7
class Node
{
    public int data;
    public Node left, right;

    public Node(int data)
    {
        this.data = data;
        left = null;
        right = null;

    }
}

class BinaryTreeImp
{
    Node root;
    static int count = 0;

    public BinaryTreeImp()
    {
        root = null;

    }
    public Node addNode(int data)
    { 
        Node newNode = new Node(data);

        if (root == null)
        {
            root = newNode;

        }
        count++;
        return newNode;


    }

    public void insertNode(Node root,Node newNode )
    {
        Node temp;
        temp = root;

        if (newNode.data < temp.data)
            {
                if (temp.left == null)
                {
                    temp.left = newNode;

                }

                else
                {
                    temp = temp.left;
                    insertNode(temp,newNode);

                }
            }
            else if (newNode.data > temp.data)
            {
                if (temp.right == null)
                {
                    temp.right = newNode;

                }

                else 
                {
                    temp = temp.right;
                    insertNode(temp,newNode);
                }
            }
        }


    public void displayTree(Node root)
    {
        Node temp;
        temp = root;

        if (temp == null)
            return;
            displayTree(temp.left);
            System.Console.Write(temp.data + " ");
            displayTree(temp.right);


    }

    static void Main(string[] args)
    {
       BinaryTreeImp btObj = new BinaryTreeImp();
       Node iniRoot= btObj.addNode(5);


       btObj.insertNode(btObj.root,iniRoot);
       btObj.insertNode(btObj.root,btObj.addNode(6));
       btObj.insertNode(btObj.root,btObj.addNode(10));
       btObj.insertNode(btObj.root,btObj.addNode(2));
       btObj.insertNode(btObj.root,btObj.addNode(3));
       btObj.displayTree(btObj.root);

       System.Console.WriteLine("The sum of nodes are " + count);
       Console.ReadLine();

    }
}

This is the code for implementation.The code works fine but if in the displayTree function , i replace it with

public void displayTree(Node root)
{
    Node temp;
    temp = root;

    while(temp!=null)
    {
        displayTree(temp.left);
        System.Console.Write(temp.data + " ");
        displayTree(temp.right);
    }

}

an infinite loop is caused. I don't understand what is causing this.Also i would like to know if there is a better way of implementing a BST in C#.

1
  • 1
    Vote to close: Asking strangers to spot errors in your code by inspection is not productive. You should identify (or at least isolate) the problem by using a debugger or print statements, and then come back with a more specific question (once you've narrowed it down to a 10-line test-case). Apr 28, 2012 at 18:35

7 Answers 7

5

I'm not sure why you need this loop, but answering your question:

while(temp!=null)
{
    displayTree(temp.left);
    System.Console.Write(temp.data + " ");
    displayTree(temp.right);
}

this code checks if temp is not null, but it will never become null, cause inside the loop you act only on the leafs of the temp. That's why you have an infinit loop.

2
  • If the temp.left.left is null , wouldn't it just return to temp.left loop?
    – YuNo
    Apr 28, 2012 at 19:05
  • it will not jump into while, but there where it is already in, will no jump out.
    – Tigran
    Apr 28, 2012 at 19:10
5

You don't need a while loop nor a temp variable, let recursion do the work for you:

public void displayTree(Node root)
{
    if(root == null) return;

    displayTree(root.left);
    System.Console.Write(root.data + " ");
    displayTree(root.right);
}
0
0

temp is set to root at the beginning, and after that its value never changes

what about rewriting your function as

public void displayTree(Node root)
{
     if (root == null)
       return;
     displayTree(root.left);
     Console.Write(...);
     displayTree(root.right);
}
1
  • It does change when from inside the loop, the function displayTree() is called effectively replacing the value of root as temp.left or temp.right .
    – YuNo
    Apr 28, 2012 at 19:07
0

try this

     public void displayTree(Node root) 
    {
        Node temp;
        temp = root;

        if (temp != null)
        {
            displayTree(temp.left);
            Console.WriteLine(temp.data + " ");
            displayTree(temp.right);

        }
    }
0

I was just thinking that you as well also could use recursion for the add function. It could look something like this

      private void Add(BinaryTree node, ref BinaryTree rootNode)
    {
        if (rootNode == null)
        {
            rootNode = node;
        }
        if (node.value > rootNode.value)
        {
            Add(node, ref rootNode.right);
        }
        if (node.value < rootNode.value)
        {

         Add(node, ref rootNode.left);
        }  
    }
0

See https://msdn.microsoft.com/en-us/library/ms379572%28v=vs.80%29.aspx. See the example code in the section "Traversing the Nodes of a BST"

Also... don't forget to check out SortedDictionary, etc. They may have the BST that you need all ready to go! https://msdn.microsoft.com/en-us/library/f7fta44c.aspx

0

Complete Binary Search Tree ... With Code to check whether Tree is balanced or not

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;

namespace BinarySearchTree
{

    public class Node
    {
        public Node(int iData)
        {
            data = iData;
            leftNode = null;
            rightNode= null;
        }
        public int data{get; set;}
        public Node leftNode{get; set;}
        public Node rightNode{get; set;}
    };
    public class Program
    {
        public static Node root = null;
        public static void Main(string[] args)
        {
            //Your code goes here
            Console.WriteLine("Hello, world!");
            root = new Node(20);
            InsertNode(root, new Node(10));
            InsertNode(root, new Node(15));
            InsertNode(root, new Node(13));
            InsertNode(root, new Node(11));
            InsertNode(root, new Node(12));
            InsertNode(root, new Node(25));
            InsertNode(root, new Node(22));
            InsertNode(root, new Node(23));
            InsertNode(root, new Node(27));
            InsertNode(root, new Node(26));


           if(CheckIfTreeIsBalanced(root))
           {
                Console.WriteLine("Tree is Balanced!");
           }
           else
           {
               Console.WriteLine("Tree is Not Balanced!");
           }
            PrintTree(root);
        }


        public static void PrintTree(Node root)
        {
           if(root == null) return;        
           Node temp = root;

           PrintTree(temp.leftNode);
           System.Console.Write(temp.data + " "); 
           PrintTree(temp.rightNode);

        }

        public static bool CheckIfTreeIsBalanced(Node root)
        {
            if(root != null)
            {
                if(root.leftNode != null && root.rightNode!= null)
                {
                    if(root.leftNode.data < root.data && root.rightNode.data > root.data)
                    {
                        return CheckIfTreeIsBalanced(root.leftNode)&&CheckIfTreeIsBalanced(root.rightNode);
                    }
                    else
                    {
                        return false;
                    }
                } 
                else if(root.leftNode != null)
                {
                    if(root.leftNode.data < root.data)
                    {
                        return CheckIfTreeIsBalanced(root.leftNode);
                    }
                    else
                    {
                        return false;
                    }
                }
                else if(root.rightNode != null)
                {
                    if(root.rightNode.data > root.data)
                    {
                        return CheckIfTreeIsBalanced(root.rightNode);
                    }
                    else
                    {
                        return false;
                    }
                }
            }
             return true;
        }

        public static void InsertNode(Node root, Node newNode )
        {
        Node temp;
        temp = root;

        if (newNode.data < temp.data)
            {
                if (temp.leftNode == null)
                {
                    temp.leftNode = newNode;

                }

                else
                {
                    temp = temp.leftNode;
                    InsertNode(temp,newNode);

                }
            }
            else if (newNode.data > temp.data)
            {
                if (temp.rightNode == null)
                {
                    temp.rightNode = newNode;

                }

                else 
                {
                    temp = temp.rightNode;
                    InsertNode(temp,newNode);
                }
            }
        }

    }
}

Output :

Hello, world!
Tree is Balanced!
10 11 12 13 15 20 22 23 25 26 27 

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