I'd like to std::bind to a member function from a private base class, made "public" with a using-declaration in the derived class. Calling the function directly works, but it seems binding or using member function pointers doesn't compile:

#include <functional>

struct Base {
    void foo() { }
};

struct Derived : private Base { 
    using Base::foo;            
};

int main(int, char **)
{
    Derived d;

    // call member function directly:
    // compiles fine
    d.foo();

    // call function object bound to member function:
    // no matching function for call to object of type '__bind<void (Base::*)(), Derived &>'
    std::bind(&Derived::foo, d)();

    // call via pointer to member function:
    // cannot cast 'Derived' to its private base class 'Base'
    (d.*(&Derived::foo))();

    return 0;
}

Looking at the error messages above, the issue seems to be that Derived::foo is still just Base::foo, and I can't access Base through Derived outside Derived itself.

This seems inconsistent - should I not be able to use direct calls, bound functions, and function pointers interchangeably?

Is there a workaround that would let me bind to foo on a Derived object, preferably without changing Base or Derived (which are in a library I don't own)?

  • As a (a bit ugly) workaround you could use a lambda [&d] () { d.foo(); }. – Holt Mar 28 '16 at 13:44
up vote 4 down vote accepted

The issue here is what the using-declaration actually does:

struct Derived : private Base { 
    using Base::foo;            
};

That brings Base::foo into public scope in Derived, but it doesn't create an entirely new function. It is not equivalent to having written:

struct Derived : private Base {
    void foo() { Base::foo(); }
}

There is still only Base::foo(). The using-declaration simply affects the access rules and the overload resolution rules. As such &Derived::foo really has type void (Base::*)() (and not void (Derived::*)()!), since that is the only foo that exists. Since Base is private, member access through a pointer to Base is ill-formed. I agree that this is pretty unfortunate ("inconsistent" is a good word).

You can still create a function object that calls foo. You just can't use the pointer to member. With C++14, this becomes straightforward if verbose (I'm assuming arbitrary arguments here and that void foo() is merely a simplification of the problem):

auto d_foo = [d](auto&&... args){ return d.foo(std::forward<decltype(args)>(args)...); }

With C++11, you'd have to write a type with a variadic template operator().

  • Nice, using lambdas is an interesting way of avoiding the pointer! Is there any workaround that doesn't require C++11? – Anders Johansson Mar 28 '16 at 14:17
  • @AndersJohansson You're already using std::bind? Anyway, any lambda can always be written as an equivalent struct struct D_Foo { D d; void operator()() { d.foo(); } }; – Barry Mar 28 '16 at 14:19
  • My test case is C++11 with std::bind but in production I am limited to C++03 with boost::bind - I kept the question simple because the errors are the same. Sounds like structs like the above should do the trick. Thanks! – Anders Johansson Mar 28 '16 at 14:27

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