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I want to create a tree structure in my program. Right now I have something similar to the following:

class tree_node
        tree_node (tree_node* parent) : parent_(parent)

        std::vector<tree_node*> children_;
        tree_node* parent_;

My main concern with this design is that the tree_node class can delete any of its children and the parent. I want to change the design to disallow this. So:

  • Can I somehow change the design to use references instead of pointers? (vector of references does not work).
  • If I use references, how can I treat the special case of the root node (which has no parent)?
  • Can I disallow the deletion of children/parents by the tree_node class?

Any other ideas to achieve my goal are welcome.

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Er, and who is going to be managing the memory for the tree, if not the tree itself? –  Cat Plus Plus Dec 1 '11 at 16:14
A separate manager class. –  Dan Nestor Dec 1 '11 at 16:17
Now that's an ugly design. –  Cat Plus Plus Dec 1 '11 at 16:19
Is it? Could you elaborate a little? –  Dan Nestor Dec 1 '11 at 16:25
@Dan the thing is, you can find trees in the STL. You can't find tree_managers though. I want a tree_ceo. –  R. Martinho Fernandes Dec 1 '11 at 16:34

4 Answers 4

up vote 5 down vote accepted

EDIT: To answer the question asked in the title but not in the text: The safest way is to NOT re-implement a tree. Use a standard library associative container or possibly boost BGL.

You could use a reference wrapper class within containers (and a boost::optional holding such a wrapper for the parent reference if desired), but I'm not sure this is a solution to your underlying problem. The tree_node class doesn't do any memory management so there isn't a particular risk of deletion.

Next, do you really need an N-ary tree? Could you get away with std::map or one of the other associative containers and avoid coding up a bunch of bugs?

Obviously your tree's public API shouldn't provide direct access to the node class (check out map and its use of iterators), so as long as the tree is properly managing the memory, your worries about pointer management should be minimal because you fully control all management of the nodes.

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A safe solution is to store the children as boost::shared_ptr and store the parent as a raw pointer. The root node then has it's parent node set to null.

To answer your questions:

  • Can I somehow change the design to use references instead of pointers? (vector of references does not work).

You have to use pointers in this situation. References simply won't work.

  • Can I disallow the deletion of children/parents by the tree_node class?

When designing a tree the most common-sense ownership model would be that nodes have ownership of their children and not vice-versa.

You are saying that you want to disallow a class from doing something to itself. How does that make sense? If you don't want your class to delete its own children then simply don't do it.

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Or std::unique_ptr for children and non-owning pointer to parent. You probably need to implement deep copy anyway to avoid Fun. –  Cat Plus Plus Dec 1 '11 at 16:24

Your class doesn't do any memory management and thus it will not delete any other nodes. If you want to make sure that anybody who uses a tree_node class doesn't delete any parents or childeren you need to put those into a pure virtual base class (where they are private) and have tree_node inherit from it. A user who uses tree_node is then forced to use the methods you provide.

Also, if you don't want to worry too much about pointers use smart pointers (see boost::shared_ptr)

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I can see why children cannot be allowed to delete a parent node but I don't understand why you would want to disallow deletion of a child. That is one of the most fundamental ops in a tree.

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