I don't understand the reasoning behind this: why is explicit specialization with private type allowed for class templates but not for function templates?

Say we have a class:

class pepe
    struct lolo
        std::string name = "lolo";
    static lolo get()
        return {};
  • Class template can be explicitly specialized.
  • And function templates have no problems upon implicit instantiation.
  • Though you can't create spec_class<pepe::lolo>{} because pepe::lolo is inaccessable.
template <typename>
struct spec_class

// this is ok
template <>
struct spec_class<pepe::lolo>

// this will be ok also upon implicit instantiation
template <typename T>
void template_func(const T &t)
    std::cout << "implicit: " << t.name << std::endl;


// this is not ok!
// template <>
// void template_func(const pepe::lolo &p)
// {
//     std::cout << "explicit: " << p.name << std::endl;
// }

// this is ok, but more or less understandable why
template <>
void template_func(const decltype(pepe::get()) &p)
    std::cout << "explicit: " << p.name << std::endl;

// not ok, but expected
// void func(const pepe::lolo&)
// {}

So: Why is explicit specialization prohibited for a function template?

1 Answer 1


From C++20, using private members in the parameter of a specialization of a function template is perfectly valid, due to PR0692. In particular, the following wording was added to temp.spec.general#6:

The usual access checking rules do not apply to names in a declaration of an explicit instantiation or explicit specialization, with the exception of names appearing in a function body, default argument, base-clause, member-specification, enumerator-list, or static data member or variable template initializer.

[ Note 1: In particular, the template arguments and names used in the function declarator (including parameter types, return types and exception specifications) can be private types or objects that would normally not be accessible. - end note]

(emphasis mine)

The code not compiling is due to a GCC bug 97942, and it compiles just fine in Clang. demo.

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