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AVLTreeProgram.java
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AVLTreeProgram.java
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// AVL tree implementation in Java
// Create node
class Node {
int item, height;
Node left, right;
Node(int d) {
item = d;
height = 1;
}
}
// Tree class
class AVLTreeJava {
Node root;
int height(Node N) {
if (N == null)
return 0;
return N.height;
}
int max(int a, int b) {
return (a > b) ? a : b;
}
Node rightRotate(Node y) {
Node x = y.left;
Node T2 = x.right;
x.right = y;
y.left = T2;
y.height = max(height(y.left), height(y.right)) + 1;
x.height = max(height(x.left), height(x.right)) + 1;
return x;
}
Node leftRotate(Node x) {
Node y = x.right;
Node T2 = y.left;
y.left = x;
x.right = T2;
x.height = max(height(x.left), height(x.right)) + 1;
y.height = max(height(y.left), height(y.right)) + 1;
return y;
}
// Get balance factor of a node
int getBalanceFactor(Node N) {
if (N == null)
return 0;
return height(N.left) - height(N.right);
}
// Insert a node
Node insertNode(Node node, int item) {
// Find the position and insert the node
if (node == null)
return (new Node(item));
if (item < node.item)
node.left = insertNode(node.left, item);
else if (item > node.item)
node.right = insertNode(node.right, item);
else
return node;
// Update the balance factor of each node
// And, balance the tree
node.height = 1 + max(height(node.left), height(node.right));
int balanceFactor = getBalanceFactor(node);
if (balanceFactor > 1) {
if (item < node.left.item) {
return rightRotate(node);
} else if (item > node.left.item) {
node.left = leftRotate(node.left);
return rightRotate(node);
}
}
if (balanceFactor < -1) {
if (item > node.right.item) {
return leftRotate(node);
} else if (item < node.right.item) {
node.right = rightRotate(node.right);
return leftRotate(node);
}
}
return node;
}
Node nodeWithMimumValue(Node node) {
Node current = node;
while (current.left != null)
current = current.left;
return current;
}
// Delete a node
Node deleteNode(Node root, int item) {
// Find the node to be deleted and remove it
if (root == null)
return root;
if (item < root.item)
root.left = deleteNode(root.left, item);
else if (item > root.item)
root.right = deleteNode(root.right, item);
else {
if ((root.left == null) || (root.right == null)) {
Node temp = null;
if (temp == root.left)
temp = root.right;
else
temp = root.left;
if (temp == null) {
temp = root;
root = null;
} else
root = temp;
} else {
Node temp = nodeWithMimumValue(root.right);
root.item = temp.item;
root.right = deleteNode(root.right, temp.item);
}
}
if (root == null)
return root;
// Update the balance factor of each node and balance the tree
root.height = max(height(root.left), height(root.right)) + 1;
int balanceFactor = getBalanceFactor(root);
if (balanceFactor > 1) {
if (getBalanceFactor(root.left) >= 0) {
return rightRotate(root);
} else {
root.left = leftRotate(root.left);
return rightRotate(root);
}
}
if (balanceFactor < -1) {
if (getBalanceFactor(root.right) <= 0) {
return leftRotate(root);
} else {
root.right = rightRotate(root.right);
return leftRotate(root);
}
}
return root;
}
void preOrder(Node node) {
if (node != null) {
System.out.print(node.item + " ");
preOrder(node.left);
preOrder(node.right);
}
}
// Print the tree
private void printTree(Node currPtr, String indent, boolean last) {
if (currPtr != null) {
System.out.print(indent);
if (last) {
System.out.print("R----");
indent += " ";
} else {
System.out.print("L----");
indent += "| ";
}
System.out.println(currPtr.item);
printTree(currPtr.left, indent, false);
printTree(currPtr.right, indent, true);
}
}
// Driver code
public static void main(String[] args) {
AVLTree tree = new AVLTree();
tree.root = tree.insertNode(tree.root, 33);
tree.root = tree.insertNode(tree.root, 13);
tree.root = tree.insertNode(tree.root, 53);
tree.root = tree.insertNode(tree.root, 9);
tree.root = tree.insertNode(tree.root, 21);
tree.root = tree.insertNode(tree.root, 61);
tree.root = tree.insertNode(tree.root, 8);
tree.root = tree.insertNode(tree.root, 11);
tree.printTree(tree.root, "", true);
tree.root = tree.deleteNode(tree.root, 13);
System.out.println("After Deletion: ");
tree.printTree(tree.root, "", true);
}
}