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# BinaryTree implementation in java

I have this code for BinaryTree creation and traversal

``````
class Node
{
Integer data;
Node left;
Node right;
Node()
{
data = null;
left = null;
right = null;
}
}
class BinaryTree
{
Scanner input = new Scanner(System.in);
BinaryTree()
{
}
public void createNode(Node temp, Integer value)
{
Node newnode= new Node();
value = getData();
newnode.data = value;
temp = newnode;
{
}
System.out.println("If left child exits for ("+value+") enter y else n");
if(input.next().charAt(0)=='y')
{
createNode(temp.left, value);
}
System.out.println("If right child exits for ("+value+") enter y else n");
if(input.next().charAt(0)=='y')
{
createNode(temp.right, value);
}
}
public Integer getData()
{
out.println("Enter the value to insert:");
return (Integer)input.nextInt();
}

public void print()
{
}
public void inorder(Node node)
{
if(node!=null)
{
inorder(node.left);
System.out.println(node.data);
inorder(node.right);
}
else
return;
}
}

class BinaryTreeWorker
{
static BinaryTree treeObj = null;
static Scanner input = new Scanner(System.in);
{
int choice;
do{
out.print("\n Basic operations on a tree:");
out.print("\n 1. Create tree  \n 2. Insert \n 3. Search value \n 4. print list\n Else. Exit \n Choice:");
choice = input.nextInt();

switch(choice)
{
case 1:
treeObj = createBTree();
break;
case 2:
treeObj.createNode(null, null);
break;
case 3:
//searchnode();
break;
case 4:
treeObj.print();
break;
default:
return;
}
}while(true);
}
public static BinaryTree createBTree()
{
return new BinaryTree();
}
public static void main(String[] args)
{
}
}``````

It compiles and runs. But I think there is something wrong with the inorder traversal.

I created the below tree,

```    2
1       3
```

But it prints only 2.

-
Is it a homework? If it is, please tag it so....... – MD Sayem Ahmed Jan 16 '12 at 6:23
Why do you think there's something wrong with it? Does it produce incorrect output? What was expected? What did you actually get? – Jonathan Newmuis Jan 16 '12 at 6:23
FYI it's a very bad habit to mix user interface (especially blocking modal calls) with your domain object logic. I would look into separating that logic out; it will make things much easier to debug. Start by looking into the Model View Controller (MVC) paradigm. – I82Much Jan 16 '12 at 6:31
another coding style comment: `inorder` does not require an instance of `Node` to run, make it static! [or even better: make it accept no args, and use `this` instead of passing `Node` as an argument] – amit Jan 16 '12 at 6:58
it's not homework, but i was doing it for self-study. I have added the output to the original post – John Jan 16 '12 at 7:21

I have tried solving the problem your way and I have pasted the solution below.. Though I haven't tested it thoroughly so it might fail in some edge condition.. But I have tested it for one case. Kindly let me know if it fails in some scenario. I would appreciate others help in making this answer better. I agree that this solution is not the most ideal way to code a Binary Tree but it wont hurt this way if some one is just practicing..

``````import java.util.Scanner;

class Node
{
Integer data;
Node left;
Node right;
Node()
{
data = null;
left = null;
right = null;
}
}
class BinaryTree
{
Scanner input = new Scanner(System.in);
BinaryTree()
{
}

public void createNode(Node temp,Node newnode)
{

{
System.out.println("No value exist in tree, the value just entered is set to Root");
return;
}
if(temp==null)

System.out.println("where you want to insert this value, l for left of ("+temp.data+") ,r for right of ("+temp.data+")");
char inputValue=input.next().charAt(0);
if(inputValue=='l'){
if(temp.left==null)
{
temp.left=newnode;
System.out.println("value got successfully added to left of ("+temp.data+")");
return;
}else  {
System.out.println("value left to ("+temp.data+") is occupied 1by ("+temp.left.data+")");
createNode(temp.left,newnode);
}
}
else if(inputValue=='r')
{
if(temp.right==null)
{
temp.right=newnode;
System.out.println("value got successfully added to right of ("+temp.data+")");
return;

}else  {
System.out.println("value right to ("+temp.data+") is occupied by ("+temp.right.data+")");
createNode(temp.right,newnode);
}

}else{
System.out.println("incorrect input plz try again , correctly");
return;
}

}
public Node generateTree(){
int [] a = new int[10];
int index = 0;
while(index<a.length){
a[index]=getData();
index++;
}
if(a.length==0 ){
return null;
}
Node newnode= new Node();
/*newnode.left=null;
newnode.right=null;*/
return generateTreeWithArray(newnode,a,0);

}
public Node generateTreeWithArray(Node head,int [] a,int index){

if(index >= a.length)
return null;
System.out.println("at index "+index+" value is "+a[index]);
}

public Integer getData()
{
System.out.println("Enter the value to insert:");
return (Integer)input.nextInt();
}

public void print()
{
}
public void inorder(Node node)
{
if(node!=null)
{
inorder(node.left);
System.out.println(node.data);
inorder(node.right);
}
else
return;
}
}

public class BinaryTreeWorker
{
static BinaryTree treeObj = null;
static Scanner input = new Scanner(System.in);
{
int choice;
do{
System.out.print("\n Basic operations on a tree:");
System.out.print("\n 1. Create tree  \n 2. Insert \n 3. Search value \n 4. print list\n 5. generate a tree \n Else. Exit \n Choice:");
choice = input.nextInt();

switch(choice)
{
case 1:
treeObj = createBTree();
break;
case 2:
Node newnode= new Node();
newnode.data = getData();
newnode.left=null;
newnode.right=null;
break;
case 3:
//searchnode();
break;
case 4:
System.out.println("inorder traversal of list gives follows");
treeObj.print();
break;
case 5:
break;
default:
return;
}
}while(true);
}
public static Integer getData()
{
System.out.println("Enter the value to insert:");
return (Integer)input.nextInt();
}
public static BinaryTree createBTree()
{
return new BinaryTree();
}
public static void main(String[] args)
{
}
}
``````

[Update] : Updated the code to generate a binary tree using an array. This will involve less user interaction.

-
thanks anupam. Any idea what went wrong in my code? – John Apr 6 '12 at 17:14

Your problem is in `public void createNodes(Node temp, T data)` function. You pass in a parameter the same name as the class variable temp. First of all I don't think you need the class variable by itself. Second of all assigning to temp in this method has only local effect - you loose the information in the `temp` parameter, but setting temp, will not infuence its value in the called method. I suggest you rewrite the method so that it returns the pointer to the newly created node and assign this pointer to the `left` and `right` of the local `temp`. That way the changes will propagate out.

-
Precisely.. shown the modified code below.. – apil.tamang Apr 16 '15 at 16:44

another type of outputting the tree:

``````public void inorder()
{
inorder(root);
}

protected void visit(BSTNode<T> p)
{
System.out.println("Node: " + p.el + "Left Side:" + (p.left!=null?p.left.el:"null") +
"Right          Side:" + (p.right!=null?p.right.el:"null"));
}
``````
-

I've changed the BinaryTree Class as below. See the change on the the createNode method in particular.

The problem, as mentioned in the post before this, is that your reference doesn't persist when it is passed as an argument to the createNode method. That change is only local. You need to return an explicit Node reference in the method itself as you're creating the node.

``````public Node createNode()
{

Integer value = getData();

Node temp = new Node(value);
{
}
System.out.println("Do you want to add left branch on node("+value+")? Enter y/n");
if(input.next().charAt(0)=='y')
{
temp.left=createNode();
}
System.out.println("Do you want to add right branch on node("+value+")? Enter y/n");
if(input.next().charAt(0)=='y')
{
temp.right=createNode();
}

return temp;
}
``````

Here is the resulting output:

`````` Basic operations on a tree:
1. Create tree
2. Insert
3. Search value
4. print list
Else. Exit
Choice:1

Basic operations on a tree:
1. Create tree
2. Insert
3. Search value
4. print list
Else. Exit
Choice:2
Enter the value to insert:
10
Do you want to add left branch on node(10)? Enter y/n
y
Enter the value to insert:
20
Do you want to add left branch on node(20)? Enter y/n
n
Do you want to add right branch on node(20)? Enter y/n
n
Do you want to add right branch on node(10)? Enter y/n
y
Enter the value to insert:
30
Do you want to add left branch on node(30)? Enter y/n
n
Do you want to add right branch on node(30)? Enter y/n
n

Basic operations on a tree:
1. Create tree
2. Insert
3. Search value
4. print list
Else. Exit
Choice:4
20
10
30
``````

I hope this will be of some help to someone later (even if this is 3 years late..). I just started learning about Binary Trees today myself. I'm actually planning on using this as a base to doing more involved tasks!

-

I changed the createNode method so that it works:

``````public Node createNode(Node temp, Integer value)
{
Node newnode = new Node();
value = getData();
newnode.data = value;
temp = newnode;
{
}
System.out.println("If left child exits for ("+value+") enter y else n");
if(input.next().charAt(0) == 'y')
{
newnode.left = createNode(newnode.left, value);
}
System.out.println("If right child exits for ("+value+") enter y else n");
if(input.next().charAt(0) == 'y')
{
newnode.right = createNode(newnode.right, value);
}
return newnode;
}
``````
-

Best way to implement Binary Tree in java with all the traverse types and test cases as below

``````package com.nitin.tree;

public class Tree
{
private Node parent;
private int  data;
private int  size = 0;
public Tree()
{
parent = new Node(data);
}
{
if (size == 0)
{
parent.data = data;
size++;
}
else
{
}
}
private void add(Node root, Node newNode)
{
if (root == null)
return;
if (newNode.data < root.data)
{
if (root.left == null)
{
root.left = newNode;
size++;
}
else
}
else
{
if (root.right == null)
{
root.right = newNode;
size++;
}
else
}
}
public int getLow()
{
Node current = parent;
while (current.left != null)
current = current.left;
return current.data;
}
public int getHigh()
{
Node current = parent;
while (current.right != null)
current = current.right;
return current.data;
}
private void in(Node node)
{
if (node != null)
{
pre(node.left);
System.out.print(node.data + " ");
pre(node.right);
}
}
private void pre(Node node)
{
if (node != null)
{
System.out.print(node.data + " ");
pre(node.left);
pre(node.right);
}
}
private void post(Node node)
{
if (node != null)
{
pre(node.left);
pre(node.right);
System.out.print(node.data + " ");
}
}
public void preorder()
{
System.out.print("Preorder Traversal->");
pre(parent);
System.out.println();
}
public void postorder()
{
System.out.print("Postorder Traversal->");
post(parent);
System.out.println();
}
public void inorder()
{
System.out.print("Inorder Traversal->");
post(parent);
System.out.println();
}
private class Node
{
Node left;
Node right;
int  data;
public Node(int data)
{
this.data = data;
}
}

public String toString()
{
Node current = parent;
System.out.print("Traverse From Left ");
while (current.left != null && current.right != null)
{
System.out.print(current.data + "->[" + current.left.data + " " + current.right.data + "] ");
current = current.left;
}
System.out.println();
System.out.print("Traverse From Right ");
current = parent;
while (current.left != null && current.right != null)
{
System.out.print(current.data + "->[" + current.left.data + " " + current.right.data + "] ");
current = current.right;
}
return "";
}

public static void main(String af[])
{
Tree t = new Tree();