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I'm trying to design a tree class in C++, but I'm running into some trouble with node destruction.

If I destroy a node, I don't want to destroy it's entire sub-tree because there might be something else pointed to it. So the obvious solution is the use reference counting. I'd have a weak pointer to the parent, and a vector of shared pointers to the child nodes. That way if a node is destroyed, it's children are only destroyed if nothing is pointing to them.

But I run into another problem here: adding a child to a node. weak_ptr only works if there's already a shared_ptr pointing to an object. And if I adding a child to a node, I don't know where to find a shared_ptr that's pointing to it. So what do I do here?

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Does every child have a parent? –  Kerrek SB Aug 27 '12 at 0:20
Every child has a parent member, but a root wouldn't have a parent. –  Avi Aug 27 '12 at 0:20
I mean logically, not code-wise. Does every child have a member? If so, then in your implementation every child would already live inside the vector of children of its parent, so that's where you can get the shared pointer from. (Though I don't follow 100% why you need shared ownership in the first place...) –  Kerrek SB Aug 27 '12 at 0:22
@KerrekSB: While that might be true, it would require that when adding a node you walk two levels up the hierarchy (if the parent node is not the root, that you would have to special case) and then walk the list of children until you find the smart pointer that refers to the node from which you are hanging the new element. –  David Rodríguez - dribeas Aug 27 '12 at 0:24
I really only would implement that if there was a compelling use case in my code already. I haven't seen a case where destroying a node but not its subtree would make a lot of sense. What would that mean for the subtree anyway? Would all children become roots? –  pmr Aug 27 '12 at 0:26

2 Answers 2

up vote 2 down vote accepted

You might want to look into enable_shared_from_this that allows you to obtain the shared_ptr directly from the object. It still requires that the object is managed by a shared_ptr, but you don't need to find who is holding it.

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Okay, but what about for the root? Wait, I can just have the Tree class hold a shared pointer to the root. We're good! –  Avi Aug 27 '12 at 0:23
@Avi: There are two options: either root is managed by a shared_ptr (in which case you are fine), or it is not, in which case you cannot obtain a weak_ptr to it. My suggestion would be to also manage the root through a shared_ptr. In most designs, all nodes are the root of their own subtree, and from that point of view, the root should not be any different than any other node, so if all nodes are managed by shared_ptr so should the root node. –  David Rodríguez - dribeas Aug 27 '12 at 0:28
Yeah, I see now how this is probably necessary: When creating new children, you need a weak_ptr to the parent, not just a raw pointer, so shared_from_this (or weak_from_this?) would be necessary. –  Kerrek SB Aug 27 '12 at 0:28
@Avi: Note that there could be other alternatives, as for example, passing the weak_ptr/shared_ptr to the parent to the child's constructor. After all, before inserting it into a given position you have had to locate it... so you already have that information. Passing the parent to the child's constructor is probably a good approach. –  David Rodríguez - dribeas Aug 27 '12 at 1:49

To expand on David Rodriguez's idea, a skeleton tree might look like this:

struct node : std::enable_shared_from_this<node>
    std::vector<std::shared_ptr<node>> children;
    std::weak_ptr<node> parent;

    void add_child()
        auto n = std::make_shared_node>();
        n->parent = std::weak_ptr<node>(shared_from_this());

auto root = std::make_shared<node>();



(Of course a real-world node would have a non-trivial constructor with payload values, and add_child would take similar arguments or be a template...)

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