// Java program for insertion and // deletion in Circular Queue import java.util.*; class Solution { // Structure of a Node static class Node { int data; Node link; } static class Queue { Node front, rear; } // Function to create Circular queue static void enQueue(Queue q, int value) { Node temp = new Node(); temp.data = value; if (q.front == null) q.front = temp; else q.rear.link = temp; q.rear = temp; q.rear.link = q.front; } // Function to delete element from Circular Queue static int deQueue(Queue q) { if (q.front == null) { System.out.printf("Queue is empty"); return Integer.MIN_VALUE; } // If this is the last node to be deleted int value; // Value to be dequeued if (q.front == q.rear) { value = q.front.data; q.front = null; q.rear = null; } else // There are more than one nodes { Node temp = q.front; value = temp.data; q.front = q.front.link; q.rear.link = q.front; } return value; } // Function displaying the elements of Circular Queue static void displayQueue(Queue q) { Node temp = q.front; System.out.printf("\nElements in Circular Queue are: "); while (temp.link != q.front) { System.out.printf("%d ", temp.data); temp = temp.link; } System.out.printf("%d", temp.data); } /* Driver of the program */ public static void main(String args[]) { // Create a queue and initialize front and rear Queue q = new Queue(); q.front = q.rear = null; // Inserting elements in Circular Queue enQueue(q, 14); enQueue(q, 22); enQueue(q, 6); // Display elements present in Circular Queue displayQueue(q); // Deleting elements from Circular Queue System.out.printf("\nDeleted value = %d", deQueue(q)); System.out.printf("\nDeleted value = %d", deQueue(q)); // Remaining elements in Circular Queue displayQueue(q); enQueue(q, 9); enQueue(q, 20); displayQueue(q); } }