package Others; /* Program to reverse a Stack using Recursion*/ import java.util.Stack; public class ReverseStackUsingRecursion { //Stack private static Stack stack = new Stack<>(); //Main function public static void main(String[] args) { //To Create a Dummy Stack containing integers from 0-9 for (int i = 0; i < 10; i++) { stack.push(i); } System.out.println("STACK"); //To print that dummy Stack for (int k = 9; k >= 0; k--) { System.out.println(k); } //Reverse Function called reverseUsingRecursion(stack); System.out.println("REVERSED STACK : "); //To print reversed stack while (!stack.isEmpty()) { System.out.println(stack.pop()); } } //Function Used to reverse Stack Using Recursion private static void reverseUsingRecursion(Stack stack) { if (stack.isEmpty()) // If stack is empty then return { return; } /* All items are stored in call stack until we reach the end*/ int temptop = stack.peek(); stack.pop(); reverseUsingRecursion(stack); //Recursion call insertAtEnd(temptop); // Insert items held in call stack one by one into stack } //Function used to insert element at the end of stack private static void insertAtEnd(int temptop) { if (stack.isEmpty()) { stack.push(temptop); // If stack is empty push the element } else { int temp = stack.peek(); /* All the items are stored in call stack until we reach end*/ stack.pop(); insertAtEnd(temptop); //Recursive call stack.push(temp); } } }