I must have missed something in C++ specification because I can't explain why the following code compiles successfully:

class MyClass { static void fun(); };
int main() { MyClass::MyClass::MyClass::fun(); }

Could somebody point me to the standard or just explain me the semantics? I would guess that only one MyClass:: is allowed. Two MyClass::MyClass:: should cause error. Experimenting with MS Visual C++ 2017 and GNU C++ 6.2.0 I realized that any count of MyClass:: is allowed.

It is not only a theoretical question. I wanted to use SFINAE and condition compilation with existence of a sub-class. Worked good until the base class has the same name as the sub-class:

template <class T> void callWorkout() { T::SubClass::workout(); }
struct X { struct SubClass { static void workout(); }; };
struct Y { /*empty*/ };
struct SubClass { static void workout(); };

int main() {
  callWorkout<X>();  // works fine - compiled
  callWorkout<Y>();  // works "fine" - not compiled, no SubClass in Y
  callWorkout<SubClass>();  // ooops? - still compiled, there is no 'SubClass' in SubClass

My question has two parts:

  • What is the exact semantics of MyClass::MyClass::?
  • How can I fix the above example not to compile callWorkout<SubClass>()? (I tried to add sizeof(typename T::SubClass) but surprisingly it compiles also for T=SubClass)

That's the injected class name of MyClass. And you can verify it's not T by simply using std::is_same_v<T, typename T::SubClass> in a SFINAE conditional.

template <class T>
auto callWorkout() -> std::enable_if_t<!std::is_same_v<T, typename T::SubClass>>
{ T::SubClass::workout(); }

If you don't need SFINAE (because you aren't trying to control overload resolution), then a static_assert with a descriptive custom message can also do nicely.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.