Ran into something strange when doing some template metaprogramming the other day. It basically comes down to this assertion not (as I would expect) passing.

static_assert(std::is_same_v<void(), std::remove_reference_t<void()&>>);

At first I thought I was making a syntactic mistake defining a function reference, but this assertion passes, showing that's not the case.

static_assert(std::is_same_v<void()&, void()&>);

I also tried implementing remove_reference myself copying the source from cppreference but that didn't work either. What is going on here?


Welcome to the world of Abominable Function Types.

void() & is not a reference to void(). The way to spell that would be void(&)() (which if you remove_reference_t, you would get back void() -- that is remove_reference_t does work on references to functions, if what you provide it is actually a reference to function type).

What void() & actually refers to is the type of a reference-qualified member function after you strip off the class. That is:

struct C {
    void f() &;

The type of &C::f is void (C::*)() &. But all pointers to members can be written as T C::* for some type T, and in this case the type T would be void() &.

See also P0172.

  • 3
    Someone should create a canonical question for abominable function types. – Brian Bi Nov 15 '19 at 16:06
  • Wow, C++ never fails to surprise me even if I have learned and used it for almost 10 years. – Kelvin Hu Nov 20 '19 at 3:20

The type you have is not a reference to a function, but a function with a reference qualifier.

static_assert(std::is_same_v<void()&, void()&>);
static_assert(!std::is_same_v<void()&, void(&)()>);
static_assert(std::is_same_v<void(&)(), void(&)()>);
static_assert(std::is_same_v<void(), std::remove_reference_t<void(&)()>>);

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