Clang and MSVC are correct. This should be well-formed because of the combination effect of implicitly-generated deduction guides (since C++17) and default template argument.
When a function-style cast or declaration of a variable uses the name
of a primary class template C without an argument list as the type
specifier, deduction will proceed as follows:
- If C is defined, for each constructor (or constructor template) Ci declared in the named primary template (if it is defined), a fictional
function template Fi, is constructed, such that
- template parameters of Fi are the template parameters of C followed (if Ci is a constructor template) by the template parameters
of Ci (default template arguments are included too)
- the function parameters of Fi are the constructor parameters
- the return type of Fi is C followed by the template parameters of the class template enclosed in <>
- If C is not defined or does not declare any constructors, an additional fictional function template is added, derived as above from
a hypothetical constructor C()
- In any case, an additional fictional function template derived as above from a hypothetical constructor C(C) is added, called the copy
Template argument deduction and overload resolution is then performed
for initialization of a fictional object of hypothetical class type,
whose constructor signatures match the guides (except for return type)
for the purpose of forming an overload set, and the initializer is
provided by the context in which class template argument deduction was
performed, except that the first phase of list-initialization
(considering initializer-list constructors) is omitted if the
initializer list consists of a single expression of type (possibly
cv-qualified) U, where U is a specialization of C or a class derived
from a specialization of C.
These fictional constructors are public members of the hypothetical
class type. They are explicit if the guide was formed from an explicit
constructor. If overload resolution fails, the program is ill-formed.
Otherwise, the return type of the selected F template specialization
becomes the deduced class template specialization.
std::greater(), the implicitly-generated deduction guide is applied and the additional fictional function is selected at last. As the result of overload resolution the default argument
void is applied, then the deduced type will be
void. That means
std::greater() should be same as writing
BTW: Gcc doesn't compile with
std::greater g; are fine, it might be gcc's bug.