In C++20, the preprocessor supports __VA_OPT__ as a way to optionally expand tokens in a variadic macro if the number of arguments is greater than zero. (This obviates the need for the ##__VA_ARGS__ GCC extension, which is a non-portable and ugly hack.)

Clang SVN has implemented this feature, but they haven't added a feature test macro for it. Can any clever preprocessor hacker figure out a way to detect the presence or absence of __VA_OPT__ support without causing a hard error or a portability warning?

4 Answers 4


Inspired by chris's answer.1

#define PP_THIRD_ARG(a,b,c,...) c
#define VA_OPT_SUPPORTED_I(...) PP_THIRD_ARG(__VA_OPT__(,),true,false,)

If __VA_OPT__ is supported, VA_OPT_SUPPORTED_I(?) expands to PP_THIRD_ARG(,,true,false,), so the third argument is true; otherwise, VA_OPT_SUPPORTED_I(?) expands to PP_THIRD_ARG(__VA_OPT__(,),true,false,), the third argument is false.

Edit: As Edward Diener's answer notes, GCC >= 8 issues a warning or error whenever it sees __VA_OPT__, if -pedantic mode is on and __VA_OPT__ is not enabled (e.g. in -std=c++17). This is GCC bug 98859. One might have to special-case GCC to avoid this diagnostic.

#if __cplusplus <= 201703 && defined __GNUC__ \
  && !defined __clang__ && !defined __EDG__ // These compilers pretend to be GCC
#  define VA_OPT_SUPPORTED false

1. As chris mentions, if __VA_OPT__(,) expands to ,, there will be 2 empty arguments, otherwise there will be 1 argument. So it's possible to test PP_NARG(__VA_OPT__(,)) == 2, where PP_NARG is a macro to count the number of arguments. To adapt to this test, the definition of PP_NARG can be simplified and inlined.

  • 3
    This is the kind of brevity I was imagining when I said mine could probably be improved. Nice work :)
    – chris
    Dec 31, 2017 at 21:15

Something like the following should work, though you might be able to improve it:

#include <boost/preprocessor.hpp>

#define VA_OPT_SUPPORTED_II_1(_) 0
#define VA_OPT_SUPPORTED_II_2(_1, _2) 1



On Clang trunk, this evaluates to 1 in C++2a mode and 0 in C++17 mode. GCC trunk actually evaluates this to 1 in C++17, but also handles __VA_OPT__ in that mode.

What this does is use BOOST_PP_OVERLOAD to call either the _1 or _2 version of _II based on the count of arguments. If __VA_OPT__(,) expands to ,, there will be 2 empty arguments. If not, there will be 1 empty argument. We always call this macro with an argument list, so any compiler supporting __VA_OPT__ should always expand it to ,.

Naturally, the Boost.PP dependency isn't mandatory. A simple 1-or-2-arg OVERLOAD macro should be easy enough to replace. Losing a bit of generality to make it more straightforward:

#define OVERLOAD2_I(_1, _2, NAME, ...) NAME


There is one portability warning from Clang:

warning: variadic macros are incompatible with C++98 [-Wc++98-compat-pedantic]

I don't know if this detection is even possible without C++11 variadic macro support. You could consider assuming no support for __cplusplus values lower than C++11, but Clang still gives the warning even when wrapped in such a check.

  • 1
    I would love to accept this answer, but I need no dependencies, and I don't have the PP skills to implement OVERLOAD. Care to remove the Boost.PP dependence? Dec 31, 2017 at 20:54
  • @EricNiebler, Sure. In the meantime, there are several SO questions, including this one.
    – chris
    Dec 31, 2017 at 20:56

The problem with the solution as it is specified in its most popular answer above is that the compiler is free to issue a warning, or even an error, if __VA_OPT__ is used outside of its C++20 mode, since the word is a compiler reserved word since it starts and ends with double underscores. In fact I have discovered that gcc will issue a warning or an error depending on the compiler options being used, although it will normally not do so in most compiling cases. Because of this surrounding any solution with a current test for C++20, such as:

# if defined(__cplusplus) && __cplusplus > 201703L
// Solution

is a more conservative solution although it limits the test to C++20 or higher.


As mentioned in the other answer, you can write your own OVERLOAD macro. BOOST_PP_OVERLOAD consists of two parts, BOOST_PP_CAT and BOOST_PP_VARIADIC_SIZE. However, unlike Boost, you only care about 2 args. So:

#define OVERLOAD(prefix, ...) CAT(prefix, VARIADIC(__VA_ARGS__))

CAT will look like:

#define CAT(a, b) KITTY((a, b))
#define KITTY(par) MEOW ## par
#define MEOW(a, b) a ## b


#define VARIADIC(...) _VARIADIC_(__VA_ARGS__, 2, 1,)
#define _VARIADIC_(e0, e1, size, ...) size

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