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I need to modify a Binary Search Tree that I created to assure that it is balanced. I only need to modify the add and remove methods, according to my instructions. Here's what I currently have:

package proj;

public class BinarySearchTree<T extends Comparable<T>>{
    public static void main(String[] args) {
        BinarySearchTree<Integer> tree = new BinarySearchTree<Integer>();
        tree.add(5);
        tree.add(1);
        tree.add(2);
        tree.add(6);
    }

    private Node<T> root;
    private int size;
    String inorder = "";
    String preorder = "";

    public BinarySearchTree(){
        root = null;
        size = 0;
    }

    //adds a new item to the queue
    public void add(T obj) {
        Node<T> n = new Node<T>(obj);
        if( root == null ) {
            root = n;
        } else {
            add( root, n );
        }
        size++;
    }

    private void add(Node<T> subtree, Node<T> n) {
        if( subtree.getValue().compareTo(n.getValue()) > 0 ) {
            if( subtree.getLeftChild() == null ) {
                subtree.setLeftChild(n);
                n.setParent(subtree);
            } else {
                add( subtree.getLeftChild(), n );
            }
        } else {
            if( subtree.getRightChild() == null ) {
                subtree.setRightChild(n);
                n.setParent(subtree);
            } else {
                add( subtree.getRightChild(), n );
            }
        }
    }

    //returns the head of the queue
    public T peek(){
        Node<T> current = root;
        while(current.getLeftChild() != null){
            current = current.getLeftChild();
        }
        return current.getValue();
    }

    //removes the head of the queue and returns it
    public T remove(){
        if(root == null){
            return null;
        }

        Node<T> current = root;
        while(current.getLeftChild() != null){
            current = current.getLeftChild();
        }
        if( current.getParent() == null ) {
            root = current.getRightChild();
            if(root != null){
                root.setParent(null);
            }
        } else {
            current.getParent().setLeftChild(current.getRightChild());
            if(current.getRightChild() != null){
                current.getRightChild().setParent(current.getParent());
            }
        }
        size--;
        return current.getValue();
    }

    //returns the position of an element in the queue, or -1 if it is not found
    public int search(T searchItem){
        String tempOrdered = inorder(root);
        for(int i = 0; i<tempOrdered.length(); i++){
            if(String.valueOf(tempOrdered.charAt(i)).equals(searchItem.toString())){
                return i;
            }
        }
        return -1;
    }

    //returns number of nodes in the tree
    //returns the total number of elements in the queue
    public int getSize(){
        return size;
    }
    public String inorder() {
        inorder = "";
        if( root == null )
            return inorder;
        return inorder(root);
    }

    //returns an in-order, comma-separated string of every element in the queue
    private String inorder(Node<T> n){
        if(n.getLeftChild() != null){
            inorder(n.getLeftChild());
        }
        inorder += n.getValue();
        if(n.getRightChild() != null){
            inorder(n.getRightChild());
        }
        return inorder;
    }

    public String preorder() {
        preorder = "";
        if( root == null )
            return preorder;
        return preorder(root);
    }

    //returns a pre-ordered, comma-separated string of every element in the queue
    private String preorder(Node<T> n){
        preorder+= n.getValue();
        if(n.getLeftChild() != null){
            preorder(n.getLeftChild());
        }
        if(n.getRightChild() != null){
            preorder(n.getRightChild());
        }

        return preorder;
    }

    //returns the height of the tree; returns -1 if the tree is empty
    public int height(Node<T> n){
        if(n == null){
            return -1;
        }
        return Math.max(height(n.getLeftChild()), height(n.getRightChild()))+ 1;
    }

    //returns the root node
    public Node<T> getRoot(){
        return root;
    }
}

I'm not looking for someone to walk me through this assignment - simply looking for some advice as to how I should go about doing this so that I don't break the code half way in. I'm guessing that I'll need to do something to the effect of checking the balance factor of the tree each time something is added or removed, then reconstruct the tree or 'rotate' when it's unbalanced.

Thanks for any given advice in advance. :) Appreciate all the tips.

-Chris

share|improve this question
    
There is a good description on wikipedia about the subject. You'll have to implement appropriate tree rotations after insertion/deletion. –  Howard Jun 2 '11 at 16:50

1 Answer 1

The AVL tree article on Wikipedia gives all you need to implement this kind of self-balanced tree (I especially like the picture showing rotations needed for rebalancing). Basically you need to implement left and right tree rotation and use it in your add and remove methods according to the rules given in the article.

If you are more adventurous, try implementing a red-black tree. A good description with pseudo code can be found in Introduction to Algorithms.

share|improve this answer
    
For even more info, you can study the 2-3 Tree implementation, which more logically explains the implementation of a red-black tree (at least in my opinion). In essence, the 2-3 Tree and Red-Black tree are the same thing. –  Cooper Jun 2 '11 at 19:15
    
I actually read about 2-3 trees last night; I think I understand them, the actual algorithm will be the hard part though. >_< –  Chris V. Jun 2 '11 at 20:57

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