Big O Runtime: insert(): O(1) remove(): O(1) amortized isEmpty(): O(1) * *
A queue data structure functions the same as a real world queue. The elements that are added * first are the first to be removed. New elements are added to the back/rear of the queue. * * @author sahilb2 (https://www.github.com/sahilb2) */ class QueueWithStack { // Stack to keep track of elements inserted into the queue private Stack inStack; // Stack to keep track of elements to be removed next in queue private Stack outStack; /** Constructor */ public QueueWithStack() { this.inStack = new Stack(); this.outStack = new Stack(); } /** * Inserts an element at the rear of the queue * * @param x element to be added */ public void insert(Object x) { // Insert element into inStack this.inStack.push(x); } /** * Remove an element from the front of the queue * * @return the new front of the queue */ public Object remove() { if (this.outStack.isEmpty()) { // Move all elements from inStack to outStack (preserving the order) while (!this.inStack.isEmpty()) { this.outStack.push(this.inStack.pop()); } } return this.outStack.pop(); } /** * Peek at the element from the front of the queue * * @return the front element of the queue */ public Object peekFront() { if (this.outStack.isEmpty()) { // Move all elements from inStack to outStack (preserving the order) while (!this.inStack.isEmpty()) { this.outStack.push(this.inStack.pop()); } } return this.outStack.peek(); } /** * Peek at the element from the back of the queue * * @return the back element of the queue */ public Object peekBack() { return this.inStack.peek(); } /** * Returns true if the queue is empty * * @return true if the queue is empty */ public boolean isEmpty() { return (this.inStack.isEmpty() && this.outStack.isEmpty()); } } /** * This class is the example for the Queue class * * @author sahilb2 (https://www.github.com/sahilb2) */ public class QueueUsingTwoStacks { /** * Main method * * @param args Command line arguments */ public static void main(String args[]) { QueueWithStack myQueue = new QueueWithStack(); myQueue.insert(1); System.out.println(myQueue.peekBack()); // Will print 1 // instack: [(top) 1] // outStack: [] myQueue.insert(2); System.out.println(myQueue.peekBack()); // Will print 2 // instack: [(top) 2, 1] // outStack: [] myQueue.insert(3); System.out.println(myQueue.peekBack()); // Will print 3 // instack: [(top) 3, 2, 1] // outStack: [] myQueue.insert(4); System.out.println(myQueue.peekBack()); // Will print 4 // instack: [(top) 4, 3, 2, 1] // outStack: [] System.out.println(myQueue.isEmpty()); // Will print false System.out.println(myQueue.remove()); // Will print 1 System.out.println(myQueue.peekBack()); // Will print NULL // instack: [] // outStack: [(top) 2, 3, 4] myQueue.insert(5); System.out.println(myQueue.peekFront()); // Will print 2 // instack: [(top) 5] // outStack: [(top) 2, 3, 4] myQueue.remove(); System.out.println(myQueue.peekFront()); // Will print 3 // instack: [(top) 5] // outStack: [(top) 3, 4] myQueue.remove(); System.out.println(myQueue.peekFront()); // Will print 4 // instack: [(top) 5] // outStack: [(top) 4] myQueue.remove(); // instack: [(top) 5] // outStack: [] System.out.println(myQueue.peekFront()); // Will print 5 // instack: [] // outStack: [(top) 5] myQueue.remove(); // instack: [] // outStack: [] System.out.println(myQueue.isEmpty()); // Will print true } }