# Recursive binary tree class of Fibonacci sequence

As part of a personal project, not homework - just for my own interest and getting started in C++ I'm trying to create a binary tree of Fibonacci values; I know I'm making a number of fundemental errors here, but would appreciate if someone could help me out, my code is below:

``````#include <iostream>
#include <typeinfo>
using namespace std;

class FibTree {

class Node {
public:
Node const* left;
Node const* right;
int value;
Node (int, Node*, Node*);
};

Node const* root;

public:
FibTree (int);
int getValue(){
return this->root->value;
};

private:
static Node* buildTree(int n ) {
if (n < 2) {
return new Node( n, NULL, NULL );
} else {
Node* left = buildTree( n - 1 );
Node* right = buildTree( n - 2 );
return new Node( left->value + right->value , left, right );
}
}
};
FibTree::FibTree(int n) {
this->root = buildTree(n);
};

FibTree::Node::Node(int value, Node* left, Node* right){
this->value = value;
this->left = left;
this->right = right;
};

int main () {
FibTree f(6);
cout << f.getValue();
return 0;
}
``````

Could anyone let me know what I'm doing fundamentally wrong here, importantly tell me why I'm getting the errors 'Cannot convert 'FibTree' to 'FibTree*' in assignment; and how I should better approach?

-
The whole implementation is wrong; you need to rewrite the code from scratch. –  Rontogiannis Aristofanis Mar 24 '13 at 13:58
`this->left = new FibTree(n - 1, this);` is how you fix the error you get (in return for some memory leaks, but they don't do harm). But I agree with you: you're making a bunch of fundamental errors. But I'll leave that to someone who wishes to construct a complete answer :) –  s3rius Mar 24 '13 at 14:01

As the error message says, you're trying to assign a concrete type `FibTree` to a pointer. In many cases, the error is that you are using pointers, but in this case, identity is important. You want one, and only one instance of `FibTree` for each value.

Since your goal is apparently to learn good practices, I will start out by pointing out that the abstraction you seem to be implementing in `FibTree` is not that of a tree, but of a node in a tree. Personally, I would have started with something like:

``````class FibTree
{
class Node
{
Node const* left;
Node const* right;
int value;
};
Node const* root;
public:
//  ...
};
``````

After that, it's more a question of personal preferences how you want to build up the tree; the important point is that each node must be dynamically allocated (`new Node(...)`, and not just `Node(...)`), and that the `left` and `right` pointers must be elements that are already in the tree.

Beyond that, I'm not sure how much you want me to tell you, Working out the rest could be an interesting learning experience, but if you want more hits, feel free to ask, and I'll edit this answer to provide them. One thing I would say: I'd add a constructor to `Node`. Something along the lines of `Node::Node( int value, Node* left, Node* right )`. Strictly speaking, you don't need it, and it won't change the algorithm in anyway, but it will make writing the algorithm out much more succinct. Also, I'd use a recursive function to build the structure, called from the constructor. And finally, I'd add a destructor at the tree level, which walks the tree recursively deleting all of the nodes.

But I repeat: the most important single point to grasp is that a node is not the tree.

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Many thanks for your great advice; I'll explore your points and get back to you with any questions if thats okay. Alex –  Alex2134 Mar 24 '13 at 14:29
Hi James, I've added in the nested Node class, however having problems declaring the Node class constructor: `class FibTree { class Node { public: Node const* left; Node const* right; int value; Node (int, Node*, Node*); }; Node::Node (int value, Node* left, Node* right); public: ...` Errors with italic_Cannot declare member function 'FibTree::Node::Node' within 'FibTree'_italic do you you why this would be the case? Thanks Alex –  Alex2134 Mar 24 '13 at 15:42
If you're defining the constructor for `FibTree::Node` out of the class, the format would be `FibTree::Node::Node(...)`. Also: you can define the implementation of the constructor directly in the class definition of `Node`, or you can define it in global scope, but you cannot define it in the scope of the enclosing class. (I usually don't like defining functions directly in the class definition, but for almost trivial constructors of nested classes, I'll often make an exception.) –  James Kanze Mar 24 '13 at 18:59
Thanks James; thinking about this (and with some trial and error), whilst waiting for your reply, I worked this out - so this is something else I've learned. You advise calling a recursive function to build the tree from the constructor - would this be from the tree constructor, as opposed to the node constructor? –  Alex2134 Mar 25 '13 at 17:40
@Alex2134 For starters, I'd make `buildTree` private. And I'd probably have it return a `Node*`. I've only given the code a quick look, but my impression is that you're building in the wrong direction. Something along the lines of `Node* buildTree( n ) { return n < 2 ? new Node( n, NULL, NULL ) : new Node( n, buildTree( n - 1 ), buildTree( n - 2 ); }`. In the constructor, you can initialize `root` directly from `buildTree`, in the initialization list (and `buildTree` can be `static`, since it doesn't need a `this` pointer). –  James Kanze Mar 25 '13 at 19:09
``````        this->left = FibTree(n - 1, this); // This line errors 'Cannot convert 'FibTree' to 'FibTree*' in assignment
this->right = FibTree(n - 2, this); // This line errors 'Cannot convert 'FibTree' to 'FibTree*' in assignment
``````

should be

``````        this->left = new FibTree(n - 1, this);
this->right = new FibTree(n - 2, this);
``````

Not sure why you are passing root to your constructor though, you don't do anything with it.

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The obvious issue (obvious for people with some experience in OO programming) is that he is confounding nodes and trees. I think your solution might actually work in this case, but only by accident; if you don't keep the difference between the two concepts in mind, you'll run into problems somewhere. –  James Kanze Mar 24 '13 at 14:11