Yes, it is probably a weird question, but I tried a lot, and I started to think that maybe is impossible to overload this template function properly:

#include <iterator>

class Foo
{
private:
    const int arr[5] = {10, 20, 30, 40, 50};
public:
    const int* begin() const { return arr; }

friend auto std::begin<>(const Foo &f) -> decltype(f.begin());
}

It always throw the same error (in GCC 12.2.0):

main.cxx:10:13: error: template-id ‘begin<>’ forconst int* std::begin<>(const Foo&)’ does not match any template declaration

I just wanna know if is possible do things like this. Thanks.

  • ctr1@fl0w.cc
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    7 months ago

    I think the issue is that Foo is incomplete when you’re declaring the friend, so I think it’s impossible. I just tried it and g++ ignores the target candidate due to “member access into incomplete type”, which makes sense since std::begin is already defined and calls .begin(). The closest you can get is to use another friend to expose arr and overload std::begin manually, but that’s a bit silly 😅

    • Apparently it is impossible for this kind of functions to be defined as friends of classes:

      template <typename T>
      auto do_something(T &t) -> decltype(t.private_msg);
      
      class Foo
      {
      private:
          const char *private_msg = "You can't touch me!";
          
      friend auto do_something<>(Foo &f) -> decltype(f.private_msg); // Error!
      };
      
      template <>
      auto do_something<Foo>(Foo &f) -> decltype(f.private_msg) // Error!
      {
          return f.private_msg; // Error!
      }
      

      After trying different combinations, it seems that I managed to get it working with the condition the whole template are considered friends of the class. I don’t know if I should consider it a language problem, but it seems that way, since the template restrictions (in this case) are minor.

      template <typename T>
      auto do_something(T &t) -> decltype(t.private_msg);
      
      class Foo
      {
      private:
          const char *private_msg = "You can't touch me!";
      
      template <typename T>
      friend auto do_something(T &t) -> decltype(t.private_msg); // This works fine!
      };
      
      template <>
      auto do_something<Foo>(Foo &f) -> decltype(f.private_msg)
      {
          return f.private_msg;
      }
      

      Do you think I found an error in the language?

      • ctr1@fl0w.cc
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        7 months ago

        Ah, nice idea. I’ve tried a few different ways of doing this, and I think what you’re seeing is a discrepancy in how the compiler handles member access into incomplete types. It seems that, in your examples, the compiler is allowing -> decltype(f.private_msg) within the class, but I think it’s not selecting do_something outside of it because it uses decltype(t.private_msg). In my case, I’m not even able to do that within the class.

        For example, since I’m not able to use decltype(f.private_msg) inside the class, I’m using decltype(private_msg) instead, which causes an error at the do_something declaration related to incomplete type (presumably because of the t.private_msg usage):

        // candidate template ignored; member access into incomplete type
        templateclass Tauto do_something(T &t) -> decltype(t.private_msg);
        class Foo {
                const char *private_msg = "You can't touch me!";
                friend auto do_something〈〉(Foo &f) -> decltype(private_msg);
        };
        template 〈〉 auto do_something(Foo &f) -> decltype(f.private_msg) {
                return f.private_msg;
        }
        

        My reasoning is that removing the t.private_msg from the declaration works:

        templateclass Ret, class Tauto do_something(T &t) -> Ret;
        class Foo {
                const char *private_msg = "You can't touch me!";
                friend auto do_something〈〉(Foo &f) -> decltype(private_msg);
        };
        template 〈〉 auto do_something(Foo &f) -> decltype(f.private_msg) {
                return f.private_msg;
        }
        static Foo foo{};
        // this works, but Ret cannot be deduced and must be specified somehow:
        static auto something = do_something〈const char*〉(foo);
        

        The reason your second example works is because the friend template inside the class acts as a template declaration rather than a specialization, which isn’t specialized until after Foo is complete:

        // the do_something inside Foo is a declaration, meaning this isn't used
        // template 〈class T〉
        // auto do_something(T &t) -> decltype(t.private_msg);
        class Foo {
                const char *private_msg = "You can't touch me!";
                templateclass T// t.private_msg is allowed because T is not Foo yet
                friend auto do_something(T &t) -> decltype(t.private_msg);
        };
        template 〈〉 auto do_something(Foo &f) -> decltype(f.private_msg) {
                return f.private_msg;
        }