VA_NARGS(...) VA_NARGS_(__VA_ARGS__, 3, 2, 1)

#define DEFINE_REF_IMPL_(count, ...) DEFINE_REF_INTERNAL ## count(__VA_ARGS__)
#define DEFINE_REF_IMPL(count, ...) DEFINE_REF_IMPL_(count, __VA_ARGS__)


DEFINE_REF(MyClass, typename... Args, Args...); 
DEFINE_REF(MyClass, typename T,       T      );

into this:

[MyClass] [typename... Args] [Args...];
[MyClass] [typename T] [T];

(Also note that names beginning with an underscore followed by a capital letter are reserved for the implementation. You may not use such names for your own macros.)

If you are targeting Visual C++, you will need a barrel of indirection to make this work, as it does not correctly replace macros before rescanning in all cases. The following will work with Visual C++ (This solution is also conforming and works with gcc and Clang as well):

#define DEFINE_REF_INTERNAL3(id, arg0, arg1) id [arg0] [arg1]

#define CONCATENATE_(x, y) x ## y
#define CONCATENATE(x, y) CONCATENATE_(x, y)

#define VA_NARGS1(_1, _2, _3, N, ...) N
#define VA_NARGS0(x) VA_NARGS1 x
#define VA_NARGS(...) VA_NARGS0((__VA_ARGS__, 3, 2, 1))

#define DEFINE_REF_IMPL1(macro, pargs) macro pargs
#define DEFINE_REF_IMPL0(count, ...) \
#define DEFINE_REF_IMPL(count, ...) DEFINE_REF_IMPL0(count, __VA_ARGS__)

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RE: comment about underscore + cap letter. Specifically, what is 'the implementation'? –  Zach Saw Dec 14 '12 at 1:18
Generally, the implementation is the compiler, the Standard Library, and perhaps some platform libraries (like parts of the OS). There's no clear division between what is and is not part of the implementation, but most code is not the implementation. –  James McNellis Dec 14 '12 at 1:42
Ah mine falls perfectly in that compiler / std lib category. So it would've been wrong for me to pollute the global namespace. –  Zach Saw Dec 14 '12 at 1:45
I now face another problem where I have multiple template typenames -- DEFINE_REF(MyClass, (typename T, typename U), (T, U)) but how do I get rid of the additional () when the macro gets expanded? (should this be another SO question?) –  Zach Saw Dec 14 '12 at 2:10
If you require that all uses of DEFINE_REF have parenthesized arguments (i.e., that you require DEFINE_REF(MyClass, (T), (T)), even if there is only one argument), then you can use #define EAT_YUMMY_PARENTHESES_(x) x and #define EAT_YUMMY_PARENTHESES(x) EAT_YUMMY_PARENTHESES_ x. This is the same trick as is used in the VA_NARGS0 in the Visual C++-compatible code I presented. –  James McNellis Dec 14 '12 at 2:19

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