Program to create a circular linked list of n nodes and display it in reverse order

Explanation

In this program, we create a circular linked list, then traverse the list in the reverse order and print the nodes.

Algorithm

Define a Node class which represents a node in the list. It has two properties data and next which will point to the next node.
Define another class for creating the circular linked list and it has two nodes: head and tail. It has two methods: add(), display() and reverse().
add() will add a node to the list:
1. It first checks whether the head is null, then it will insert the node as the head.
2. Both head and tail will point to the newly added node.
3. If the head is not null, the new node will be the new tail, and new tail will point to head as it is a circular linked list.
display() will show all the nodes present in the list.
1. Define a new node 'current' that will point to the head.
2. Print current.data till current will points to head again.
3. Current will point to the next node in the list in each iteration.
reverse() will print the circular linked list in reverse order.
1. This method checks whether next node to current is head which implies that, current is pointing to tail, then it will print the data of the tail node.
2. Recursively call reverse() by considering node next to current node and prints out all the nodes in reverse order starting from the tail.

Input:

#Adds data to the list

cl.add(1);

cl.add(2);

cl.add(3);

cl.add(4);

cl.add(5);

cl.add(6);

Output:

Original List: 1 2 3 4 5 6
Reversed List: 6 5 4 3 2 1

#Represents the node of list. class Node: def __init__(self,data): self.data = data; self.next = None; class CreateList: #Declaring head and tail pointer as null. def __init__(self): self.head = Node(None); self.tail = Node(None); self.head.next = self.tail; self.tail.next = self.head; #This function will add the new node at the end of the list. def add(self,data): newNode = Node(data); #Checks if the list is empty. if self.head.data is None: #If list is empty, both head and tail would point to new node. self.head = newNode; self.tail = newNode; newNode.next = self.head; else: #tail will point to new node. self.tail.next = newNode; #New node will become new tail. self.tail = newNode; #Since, it is circular linked list tail will point to head. self.tail.next = self.head; #Displays all the nodes in the list def display(self): current = self.head; if self.head is None: print("List is empty"); return; else: #Prints each node by incrementing pointer. print(current.data), while(current.next != self.head): current = current.next; print(current.data), #Reverse the order of the nodes present in the list. def reverse(self, current): #Checks if the next node is head, if yes then prints it. if(current.next == self.head): print(current.data), return; #Recursively calls the reverse function self.reverse(current.next); print(current.data), class CircularLinkedList: cl = CreateList(); #Adds data to the list cl.add(1); cl.add(2); cl.add(3); cl.add(4); cl.add(5); cl.add(6); print("Original List: "); cl.display(); print("\nReversed List: "); #Print reversed list cl.reverse(cl.head);

#include <stdio.h> #include <string.h> #include <stdlib.h> //Represents the node of list. struct node{ int data; struct node *next; }; //Declaring head and tail pointer as null. struct node *head = NULL; struct node *tail = NULL; //This function will add the new node at the end of the list. void add(int data){ //Create new node struct node *newNode = (struct node*)malloc(sizeof(struct node)); newNode->data = data; //Checks if the list is empty. if(head == NULL){ //If list is empty, both head and tail would point to new node. head = newNode; tail = newNode; newNode->next = head; }else { //tail will point to new node. tail->next = newNode; //New node will become new tail. tail = newNode; //Since, it is circular linked list tail will point to head. tail->next = head; } } //This function will display the nodes of circular linked list void display(){ struct node *current = head; if(head == NULL){ printf("List is empty"); } else{ do{ //Prints each node by incrementing pointer. printf("%d ", current->data); current = current->next; }while(current != head); printf("\n"); } } //Reverse the order of the nodes present in the list. void reverse(struct node *current) { //Checks if the next node is head, if yes then prints it. if(current->next == head) { printf("%d ",current->data); return; } //Recursively calls the reverse function reverse(current->next); printf("%d ",current->data); } int main() { //Adds data to the list add(1); add(2); add(3); add(4); add(5); add(6); printf("Original List:\n"); display(); printf("Reversed List:\n"); //Print reversed list reverse(head); return 0; }

public class ReverseList { //Represents the node of list. public class Node{ int data; Node next; public Node(int data) { this.data = data; } } //Declaring head and tail pointer as null. public Node head = null; public Node tail = null; //This function will add the new node at the end of the list. public void add(int data){ //Create new node Node newNode = new Node(data); //Checks if the list is empty. if(head == null) { //If list is empty, both head and tail would point to new node. head = newNode; tail = newNode; newNode.next = head; } else { //tail will point to new node. tail.next = newNode; //New node will become new tail. tail = newNode; //Since, it is circular linked list tail will point to head. tail.next = head; } } //Displays all the nodes in the list public void display() { Node current = head; if(head == null) { System.out.println("List is empty"); } else { do{ //Prints each node by incrementing pointer. System.out.print(" "+ current.data); current = current.next; }while(current != head); System.out.println(); } } //Reverse the order of the nodes present in the list. public void reverse(Node current) { //Checks if the next node is head, if yes then prints it. if(current.next == head) { System.out.print(" "+current.data); return; } //Recursively calls the reverse function reverse(current.next); System.out.print(" "+current.data); } public static void main(String[] args) { ReverseList cl = new ReverseList(); cl.add(1); cl.add(2); cl.add(3); cl.add(4); cl.add(5); cl.add(6); System.out.println("Original List: "); cl.display(); System.out.println("Reversed List: "); //Print reversed list cl.reverse(cl.head); } }

using System; namespace CircularLinkedList { public class Program { //Represents the node of list. public class Node<T>{ public T data; public Node<T> next; public Node(T value) { data = value; next = null; } } public class CreateList<T>{ public Node<T> head = null; public Node<T> tail = null; //This function will add the new node at the end of the list. public void add(T data){ //Create new node Node<T> newNode = new Node<T>(data); //Checks if the list is empty. if(head == null){ head = newNode; tail = newNode; newNode.next = head; }else{ //tail will point to new node. tail.next = newNode; //New node will become new tail. tail = newNode; //Since, it is circular linked list tail will point to head. tail.next = head; } } //Displays all the nodes in the list public void display(){ Node<T> current; if(head == null){ Console.WriteLine("List is empty"); } else{ //Prints each node by incrementing pointer. Console.Write(" "+head.data); for(current = head.next; current!= head; current= current.next){ Console.Write(" "+current.data); } } Console.WriteLine(); } //Reverse the order of the nodes present in the list. public void reverse(Node<T> temp) { //Checks if the next node is head, if yes then prints it. if(temp.next == head) { Console.Write(" "+temp.data); return; } //Recursively calls the reverse function reverse(temp.next); Console.Write(" "+temp.data); } } public static void Main() { CreateList<int> cl = new CreateList<int>(); cl.add(1); cl.add(2); cl.add(3); cl.add(4); cl.add(5); cl.add(6); Console.WriteLine("Original List: "); cl.display(); Console.WriteLine("Reversed List: "); //Print reversed list cl.reverse(cl.head); } } }

<!DOCTYPE html> <html> <body> <?php //Represents the node of list. class Node{ public $data; public $next; function __construct($data){ $this->data = $data; $this->next = NULL; } } class CreateList{ //Declaring head and tail pointer as null. public $head; public $tail; function __construct(){ $this->head = NULL; $this->tail = NULL; } //This function will add the new node at the end of the list. function add($data){ //Create new node $newNode = new Node($data); //Checks if the list is empty. if($this->head == NULL){ //If list is empty, both head and tail would point to new node. $this->head = $newNode; $this->tail = $newNode; $newNode->next = $this->head; } else{ //tail will point to new node. $this->tail->next = $newNode; //New node will become new tail. $this->tail = $newNode; //Since, it is circular linked list tail will point to head. $this->tail->next = $this->head; } } //Displays all the nodes in the list function display() { $current = $this->head; if($this->head == NULL) { echo "List is empty"; } else { do{ //Prints each node by incrementing pointer. echo(" $current->data"); $current = $current->next; }while($current != $this->head); echo "<br>"; } } //Reverse the order of the nodes present in the list. function reverse($current) { //Checks if the next node is head, if yes then prints it. if($current->next == $this->head) { echo " $current->data"; return; } //Recursively calls the reverse function $this->reverse($current->next); echo " $current->data"; } } $cl = new CreateList(); //Adds data to the list $cl->add(1); $cl->add(2); $cl->add(3); $cl->add(4); $cl->add(5); $cl->add(6); echo "Original List: <br>"; $cl->display(); echo "<br>Reversed List: <br>"; //Print reversed list $cl->reverse($cl->head); ?> </body> </html>

Program to create a circular linked list of n nodes and display it in reverse order

Explanation

Algorithm

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