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Hello I am trying to implement BST algorithm using Cormen's pseudo code yet having issue.

Here is my Code for Node:

public class Node {
    Node left;
    Node right;
    int value;

    Node(int value){
        this.value = value;
        this.left = null;
        this.right = null;  
    }
}

and for the Bstree:

public class Btree {
    Node root;

    Btree(){
        this.root = null;
    }

    public static void inorderWalk(Node n){
        if(n != null){
            inorderWalk(n.left);
            System.out.print(n.value + " ");
            inorderWalk(n.right);
        }
    }

    public static Node getParent(Btree t, Node n){
        Node current = t.root;
        Node parent = null;


        while(true){
            if (current == null)
                return null;

            if( current.value == n.value ){
                break;
            }

            if (current.value > n.value){
                parent = current;
                current = current.left;
            }
            else{ //(current.value < n.value)
                parent = current;
                current = current.right;
            }       
        }
        return parent;
    }


    public static Node search(Node n,int key){
        if(n == null || key == n.value ){
            return n;
        }
        if(key < n.value){
            return search(n.left,key);
        }
        else{
            return search(n.right,key);

        }
    }

    public static Node treeMinimum(Node x){
        if(x == null){
            return null;
        }


        while(x.left != null){
            x = x.left;
        }
        return x;
    }

    public static Node treeMaximum(Node x){
        if(x == null){
            return null;
        }

        while(x.right != null){
            x = x.right;
        }
        return x;   
    }

    public static Node treeSuccessor(Btree t,Node x){
        if (x.right == null){
            return treeMinimum(x.right);
        }
        Node y = getParent(t,x);
        while(y != null && x == y.right){
            x = y;
            y = getParent(t,y);
        }
        return y;   
    }

    public static Btree insert(Btree t,Node z){
        Node y = null;
        Node x = t.root;

        while(x != null){
            y = x;
            if(z.value < x.value)
                x = x.left;
            else
                x = x.right;
        }
        Node tmp = getParent(t,z);
        tmp = y;
        if(y == null){
            t.root = z;
        }
        else if(z.value < y.value)
            y.left = z;
        else
            y.right = z;

        return t;
    }


    public static Btree delete(Btree t,Node z){
        Node y,x;
        if (z.left == null || z.right == null)
            y = z;
        else
            y = treeSuccessor(t,z);

        if (y.left != null)
            x = y.left;
        else
            x = y.right;
        if (x != null){
            Node tmp = getParent(t,x);
            tmp = getParent(t,y);
        }

        if (getParent(t,y) == null ){
            t.root = x;
        }
        else{
            if( y == getParent(t,y).left ){
                getParent(t,y).left = x;
            }
            else{
                getParent(t,y).right = x;

            }
    }
        if(y != z){
            z.value = y.value;
        }
    return t;
}

public static void main(String[] args){
    Btree test = new Btree(); 
    Node n1 = new Node(6);
    Node n2 = new Node(3);
    Node n3 = new Node(9);
    Node n4 = new Node(1);
    Node n5 = new Node(16);
    Node n6 = new Node(4);
    Node n7 = new Node(2);
    Node n8 = new Node(11);
    Node n9 = new Node(13);


    test = insert(test,n1);
    test = insert(test,n2);
    test = insert(test,n3);
    test = insert(test,n4);
    test = insert(test,n5);
    test = insert(test,n6);
    test = insert(test,n7);
    test = insert(test,n8);
    test = insert(test,n9);
    inorderWalk(test.root);
    System.out.println();
    test = delete(test,n8);
    inorderWalk(test.root);

    System.out.println();
    test = delete(test,n5);
    inorderWalk(test.root);

    System.out.println();
    test = delete(test,n2);
    inorderWalk(test.root);

    System.out.println();
    test = delete(test,n1);
    inorderWalk(test.root);




}

}

The main problem is with the remove part, sometimes it is working as intended, sometimes removing wrongly and sometimes null pointer exception. What can be the issue ?

Ps: this is NOT a homework

share|improve this question
    
Can you provide the specific test sequence that gets the remove wrongly? And can you provide the specific test sequence that gets the null pointer? –  S.Lott Jan 12 '10 at 21:38
1  
Given TreeMap exists in standard libraries, please explain how this isn't homework... –  Nicolás Jan 12 '10 at 21:41
2  
Side comment; in the delete method, for some if statements you use braces {}, for other if statements you don't. You should always use them, it will help you avoid stepping into stupid mistakes while debugging your code, and will make your code more readable for others. –  Dean J Jan 12 '10 at 21:43
    
That, or only leave the braces off when the "then" part of the if statement follows on the same line. Not perfect, but a reasonable compromise. Coding the "then" part underneath, indented but without braces is the worst you can do. –  Carl Smotricz Jan 12 '10 at 21:52
    
cheers for the bracket suggestion. @Nicolas I am trying to learn the algorithm implementation, for homework I could simply copy some already existing code and use that as an HW. –  Hellnar Jan 12 '10 at 22:02

4 Answers 4

up vote 4 down vote accepted

Some immediate problems with your code: your treeSuccessor starts with

    if (x.right == null){
        return treeMinimum(x.right);
    }

which should be if (x.right != null), of course.

Your insert code has the lines

    Node tmp = getParent(t,z);
    tmp = y;

where you assign to tmp and immediately assign to it again. It doesn't seem to me that you need these lines at all, since you don't use tmp further on. At this moment, you have y being the node to whose child z gets inserted, so just delete these lines.

Again, in delete, you have the lines

    if (x != null){
        Node tmp = getParent(t,x);
        tmp = getParent(t,y);
    }

where you don't actually do anything, since tmp is not visible outside this snippet. And further on, in delete, you repeat the expression getParent(t,y), which can be an expensive operation, so you should compute it only once and assign it to some variable.

But in general, your code, though it seems correct (probably apart from delete, which I did not understand completely but which looks suspicious), does not much resemble typical binary tree code. You don't really need the getParent and treeSuccessor methods to implement search, insert, and delete. The basic structure that you have for search works for the others too, with the following modifications:

  • with insert, when you get to a null link, instead of returning null, insert the element to that point
  • with delete, when you find the element, if it has only one (or no) child, replace it with that child, and if it has two children, replace it with either the maximum of the left child tree or the minimum of the right child tree

Both of these require in addition that you keep track of the parent node while descending into the tree, but that's the only modification you need to make to search. In particular, there is never any need to go upwards in the tree (which treeSuccessor will do).

share|improve this answer
    
thank you jk! your answer is great for explaining :) –  Hellnar Jan 12 '10 at 22:14
    
with those tmp nodes, ie Node tmp = getParent(t,x); tmp = getParent(t,y); I wanted to set the parent of x at the t to the parent of y node . –  Hellnar Jan 12 '10 at 22:17
1  
Unfortunately that's not going to work: tmp is only a reference to the node, and assigning to it will just change where the reference points to, it will not change the object referred to. In any case, you cannot necessarily perform the operation you wanted in a binary tree: what if the parent of y already had two children? In that case you could not set it as the parent of x too. All manipulation should be by modifying where the child links point to. Keeping track of the parent node of your current node helps here. –  jk. Jan 12 '10 at 22:46

First of all, your implementation got nothing to do with object orientation (except using objects). The insert and delete operations for example should operate ON the Tree.

Besides, I would recommend to implement the Node class as a static member of the Tree class.

public class Tree {
    private Node root = null;

    // remainder omitted

    public boolean insert(int element) {
        if (isEmpty()) {
            root = new Node(element);

            return true; // empty tree, Node could be inserted, return true
        }

         Node current = root; // start at root
         Node parent;         // the current Node's parent

         do {
             parent = current;

             if (element < current.element) {
                 current = current.left; // go to left
             } else if (element > current.element) {
                 current = current.right; // go to right
             } else {
                 return false;  // duplicates are NOT allowed, element could not be inserted -> return false

         } while (current != null);

         Node node = new Node(element);

         if (element < current.element) {
             parent.left = node;
         } else {
             parent.right = node;
         }

         return true; // node successfully inserted
    }

    public boolean isEmpty() {
        return root == null;
    }

    private static class Node { // static member class
        Node left  = null;
        Node right = null;
        final int element;

        Node(int element) {
            this.element = element;
        }
    }
}
share|improve this answer

...what is up with your delete code? It doesn't make a lot of sense. I would consider rewriting it in a more logical way. Without the meaningless single-letter variable names. And add comments!

One possible algorithm is:

Get the parent of the node to delete
Get the right-most node of the left subtree, or the leftmost node of the right subtree
Remove the node to delete and replace it with the node you found
Rebalance the tree

...or, if you want to hack up this stuff so it's right, I'd start looking at the

if (x != null){
    Node tmp = getParent(t,x);
    tmp = getParent(t,y);
}

part, because that's clearly wrong.

share|improve this answer

I'll have to side with Anon and go for the rewrite. The null pointers come from your getParent function (which explicitly returns nulls along other things). So I would start there and fix the function(s) so that they return one thing and one thing only at the end of the function.

share|improve this answer

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