class Node { int data; Node left, right; public Node(int item) { data = item; left = right = null; } } public class LevelOrderTraversal { // Root of the Binary Tree Node root; public LevelOrderTraversal() { root = null; } /* function to print level order traversal of tree*/ void printLevelOrder() { int h = height(root); int i; for (i=1; i<=h; i++) printGivenLevel(root, i); } /* Compute the "height" of a tree -- the number of nodes along the longest path from the root node down to the farthest leaf node.*/ int height(Node root) { if (root == null) return 0; else { /* compute height of each subtree */ int lheight = height(root.left); int rheight = height(root.right); /* use the larger one */ if (lheight > rheight) return(lheight+1); else return(rheight+1); } } /* Print nodes at the given level */ void printGivenLevel (Node root ,int level) { if (root == null) return; if (level == 1) System.out.print(root.data + " "); else if (level > 1) { printGivenLevel(root.left, level-1); printGivenLevel(root.right, level-1); } } /* Driver program to test above functions */ public static void main(String args[]) { LevelOrderTraversal tree = new LevelOrderTraversal(); tree.root= new Node(1); tree.root.left= new Node(2); tree.root.right= new Node(3); tree.root.left.left= new Node(4); tree.root.left.right= new Node(5); System.out.println("Level order traversal of binary tree is "); tree.printLevelOrder(); } }