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There is a similar question to this with the function being an operator overload with arguments and that is the main emphasis, which is only confusing me further.

I am simply trying to execute a short recursive function on a tree class that gets called on non-empty Node objects in order to traverse down the tree's child nodes respectively.

My class declarations are as such:

    template<class T>
    class BTNode {
        template<class I>
        friend class BST;
        T data;
        BTNode<T>* left_;
        BTNode<T>* right_;
    ...
    }

template<class I>
class BST {
    BTNode<I>* root_;
    BTNode<I>* curr_;
    BTNode<I>* parent_;
    int currSize = 0;

public:

    size_t size() const {
        if (root_ == NULL) {
            return currSize;
        }
        else {
            BTNode<I>* left_ = root_->getLeft();
            BTNode<I>* right_ = root_->getRight();

            if (left_ != NULL) 
                currSize += left_->size();
            if (right_ != NULL) 
                currSize += right_->size();
        }

        return currSize;
    }
...
};

The error as it stands is:

'size()': is not a member of 'BTNode<I>'

So far, I have tried make BTNode a friend class of BST, and the error still prevails (having both classes become friends of each other).

Thanks in advance.

2
  • 1
    Is there actually a function size() in BTNode? You haven't shown one; is it in the .. part? Jul 8, 2015 at 18:07
  • No, how I understood the friendship was that I can invoke the tree's size() function on Node objects since the tree class is a friend of node.
    – user1438611
    Jul 8, 2015 at 18:09

1 Answer 1

2

You misunderstand what friend declarations do. Saying that A is a friend of B means that A gains access to protected and private members of B. It allows A to call private functions of B, for example. It does not extend the interface of A or B in any way.

If I understand correctly what you're trying to achieve, you should be able to do that by having size take a parameter:

template<class I>
class BST {
    BTNode<I>* root_;
    BTNode<I>* curr_;
    BTNode<I>* parent_;

public:

    size_t size() const {
        return size_(root_);
    }

private:
    static size_t size_(const BTNode<I> *node) {
        if (node == NULL) {
            return 0;
        }
        else {
            return 1 + size_(node->getLeft()) + size_(node->getRight());
        }
    }

...

};
2
  • So this can't work without BST being a derived class of Node then?
    – user1438611
    Jul 8, 2015 at 18:17
  • @learnenburn I added what I believe is a solution which does not introduce any such inheritance. Jul 8, 2015 at 18:29

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