is it safe to calling a member function not defined on the base class from of a derived class in c++?

Question

I was reading about delegation and I wanted to able to call within a base class any function pass as parameter depending on the event, so if for example I had a parser object and I want to assign what method from another object to call depending of what token is found. I did as bellow, it works but I am not sure if it's the proper way or if it's portable like too.

class base{
 public: 
     typedef void (base::*methodPTR)();
     methodPTR pfn;

    void setMethod(methodPTR fn)
    {
        pfn = fn;
    }
    void run(){
        if(pfn) (this->*pfn)();
    }
};

class a : public base {
 public:
};

class b : public base
{
    a ob;
 public:
     void init()
     {
             //this function fn is not define neither in object "a" or "base"
             //but still I can assign arbitrary member function just like I wanted
         ob.setMethod(static_cast<base::methodPTR>(&b::fn));
     }

     void fn()
     {
         cout << "from class b!" << endl;
     }

     void test()
     {
         ob.run();
     }
};

int _tmain(int argc, _TCHAR* argv[])
{
    b x;
    x.init();
    x.test();

    return 0;
}

Answer 1

Doing what you're doing is safe as long as you are sure that you never invoke the member pointer on an object that's not really one of the types that the pointer came from (i.e. that you don't call a a::x on a base).

Answer 2

Try the template solution for this problem, in this example I am sure of using right objects to invoke right functions. We could use this in case where we have a map objects and callbacks and may be call them based on some conditions.

   //store objects vs callbacks
   //you could replace int in map with some condition or key to invoke a callback
#include <iostream>
#include <map>

using namespace std;

template<class T>
class A {
  protected:
  void (T::*curr_f)();
  private:
  static std::map<int, std::map<T*,void (T::*)() > > callBacks;
  public:

  virtual void set(void (T::*f)()) {
    curr_f = f;
    cout<<"Set in A"<<endl;
    T* obj = new T();
    static int x = 0;
    callBacks[++x][obj] = f;
    //      (obj->*curr_f)();
  }

  virtual void new_function() {cout<<"in A"<<endl;};

  static void run()
  {
    for(typename std::map<int,std::map<T*,void (T::*)() > >::iterator itr = A<T>::callBacks.begin();
        itr != A<T>::callBacks.end(); ++itr)
    {
      for(typename std::map<T*,void (T::*)() >::iterator itr2 = itr->second.begin();
          itr2 != itr->second.end(); ++itr2)
      {
        ((itr2->first)->*(itr2->second))();
      }
    }
  }

};

template<class T>
std::map<int, std::map<T*,void (T::*)() > > A<T>::callBacks;

class B :public A<B> {

  public:
    void func() {
      set(&B::new_function);
    };
    void new_function() {cout<<"in B"<<endl;};

};

class C:public A<C> {

  public:
    void func() {
      set(&C::new_function);
    };
    void new_function() {cout<<"in C"<<endl;};

};

int main()
{

  B obj1;
  C obj2;
  obj1.func();
  obj2.func();
  A<B>::run();
  A<C>::run();
}