package DataStructures.Trees; public class AVLTree { private Node root; private class Node { private int key; private int balance; private int height; private Node left, right, parent; Node(int k, Node p) { key = k; parent = p; } } public boolean insert(int key) { if (root == null) root = new Node(key, null); else { Node n = root; Node parent; while (true) { if (n.key == key) return false; parent = n; boolean goLeft = n.key > key; n = goLeft ? n.left : n.right; if (n == null) { if (goLeft) { parent.left = new Node(key, parent); } else { parent.right = new Node(key, parent); } rebalance(parent); break; } } } return true; } private void delete(Node node) { if (node.left == null && node.right == null) { if (node.parent == null) root = null; else { Node parent = node.parent; if (parent.left == node) { parent.left = null; } else parent.right = null; rebalance(parent); } return; } if (node.left != null) { Node child = node.left; while (child.right != null) child = child.right; node.key = child.key; delete(child); } else { Node child = node.right; while (child.left != null) child = child.left; node.key = child.key; delete(child); } } public void delete(int delKey) { if (root == null) return; Node node = root; Node child = root; while (child != null) { node = child; child = delKey >= node.key ? node.right : node.left; if (delKey == node.key) { delete(node); return; } } } private void rebalance(Node n) { setBalance(n); if (n.balance == -2) { if (height(n.left.left) >= height(n.left.right)) n = rotateRight(n); else n = rotateLeftThenRight(n); } else if (n.balance == 2) { if (height(n.right.right) >= height(n.right.left)) n = rotateLeft(n); else n = rotateRightThenLeft(n); } if (n.parent != null) { rebalance(n.parent); } else { root = n; } } private Node rotateLeft(Node a) { Node b = a.right; b.parent = a.parent; a.right = b.left; if (a.right != null) a.right.parent = a; b.left = a; a.parent = b; if (b.parent != null) { if (b.parent.right == a) { b.parent.right = b; } else { b.parent.left = b; } } setBalance(a, b); return b; } private Node rotateRight(Node a) { Node b = a.left; b.parent = a.parent; a.left = b.right; if (a.left != null) a.left.parent = a; b.right = a; a.parent = b; if (b.parent != null) { if (b.parent.right == a) { b.parent.right = b; } else { b.parent.left = b; } } setBalance(a, b); return b; } private Node rotateLeftThenRight(Node n) { n.left = rotateLeft(n.left); return rotateRight(n); } private Node rotateRightThenLeft(Node n) { n.right = rotateRight(n.right); return rotateLeft(n); } private int height(Node n) { if (n == null) return -1; return n.height; } private void setBalance(Node... nodes) { for (Node n : nodes) { reheight(n); n.balance = height(n.right) - height(n.left); } } public void printBalance() { printBalance(root); } private void printBalance(Node n) { if (n != null) { printBalance(n.left); System.out.printf("%s ", n.balance); printBalance(n.right); } } private void reheight(Node node) { if (node != null) { node.height = 1 + Math.max(height(node.left), height(node.right)); } } public boolean search(int key) { Node result = searchHelper(this.root, key); if (result != null) return true; return false; } private Node searchHelper(Node root, int key) { // root is null or key is present at root if (root == null || root.key == key) return root; // key is greater than root's key if (root.key > key) return searchHelper(root.left, key); // call the function on the node's left child // key is less than root's key then // call the function on the node's right child as it is greater return searchHelper(root.right, key); } public static void main(String[] args) { AVLTree tree = new AVLTree(); System.out.println("Inserting values 1 to 10"); for (int i = 1; i < 10; i++) tree.insert(i); System.out.print("Printing balance: "); tree.printBalance(); } }