This was a bug in gcc (fixed as of 2017-07-03), caused by inconsistent treatment of trailing-return-types.
First note the difference in error message between two attempts to declare a function returning a function:
using Fv = void();
Fv f1(); // error: 'f1' declared as function returning a function
auto f2() -> Fv; // error: function return type cannot be function
The first error comes from
decl.c, handling declarators, while the second is a lot deeper into the internals, from
tree.c, attempting to build the function type preparatory to generating code.
Trailing-return-types are handled in decl.c 30 lines below the above error - too late to catch it with the above error code, and it is not handled separately.
With arrays, similarly using a trailing-return-type allows us to skip the checks in
decl.c, the difference being that function-returning-array is actually valid in terms of gcc's internal representation.
Note that you can't do much with it; gcc doesn't allow you to assign, reference-bind, decay or pass the result of
func() to another function:
auto a1 = func();
// error: invalid use of non-lvalue array
auto& a2 = func();
// error: invalid initialization of non-const reference of type 'int (&)' from an rvalue of type 'int '
auto&& a3 = func();
// error: lvalue required as unary '&' operand
Indeed, even your code is rejected at
warning: ISO C++ forbids subscripting non-lvalue array
Finally, by exploiting a similar bug (qualifiers are stripped from scalars before handling of trailing-return-types) we can create a function with type
int const volatile():
int const volatile g1(); // warning: type qualifiers ignored on function return type
auto g2() -> int const volatile; // OK!!