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I have a problem. I'd like to point shared_ptrs to objects that are stored in a class. In the code there is a Holder::getSomething() function that returns a reference to a base. I'd like to cast that to the derived b_ptr. Here's the code:

#include <memory>
using namespace std;

class A{
public:
    int a;

    A() : a(0){}
    virtual ~A(){}
};

class B : public A {
    public:
    bool b;

B() : A(){ b = false; }
};

class Holder{
public: 
    B arr[1];

    // there's an A ref here, not B, because i'll have a boatload of deriveds. 
    A& getSomething(){
        return arr[0];
    }

    Holder(){
        arr[0] = B();
    }
};

int main(){ 

Holder h;

shared_ptr<B> b_ptr;

// b_ptr = something_alien_here(h.getSomething());

return 0;
};

I know ( and by "know" i mean i have an uneducated guess ) that i should use dynamic_(pointer_?)cast but i cant find/figure out the right syntax.

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If you are sure getSomething really returns a reference to B, then b_ptr.reset(static_cast<B*>(&h.getSomething());. However: a) if you do know that, then why don't you just return B& in the first place, and b) why shared_ptr? It'll try to delete the pointer when it goes out of scope, which exhibits undefined behavior (and will likely crash) since the pointer wasn't allocated with new. –  Igor Tandetnik Jul 31 '14 at 20:28

2 Answers 2

up vote 0 down vote accepted

The whole point of a shared pointer is that its ref counted, and destructs
what it points to when the last one go out of scope. You don't want that to happen
to a member object of another class, since that is undefined behaviour.

in short; don't do that.

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So i should use a raw pointer instead? –  val Jul 31 '14 at 20:44
1  
why do you need a pointer in the first place? wont a reference work? –  sp2danny Jul 31 '14 at 20:59
    
Yes it'll work, now i feel kinda foolish. –  val Jul 31 '14 at 21:14

If you can guarantee that h will live longer than b_ptr, then you can use the borrowing constructor of shared_ptr, together with a cast:

Holder h;

std::shared_ptr<B> b_ptr(std::shared_ptr<B>(),
                         &static_cast<B&>(h.getSomething()));

Now b_ptr shares ownership with the temporary, empty shared pointer, which has the effect of never calling the deleter for B. This is why it is now your responsibility to guarantee that the pointee exists for at least as long as the shared pointer may be dereferenced.

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