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I have the following situation:

class Base2

class Base1
    virtual void f()=0;
    boost::shared_ptr<Base2> base2Ptr;

class Derived1 : public Base1
    Base1(boost::shared_ptr<Base2> b2)  : base2Ptr(b2) { }

    void f()
        /* Here I would like to know the derived type of base2Ptr */

template<typename T>
class Derived2 : public Base2
    typedef T result_type;
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This isn't going to work, because you haven't made declared operator() as a virtual member in the base class. –  Oliver Charlesworth Jan 8 '12 at 18:25
What is the actual problem you are trying to solve? –  Georg Fritzsche Jan 8 '12 at 18:25
Good points. I'll edit the question to make it closer to my real problem (I tried to simplify, but simplified too much). –  Irit Katriel Jan 8 '12 at 18:28
Maybe look at Boost.any. –  Kerrek SB Jan 8 '12 at 18:34
There is no base2Ptr in Derived1 –  ChrisWue Jan 8 '12 at 18:39

2 Answers 2

up vote 1 down vote accepted

(I put some code on ideone (Edited to have some virtual destructors. This is important so that shared_ptr correctly destructs DoublyDerived2 in the example.))

Based on the comments on the question, I think the ultimate goal is for the constructor of Derived1 to somehow 'know' and 'remember' the static type of the object passed into the constructor of Derived1. In particular:

Derived2<string> *p = new DoublyDerived2<string>();
// static type of p is Derived2, not DoublyDerived
shared_ptr<Base1> x = something_that_creates_a_Derived1(p);

The Derived1 object should know that p is of type Derived2, not merely of type Base2

Assuming this is correct understanding of the problem, that code on ideone should solve it. The main trick is that make_Derived1 is a template and the deduced type is used when creating Derived1. Derived1 is itself a template, which ensure that its foo method knows the type.

template <class T>
shared_ptr<Base1> make_Derived1(shared_ptr<T> ptr) {
    cout << typeid(ptr).name() << endl;
    return shared_ptr<Base1>(new Derived1<T>(ptr));

and a usage:

int main() {
    shared_ptr< Derived2<string> > p ( new DoublyDerived2<string>() ) ;
    shared_ptr<Base1> x = make_Derived1(p);
    x->f(); // prints something like "Derived2", as desired.
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@IritKatriel, in terms the example I've given, do you need the foo to know about the fact that p is really a DoublyDerived2<string>? Or is it sufficient to know that it is a Derived2<string>? –  Aaron McDaid Jan 8 '12 at 19:39
Yes, this approach should work for me: pass the type as a template parameter along with the shared_ptr, so that the exact type is known. Thank you. –  Irit Katriel Jan 8 '12 at 22:56

There isn't any way for Derived1<T>::f() to get a typedef from the Base2*.

Derived2 does have a typedef result_type in it, but from the language level, there's no way to guarantee that a separate subclass of Base2 would also have a typedef named result_type. C++ is a statically typed language so you can't write code that relies on a type that might change dynamically based on what sort of subclass is inside Base2*.

share|improve this answer
Thanks, I thought that would be the case. Not all is lost though - I just realized that I can probably extract the type from another static type I have there. –  Irit Katriel Jan 8 '12 at 18:53

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