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When I'm using raw pointers it is pretty easy to 'travers' up/down the tree, but when I've employed shared_ptr instead of built-in pointers it isn't so. I mean I just can't do (without side effects) just this:

shared_ptr<T> p(some_shared);

while (p->parent_)//here I'm assuming that the type pointed to has parent_ member
p = p->parent_;

This doesn't work for me because it looks like it resets p->parent when it assigns to p and that's not what I want.

Any clues?


This is real code:

template<class Key_T, class Value_T>
class Node

    #define ptr_type std::shared_ptr

    typedef Key_T key_type;
    typedef ptr_type<key_type> key_ptr;
    typedef Value_T value_type;
    typedef ptr_type<value_type> value_ptr;

    typedef Colors color_type;
    typedef color_type* color_raw_ptr;
    typedef ptr_type<color_type> color_ptr;

    typedef std::pair<key_ptr,value_ptr> data_type;
    typedef ptr_type<data_type> data_ptr;

    typedef Node<key_type,value_type> node_type;
    typedef node_type* node_raw_ptr;
    typedef ptr_type<node_type> node_ptr; 
    explicit Node()
    explicit Node(const key_type& key,
        const value_type& value, 
        const color_type& color,
        node_ptr parent = nullptr,
        node_ptr left = nullptr,
        node_ptr right = nullptr);

        cout << "Bye now";

    const node_ptr& root()const
        node_ptr tmp = node_ptr(this);
        while (tmp->parent_)
        {///this seems to reset resources

            tmp = tmp->parent_;


        return tmp;

    data_ptr data_;
    color_ptr color_;

    node_ptr parent_;
    node_ptr left_;
    node_ptr right_;

share|improve this question
There doesn't appear to be anything wrong with your while loop. Can you post the function that demonstrates the problem? – Nicol Bolas Jul 31 '11 at 22:48
You have to be careful construcing a shared_ptr from this, because you might just shoot yourself in the foot when the shared pointer goes out of scope! You have to derive from std::enable_shared_from_this or something to that effect. – Kerrek SB Jul 31 '11 at 22:50
@Kerrek thanks, any ideas which other pointer could be used instead? – smallB Jul 31 '11 at 22:56
Well, as I suggested, derive from enable_shared_from_this, and then start your algorithm with node_ptr tmp = shared_from_this(); -- or you could use weak pointers. – Kerrek SB Jul 31 '11 at 23:18
You're returning a reference to a local variable inside root. – Luc Danton Jul 31 '11 at 23:26
up vote 2 down vote accepted

You cannot create a shared pointer from this as you do in

node_ptr tmp = node_ptr(this);

When you create a shared pointer, it assumes ownership of the pointer given to it - so this deletes this when tmp is reassigned.

On the subject of shared_ptr to this:

You need to create shared pointers always like this:

node_ptr tmp = node_ptr(new node());

So how do you get a shared pointer to root()? If you would use boost, you would have shared_from_this:

You can use normal pointers, or make the function external or static to the class, taking shared_ptr as an argument.

share|improve this answer
+1 Or to copy node_ptr tmp = node_ptr(new node(*this)); – Tom Jul 31 '11 at 23:42
Yes, copying often makes sense. Not for this particular case of finding the root of the tree though. – Jasu_M Aug 1 '11 at 0:12

Is there any reason that you should be manipulating smart pointers? Since you're writing synchronous code and the structure doesn't seem lazy you're not really concerned with issues of ownership -- this is a dumb traversal. So it's okay to use raw pointers.

share|improve this answer

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