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A is a base class, B is an inherited class. A takes member function pointers from B bound with boost::bind+boost::function to store and execute from other base class functions later. The A and B classes are in separate include files. I would like to restrict the developer who implements inherited classes from A that the bound member function pointers in the inherited classes are private functions. The environment is C++, gcc 4.x and Linux.

Sample:

------ INCLUDE FILE -----

#include <boost/bind.hpp>
#include <boost/function.hpp>

struct A
{
protected:
    void Register(const char* name, boost::function<void()> FuncPtr)
    {
      // (I am not intended to pass the name argument, but probably somebody
      // knows something gcc magic which would use it to solve the problem.)
      // I want to ensure that FuncPtr points to a private member
      // function. What can be known: "B::CalledFunction" string and FuncPtr.
      // If it is not a private member function then drop an error message
      // during run-time or during compilation (???).
    }
};

------ OTHER INCLUDE FILE -----
...

struct B : public A
{
    B() : A()
    {
      Register("B::CalledFunction", boost::bind(&B::CalledFunction, this));
    }

private:
    void CalledFunction()
    {
    }
};

Any kind of macro magic or similar stuff can also be appreciated before/instead of a simple direct call to A::Register().

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4  
Why would you want to enforce this? –  ildjarn Sep 12 '11 at 20:58
    
In C++11 the rules for access specifications were changed to be applied before SFINAE, so you would have a chance to do some macro hacks to detect whether a function is private or not. However I do not think is worth it, why must you place such artificial restriction? –  K-ballo Sep 12 '11 at 20:59
2  
what's the purpose of this? why not use inheritance the way it's supposed to be used? –  Nim Sep 12 '11 at 20:59
    
The purpose: in my case, the inherited classes would implement new functions, bound and stored in the base class to call them later, but I want to prevent the developer who would use the class B to call these bound functions directly. –  kecsap Sep 12 '11 at 21:07
1  
@kecsap : Shouldn't the accessibility of the derived class' member functions be up to the derived class' author? Why should the base class care either way? –  ildjarn Sep 12 '11 at 21:10

2 Answers 2

Rather than expand the comments, I will propose an alternative based on really using inheritance

#include <iostream>
#include <memory>

class A
{
  public:
    void call_a() { some_func_a(); }
  private:
    virtual void some_func_a() = 0; // pure virtual
};

class B : public A
{
  private:
    void some_func_a() { std::cout << "B::some_func_a" << std::endl; }
};

int main(void)
{
  std::auto_ptr<A> a(new B);
//  a->some_func_a();  // causes compiler error
  a->call_a();
}

If you leave out the definition of some_func_a in B, you'll get a compiler error when you try to instantiate B.

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Unfortunately, the restriction you ask for is not possible. Access restrictions are only present at compile time, not runtime; the only thing they do is control (based on lexical scope) what identifiers can be referenced.

Since the calling context producing these bound member functions obviously has access to all its member functions, you cannot distinguish between private and public member functions locally - this rules out any macro hacks. Further, member function pointers do not retain access control information (this is why you can call a pointer to a private member function from another class). As such, checking elsewhere is also not possible.

You may be able to implement this as a compiler pass in something like clang, as the information is available there at compile time; however this is not possible with a normal C++ compiler. However, this may be prone to false positives and false negatives, as the situation in which this is an issue is somewhat ill-defined (what if some derived class B really wants a bound public member function, that it'll use elsewhere?)

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