Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

This question is about overriding a virtual method in a derived class with a different return type. For the following code:

class father {
  virtual father* ref() { return this; }

class child : public father {
  virtual child* ref() { return this; }

When I try to get a pointer directly, g++ (F15, g++4.5) reports "invalid conversion from father to child"

child m_child;
father* pf = &m_child;
child* pc = pf->ref();

I understand the ref() method in the child class is used and this is probably just a compile time type mismatch.

However, is there any way to do it without explicitly use a type cast?

Extra description: I understand the reason why compiler report this error. What I need is something out of the box which can access the data in derived object without explicitly convert a pointer.

The father class is used to put different derived child objects into lists or vectors, so when an item is fetch from the list or vector, there is no way to tell which child class it is belong to.

I have internal method to record and check the child class type. But I dont want to explicitly convert the pointer.

For example, I would like to do something like this:

// assuming pf is pointer pointed to an item fetch from a vector
switch(fp->get_type()) {
case child_type1: fp->ref()->list1.push(data); break;
case child_type2: fp->ref()->list2.push(data); break;
case child_type3: fp->ref()->list3.push(data); break;

Right now, I need to explicitly declare a new variable or explicitly convert fp to the proper type in each case and each time I need to access a data in derived classes, which are tedious and confusing.

What I expect are: may be some boost libraries can do similar things in another way which I dont know yet, or may be the c++11 standard allows it but a special compiling parameter needs to be set?

share|improve this question
I think I understand it perfectly well why the compiler reports a type mismatch. What I need is not a explanation about what happens here. I need something out of the box. To further explain it, pls see the extra description added. –  Wei Song Apr 4 '12 at 13:41

3 Answers 3

up vote 1 down vote accepted

Simple answer is "no".

You've lost the extra information (child* rather than father*) about ref when you threw away m_childs type information, by storing it as pointer to base (pf).

One reason why it will never be possible without a cast is this example:

class father {
  virtual father* ref() { return this; }

class childA : public father {
  virtual childA* ref() { return this; }

class childB : public father {
  virtual childB* ref() { return this; }

void should_never_compile(int i)
   childA a;
   childB b;
   father pf;
   if( i ) { pf=&a; }
   else { pf=&b; }

   // This is evil and will not compile
   childA * pa = pf->ref();

   //But this is OK:
   childA * pa = dynamic_cast<childA*>(pf->ref() );

If you really want to make this doable without the dynamic cast you can just hide the dynamic cast (but it scares me a little)

class father {
  virtual father* ref() { return this; }
  template<typename T> T* as() { return dynamic_cast<T*>(ref()); }

child m_child;
father* pf = &m_child;
child* pc = pf->as<child>();
share|improve this answer
Thanks, you provide me something looks better! –  Wei Song Apr 4 '12 at 13:54

Your function does what you expect and what you tell it to. The line

child* pc = pf->ref();

is the problem. You call the function "ref()" on a pointer-to-father, which returns (by type) a father *. You assign this - without conversions - to a child *. The implementation of that function returns a child *, but from where you call it that information is not known as you only know that it's a father *. The return type is therefore a father * (as indicated in the class father), and you assign that without conversion to a child *. You can do:

child *pc = m_child.ref();
father *pf = m_child.ref();
father *pf2 = pf->ref();
share|improve this answer
Well explained @dascandy –  Unsung Apr 4 '12 at 13:28

The problem is that in the call pf->ref(), the type of ref is: father* (father::*)().

That is, ref is resolved statically to be a virtual method with a given signature. And this signature indicates that it returns a father*.


int main() {
  father f;
  father* pf = &f;

  child c;
  child* pc = &c;

  child* xf = pf->ref(); // compile-time failure
  child* xc = pc->ref(); // okay

The problem is that, in general, starting from a father* you cannot know whether or not you will get a child*, it depends on the dynamic type of the instance. So the compiler assumes the worst case: it must at least be father.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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