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Deletion at different positions in a Circular Linked List

Last Updated : 13 Apr, 2023
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tGiven a Circular Linked List. The task is to write programs to delete nodes from this list present at: 

  • First position.
  • Last Position.
  • At any given position i                                                      .

Deleting first node from Singly Circular Linked List

Examples:  

Input : 99->11->22->33->44->55->66
Output : 11->22->33->44->55->66

Input : 11->22->33->44->55->66
Output : 22->33->44->55->66
CircularDeleteFirstNode

Deleting First Node from Circular Linked List


Approach

  1. Take two pointers current and previous and traverse the list.
  2. Keep the pointer current fixed pointing to the first node and move previous until it reaches the last node.
  3. Once, the pointer previous reaches the last node, do the following: 
    • previous->next = current-> next
    • head = previous -> next;

Implementation: Function to delete first node from singly circular linked list.

C++

// Function to delete First node of
// Circular Linked List
void DeleteFirst(struct Node** head)
{
    struct Node *previous = *head, *firstNode = *head;
 
    // check if list doesn't have any node
    // if not then return
    if (*head == NULL) {
        printf("\nList is empty\n");
        return;
    }
 
    // check if list have single node
    // if yes then delete it and return
    if (previous->next == previous) {
        *head = NULL;
        return;
    }
 
    // traverse second node to first
    while (previous->next != *head) {
 
        previous = previous->next;
    }
 
    // now previous is last node and
    // first node(firstNode) link address
    // put in last node(previous) link
    previous->next = firstNode->next;
 
    // make second node as head node
    *head = previous->next;
    free(firstNode);
    return;
}

                    

Java

// Function to delete First node of
// Circular Linked List
static void DeleteFirst(Node head)
{
    Node previous = head, firstNode = head;
 
    // Check if list doesn't have any node
    // if not then return
    if (head == null)
    {
        System.out.printf("\nList is empty\n");
        return;
    }
 
    // Check if list have single node
    // if yes then delete it and return
    if (previous.next == previous)
    {
        head = null;
        return;
    }
 
    // Traverse second node to first
    while (previous.next != head)
    {
        previous = previous.next;
    }
 
    // Now previous is last node and
    // first node(firstNode) link address
    // put in last node(previous) link
    previous.next = firstNode.next;
 
    // Make second node as head node
    head = previous.next;
    System.gc();
    return;
}
 
// This code is contributed by aashish1995

                    

Python3

# Function delete First node of
# Circular Linked List
def DeleteFirst(head):
    previous = head
    next = head
 
    # check list have any node
    # if not then return
    if (head == None) :
     
        print("\nList is empty")
        return None
     
    # check list have single node
    # if yes then delete it and return
    if (previous.next == previous) :
     
        head = None
        return None
     
    # traverse second to first
    while (previous.next != head):
        previous = previous.next
        next = previous.next
     
    # now previous is last node and
    # next is first node of list
    # first node(next) link address
    # put in last node(previous) link
    previous.next = next.next
 
    # make second node as head node
    head = previous.next
 
    return head
   
# This code is contributed by shivanisinghss2110

                    

C#

using System;
 
public class GFG{
 
    static public// Function delete First node of
// Circular Linked List
static Node DeleteFirst(Node head)
{
    Node previous = head, next = head;
 
    // check list have any node
    // if not then return
    if (head == null)
    {
        Console.Write("\nList is empty\n");
        return null;
    }
 
    // Check if list have single node
    // if yes then delete it and return
    if (previous.next == previous)
    {
        head = null;
        return null;
    }
 
    // Traverse second node to first
    while (previous.next != head)
    {
        previous = previous.next;
        next = previous.next;
    }
 
    // Now previous is last node and
    // first node(firstNode) link address
    // put in last node(previous) link
    previous.next = next.next;
 
    // Make second node as head node
    head = previous.next;
 
    return head;
}
// This code is contributed by shivanisinghss2110.
c void Main (){
 
        // Code
    }

                    

Javascript

<script>
 
function  DeleteFirst(head)
{
    previous = head, firstNode = head;
  
    // Check if list doesn't have any node
    // if not then return
    if (head == null)
    {
        document.write("<br>List is empty<br>");
        return;
    }
  
    // Check if list have single node
    // if yes then delete it and return
    if (previous.next == previous)
    {
        head = null;
        return;
    }
  
    // Traverse second node to first
    while (previous.next != head)
    {
        previous = previous.next;
    }
  
    // Now previous is last node and
    // first node(firstNode) link address
    // put in last node(previous) link
    previous.next = firstNode.next;
  
    // Make second node as head node
    head = previous.next;
     
    return;
}
 
// This code is contributed by rag2127
</script>

                    

Time Complexity: O(N), where N is the number of nodes in the Linked List.
Auxiliary Space: O(1) 

Deleting the last node of the Circular Linked List

Examples

Input : 99->11->22->33->44->55->66
Output : 99->11->22->33->44->55

Input : 99->11->22->33->44->55
Output : 99->11->22->33->44
CircularDeleteLastNode

Delete last node from Circular Linked List


Approach

  1. Take two pointers current and previous and traverse the list.
  2. Move both pointers such that next of previous is always pointing to current. Keep moving the pointers current and previous until current reaches the last node and previous is at the second last node.
  3. Once, the pointer current reaches the last node, do the following: 
    • previous->next = current-> next
    • head = previous -> next;

Function to delete last node from the list

C++

// Function delete last node of
// Circular Linked List
void DeleteLast(struct Node** head)
{
    struct Node *current = *head, *temp = *head, *previous;
 
    // check if list doesn't have any node
    // if not then return
    if (*head == NULL) {
        printf("\nList is empty\n");
        return;
    }
 
    // check if list have single node
    // if yes then delete it and return
    if (current->next == current) {
        *head = NULL;
        return;
    }
 
    // move first node to last
    // previous
    while (current->next != *head) {
        previous = current;
        current = current->next;
    }
 
    previous->next = current->next;
    *head = previous->next;
    free(current);
    return;
}

                    

Java

// Function to delete last node of
// Circular Linked List
static Node DeleteLast(Node head)
{
    Node current = head, temp = head, previous = null;
  
    // Check if list doesn't have any node
    // if not then return
    if (head == null)
    {
        System.out.printf("\nList is empty\n");
        return null;
    }
  
    // Check if list have single node
    // if yes then delete it and return
    if (current.next == current)
    {
        head = null;
        return null;
    }
  
    // Move first node to last
    // previous
    while (current.next != head)
    {
        previous = current;
        current = current.next;
    }
  
    previous.next = current.next;
    head = previous.next;
      
    return head;
}
 
// This code is contributed by pratham76

                    

Python3

# Function to delete last node of
# Circular Linked List
def DeleteLast(head):
    current = head
    temp = head
    previous = None
 
    # check if list doesn't have any node
    # if not then return
    if (head == None):
        print("\nList is empty")
        return None
 
    # check if list have single node
    # if yes then delete it and return
    if (current.next == current):
        head = None
        return None
 
    # move first node to last
    # previous
    while (current.next != head):
        previous = current
        current = current.next
 
    previous.next = current.next
    head = previous.next
 
    return head
 
  # This code is contributed by rutvik_56

                    

C#

// Function to delete last node of
// Circular Linked List
static Node DeleteLast(Node head)
{
    Node current = head, temp = head, previous = null;
 
    // check if list doesn't have any node
    // if not then return
    if (head == null)
    {
        Console.Write("\nList is empty\n");
        return null;
    }
 
    // check if list have single node
    // if yes then delete it and return
    if (current.next == current)
    {
        head = null;
        return null;
    }
 
    // move first node to last
    // previous
    while (current.next != head)
    {
        previous = current;
        current = current.next;
    }
 
    previous.next = current.next;
    head = previous.next;
     
    return head;
}
 
// This code is contributed by shivanisinghss2110

                    

Javascript

<script>
 
function DeleteLast(head)
{
    let current = head, temp = head, previous = null;
   
    // Check if list doesn't have any node
    // if not then return
    if (head == null)
    {
        document.write("<br>List is empty<br>");
        return null;
    }
   
    // Check if list have single node
    // if yes then delete it and return
    if (current.next == current)
    {
        head = null;
        return null;
    }
   
    // Move first node to last
    // previous
    while (current.next != head)
    {
        previous = current;
        current = current.next;
    }
   
    previous.next = current.next;
    head = previous.next;
       
    return head;
}
 
// This code is contributed by avanitrachhadiya2155
 
</script>

                    

Time Complexity: O(N) where N is the number of nodes in given Linked List.

Auxiliary Space: O(1)

 

Deleting nodes at given index in the Circular linked list

Examples

Input : 99->11->22->33->44->55->66
        Index= 4
Output : 99->11->22->33->55->66

Input : 99->11->22->33->44->55->66
        Index= 2
Output : 99->11->33->44->55->66

Note: 0-based indexing is considered for the list.

Approach

  1. First, find the length of the list. That is, the number of nodes in the list.
  2. Take two pointers previous and current to traverse the list. Such that previous is one position behind the current node.
  3. Take a variable count initialized to 0 to keep track of the number of nodes traversed.
  4. Traverse the list until the given index is reached.
  5. Once the given index is reached, do previous->next = current->next.

Function to delete a node at given index or location from singly circular linked list

C++

// Function to delete node at given index
// of Circular Linked List
void DeleteAtPosition(Node* head, int index)
{
   
    // find length of list
    int len = Length(head);
    int count = 1;
    Node* previous = head;
    Node* next = head;
     
    // check if list doesn't have any node
    // if not then return
    if(head == NULL){
        cout<<"Delete Last list is empty";
        return;
    }
     
    // given index is in list or not
    if(index >= len || index<0){
        cout<<"Index is not Found";
        return;
    }
     
    // delete first node
    if(index == 0){
        DeleteFirst(head);
        return;
    }
     
    // traverse first to last node
    while(len > 0){
        // if index found delete that node
        if(index == count){
            previous->next = next->next;
            free(next);
            return;
        }
        previous = previous->next;
        next = previous->next;
        len--;
        count++;
    }
    return;
}
 
// This code is contributed by Yash Agarwal(yashagarwal2852002)

                    

C

// Function to delete node at given index
// of Circular Linked List
void DeleteAtPosition(struct Node** head, int index)
{
    // find length of list
    int len = Length(*head);
    int count = 1;
    struct Node *previous = *head, *next = *head;
 
    // check if list doesn't have any node
    // if not then return
    if (*head == NULL) {
        printf("\nDelete Last List is empty\n");
        return;
    }
 
    // given index is in list or not
    if (index >= len || index < 0) {
        printf("\nIndex is not Found\n");
        return;
    }
 
    // delete first node
    if (index == 0) {
        DeleteFirst(head);
        return;
    }
 
    // traverse first to last node
    while (len > 0) {
 
        // if index found delete that node
        if (index == count) {
            previous->next = next->next;
            free(next);
            return;
        }
        previous = previous->next;
        next = previous->next;
        len--;
        count++;
    }
 
    return;
}

                    

Java

// Java program to delete node at different
 
// Function delete node at a given position
// of Circular Linked List
static Node DeleteAtPosition( Node head, int index)
{
    // Find length of list
    int len = Length(head);
    int count = 1;
    Node previous = head, next = head;
 
    // check list have any node
    // if not then return
    if (head == null)
    {
        System.out.printf("\nDelete Last List is empty\n");
        return null;
    }
 
    // given index is in list or not
    if (index >= len || index < 0)
    {
        System.out.printf("\nIndex is not Found\n");
        return null;
    }
 
    // delete first node
    if (index == 0)
    {
        head = DeleteFirst(head);
        return head;
    }
 
    // traverse first to last node
    while (len > 0)
    {
 
        // if index found delete that node
        if (index == count)
        {
            previous.next = next.next;
             
            return head;
        }
        previous = previous.next;
        next = previous.next;
        len--;
        count++;
    }
    return head;
}
 
// This code is contributed by shivanisinghss2110

                    

Python3

# Function delete node at a given position
# of Circular Linked List
def DeleteAtPosition(head, index):
 
    # Find length of list
    len = Length(head)
    count = 1
    previous = head
    next = head
 
    # check list have any node
    # if not then return
    if (head == None):
        print("\nDelete Last List is empty")
        return None
     
    # given index is in list or not
    if (index >= len or index < 0) :
        print("\nIndex is not Found")
        return None
 
    # delete first node
    if (index == 0) :
        head = DeleteFirst(head)
        return head
 
    # traverse first to last node
    while (len > 0):
     
        # if index found delete that node
        if (index == count):
            previous.next = next.next
             
            return head
         
        previous = previous.next
        next = previous.next
        len = len - 1
        count = count + 1
     
    return head  
 
# This code is contributed by shivanisinghss2110

                    

C#

// C# program to delete node at given index
// of circular linked list
 
static void DeleteAtPosition(Node head, int index)
{
    // find length of list
    int len = Length(head);
    int count = 1;
    Node previous = head;
    Node next = head;
 
    // check if list doesn't have any node
    // if noth then return
    if (head == null) {
        Console.Write("Delete Last list is empty");
        return;
    }
    // given index is in list or not
    if (index >= len || index < 0) {
        Console.Write("Index is not Found");
        return;
    }
 
    // delete first node
    if (index == 0) {
        DeleteFirst(head);
        return;
    }
 
    // traverse first to last node
    while (len > 0) {
        // if index found delete that node
        if (index == count) {
            previous.next = next.next;
            return;
        }
        previous = previous.next;
        next = previous.next;
        len -= 1;
        count++;
    }
}
 
// this code is contributed by Kirti
// Agarwal(kirtiagarwal23121999)

                    

Javascript

<script>
 
// Function delete node at a given position
// of Circular Linked List
function DeleteAtPosition(head, index){
 
    // Find length of list
    let len = head.length
    let count = 1
    let previous = head
    let next = head
 
    // check list have any node
    // if not then return
    if (head == null){
        document.write("</br>","Delete Last List is empty")
        return null
    }
     
    // given index is in list or not
    if (index >= len || index < 0){
        document.write("</br>","Index is not Found")
        return null
    }
 
    // delete first node
    if (index == 0){
        head = DeleteFirst(head)
        return head
    }
 
    // traverse first to last node
    while (len > 0){
     
        // if index found delete that node
        if (index == count){
            previous.next = next.next
             
            return head
        }
         
        previous = previous.next
        next = previous.next
        len = len - 1
        count = count + 1
    }
     
    return head
 
// This code is contributed by shinjanpatra
 
</script>

                    

Time Complexity: O(N)

Auxiliary Space: O(1)

Program implementing all of the above three functions

C++

// C++ program to delete node at different
// positions from a circular linked list
#include <bits/stdc++.h>
using namespace std;
 
// structure for a node
struct Node {
    int data;
    struct Node* next;
};
 
// Function to insert a node at the end of
// a Circular linked list
void Insert(struct Node** head, int data)
{
    struct Node* current = *head;
    // Create a new node
    struct Node* newNode = new Node;
 
    // check node is created or not
    if (!newNode) {
        printf("\nMemory Error\n");
        return;
    }
 
    // insert data into newly created node
    newNode->data = data;
 
    // check list is empty
    // if not have any node then
    // make first node it
    if (*head == NULL) {
        newNode->next = newNode;
        *head = newNode;
        return;
    }
 
    // if list have already some node
    else {
 
        // move first node to last node
        while (current->next != *head) {
            current = current->next;
        }
 
        // put first or head node address
        // in new node link
        newNode->next = *head;
 
        // put new node address into last
        // node link(next)
        current->next = newNode;
    }
}
 
// Function print data of list
void Display(struct Node* head)
{
    struct Node* current = head;
 
    // if list is empty, simply show message
    if (head == NULL) {
        printf("\nDisplay List is empty\n");
        return;
    }
 
    // traverse first to last node
    else {
        do {
            printf("%d ", current->data);
            current = current->next;
        } while (current != head);
    }
}
 
// Function return number of nodes present in list
int Length(struct Node* head)
{
    struct Node* current = head;
    int count = 0;
 
    // if list is empty simply return length zero
    if (head == NULL) {
        return 0;
    }
 
    // traverse first to last node
    else {
        do {
            current = current->next;
            count++;
        } while (current != head);
    }
    return count;
}
 
// Function delete First node of Circular Linked List
void DeleteFirst(struct Node** head)
{
    struct Node *previous = *head, *next = *head;
 
    // check list have any node
    // if not then return
    if (*head == NULL) {
        printf("\nList is empty\n");
        return;
    }
 
    // check list have single node
    // if yes then delete it and return
    if (previous->next == previous) {
        *head = NULL;
        return;
    }
 
    // traverse second to first
    while (previous->next != *head) {
 
        previous = previous->next;
        next = previous->next;
    }
 
    // now previous is last node and
    // next is first node of list
    // first node(next) link address
    // put in last node(previous) link
    previous->next = next->next;
 
    // make second node as head node
    *head = previous->next;
    free(next);
 
    return;
}
 
// Function to delete last node of
// Circular Linked List
void DeleteLast(struct Node** head)
{
    struct Node *current = *head, *temp = *head, *previous;
 
    // check if list doesn't have any node
    // if not then return
    if (*head == NULL) {
        printf("\nList is empty\n");
        return;
    }
 
    // check if list have single node
    // if yes then delete it and return
    if (current->next == current) {
        *head = NULL;
        return;
    }
 
    // move first node to last
    // previous
    while (current->next != *head) {
        previous = current;
        current = current->next;
    }
 
    previous->next = current->next;
    *head = previous->next;
    free(current);
 
    return;
}
 
// Function delete node at a given position
// of Circular Linked List
void DeleteAtPosition(struct Node** head, int index)
{
    // Find length of list
    int len = Length(*head);
    int count = 1;
    struct Node *previous = *head, *next = *head;
 
    // check list have any node
    // if not then return
    if (*head == NULL) {
        printf("\nDelete Last List is empty\n");
        return;
    }
 
    // given index is in list or not
    if (index >= len || index < 0) {
        printf("\nIndex is not Found\n");
        return;
    }
 
    // delete first node
    if (index == 0) {
        DeleteFirst(head);
        return;
    }
 
    // traverse first to last node
    while (len > 0) {
 
        // if index found delete that node
        if (index == count) {
            previous->next = next->next;
            free(next);
            return;
        }
        previous = previous->next;
        next = previous->next;
        len--;
        count++;
    }
    return;
}
 
// Driver Code
int main()
{
    struct Node* head = NULL;
    Insert(&head, 99);
    Insert(&head, 11);
    Insert(&head, 22);
    Insert(&head, 33);
    Insert(&head, 44);
    Insert(&head, 55);
    Insert(&head, 66);
 
    // Deleting Node at position
    printf("Initial List: ");
    Display(head);
    printf("\nAfter Deleting node at index 4: ");
    DeleteAtPosition(&head, 4);
    Display(head);
 
    // Deleting first Node
    printf("\n\nInitial List: ");
    Display(head);
    printf("\nAfter Deleting first node: ");
    DeleteFirst(&head);
    Display(head);
 
    // Deleting last Node
    printf("\n\nInitial List: ");
    Display(head);
    printf("\nAfter Deleting last node: ");
    DeleteLast(&head);
    Display(head);
 
    return 0;
}

                    

Java

// Java implementation to delete node at different
// positions from a circular linked list
import java.util.*;
 
public class GFG {
    // structure for a node
    static class Node {
        int data;
        Node next;
    };
 
    // Function to insert a node at the end of
    // a Circular linked list
    static Node Insert(Node head, int data){
        Node current = head;
 
        // Create a new node
        Node newNode = new Node();
 
        // check node is created or not
        if (newNode == null) {
            System.out.printf("\nMemory Error\n");
            return null;
        }
        // insert data into newly created node
        newNode.data = data;
        // check list is empty
        // if not have any node then
        // make first node it
        if (head == null) {
            newNode.next = newNode;
            head = newNode;
            return head;
        } else {
            // move first node to last node
            while (current.next != head) {
                current = current.next;
            }
            // put first or head node address
            // in new node link
            newNode.next = head;
            // put new node address into last
            // node link(next)
            current.next = newNode;
        }
        return head;
    }
 
    // function to print the data of linked list
    static void Display(Node head){
        Node current = head;
        // if list is empty, simply show message
        if (head == null) {
            System.out.printf("\nDisplay List is empty\n");
            return;
        } else {
            do {
                System.out.printf("%d ", current.data);
                current = current.next;
            } while (current != head);
        }
    }
 
    // returns the number of nodes present in the linked list
    static int Length(Node head){
        Node current = head;
        int count = 0;
        // if list is empty
        // simply return length zero
        if (head == null)
            return 0;
        else {
            do {
                current = current.next;
                count++;
            } while (current != head);
        }
        return count;
    }
 
    // function to delete First node of
    // circular Linked List
    static Node DeleteFirst(Node head){
        Node previous = head, next = head;
        // check list have any node
        // if not then return
        if (head == null) {
            System.out.printf("\nList is empty\n");
            return null;
        }
 
        // check list have single node
        // if yes then delete it and return
        if (previous.next == previous) {
            head = null;
            return null;
        }
 
        // traverse second to first
        while (previous.next != head) {
            previous = previous.next;
            next = previous.next;
        }
 
        // now previous is last node and
        // next is first node of list
        // first node(next) link address
        // put in last node(previous) link
        previous.next = next.next;
 
        // make second node as head node
        head = previous.next;
 
        return head;
    }
 
    // Function to delete last node of
    // Circular Linked List
    static Node DeleteLast(Node head){
        Node current = head, temp = head, previous = null;
 
        // check if list doesn't have any node
        // if not then return
        if (head == null) {
            System.out.printf("\nList is empty\n");
            return null;
        }
 
        // check if list have single node
        // if yes then delete it and return
        if (current.next == current) {
            head = null;
            return null;
        }
 
        // move first node to last
        // previous
        while (current.next != head) {
            previous = current;
            current = current.next;
        }
 
        previous.next = current.next;
        head = previous.next;
 
        return head;
    }
 
    // Function delete node at a given position
    // of Circular Linked List
    static Node DeleteAtPosition(Node head, int index){
        // Find length of list
        int len = Length(head);
        int count = 1;
        Node previous = head, next = head;
 
        // check list have any node
        // if not then return
        if (head == null) {
            System.out.printf(
                "\nDelete Last List is empty\n");
            return null;
        }
 
        // given index is in list or not
        if (index >= len || index < 0) {
            System.out.printf("\nIndex is not Found\n");
            return null;
        }
 
        // delete first node
        if (index == 0) {
            head = DeleteFirst(head);
            return head;
        }
 
        // traverse first to last node
        while (len > 0) {
 
            // if index found delete that node
            if (index == count) {
                previous.next = next.next;
 
                return head;
            }
            previous = previous.next;
            next = previous.next;
            len--;
            count++;
        }
        return head;
    }
 
    // Driver Code
    public static void main(String args[])
    {
        Node head = null;
        head = Insert(head, 99);
        head = Insert(head, 11);
        head = Insert(head, 22);
        head = Insert(head, 33);
        head = Insert(head, 44);
        head = Insert(head, 55);
        head = Insert(head, 66);
 
        // Deleting Node at position
        System.out.printf("Initial List: ");
        Display(head);
        System.out.printf(
            "\nAfter Deleting node at index 4: ");
        head = DeleteAtPosition(head, 4);
        Display(head);
 
        // Deleting first Node
        System.out.printf("\n\nInitial List: ");
        Display(head);
        System.out.printf("\nAfter Deleting first node: ");
        head = DeleteFirst(head);
        Display(head);
 
        // Deleting last Node
        System.out.printf("\n\nInitial List: ");
        Display(head);
        System.out.printf("\nAfter Deleting last node: ");
        head = DeleteLast(head);
        Display(head);
    }
}
// THIS CODE IS CONTRIBUTED BY YASH AGARWAL(YASHAGARWAL2852002)

                    

Python3

# Python3 program to delete node at different
# positions from a circular linked list
 
# A linked list node
class Node:
    def __init__(self, new_data):
        self.data = new_data
        self.next = None
        self.prev = None
 
# Function to insert a node at the end of
# a Circular linked list
def Insert(head, data):
 
    current = head
     
    # Create a new node
    newNode = Node(0)
 
    # check node is created or not
    if (newNode == None):
     
        print("\nMemory Error\n")
        return None
     
    # insert data into newly created node
    newNode.data = data
 
    # check list is empty
    # if not have any node then
    # make first node it
    if (head == None) :
        newNode.next = newNode
        head = newNode
        return head
 
    # if list have already some node
    else:
     
        # move first node to last node
        while (current.next != head):
         
            current = current.next
         
        # put first or head node address
        # in new node link
        newNode.next = head
 
        # put new node address into last
        # node link(next)
        current.next = newNode
     
    return head
 
# Function print data of list
def Display(head):
 
    current = head
 
    # if list is empty, simply show message
    if (head == None):
     
        print("\nDisplay List is empty\n")
        return
     
    # traverse first to last node
    else:
     
        while(True):
         
            print( current.data,end=" ")
            current = current.next
            if (current == head):
                break;
     
# Function return number of nodes present in list
def Length(head):
    current = head
    count = 0
 
    # if list is empty
    # simply return length zero
    if (head == None):
     
        return 0
 
    # traverse first to last node
    else:
     
        while(True):
         
            current = current.next
            count = count + 1
            if (current == head):
                break;
     
    return count
 
# Function delete First node of
# Circular Linked List
def DeleteFirst(head):
    previous = head
    next = head
 
    # check list have any node
    # if not then return
    if (head == None) :
     
        print("\nList is empty")
        return None
     
    # check list have single node
    # if yes then delete it and return
    if (previous.next == previous) :
     
        head = None
        return None
     
    # traverse second to first
    while (previous.next != head):
        previous = previous.next
        next = previous.next
     
    # now previous is last node and
    # next is first node of list
    # first node(next) link address
    # put in last node(previous) link
    previous.next = next.next
 
    # make second node as head node
    head = previous.next
 
    return head
 
# Function to delete last node of
# Circular Linked List
def DeleteLast(head):
    current = head
    temp = head
    previous = None
 
    # check if list doesn't have any node
    # if not then return
    if (head == None):
        print("\nList is empty")
        return None
 
    # check if list have single node
    # if yes then delete it and return
    if (current.next == current) :
        head = None
        return None
 
    # move first node to last
    # previous
    while (current.next != head):
        previous = current
        current = current.next
     
    previous.next = current.next
    head = previous.next
     
    return head
 
# Function delete node at a given position
# of Circular Linked List
def DeleteAtPosition(head, index):
 
    # Find length of list
    len = Length(head)
    count = 1
    previous = head
    next = head
 
    # check list have any node
    # if not then return
    if (head == None):
        print("\nDelete Last List is empty")
        return None
     
    # given index is in list or not
    if (index >= len or index < 0) :
        print("\nIndex is not Found")
        return None
 
    # delete first node
    if (index == 0) :
        head = DeleteFirst(head)
        return head
 
    # traverse first to last node
    while (len > 0):
     
        # if index found delete that node
        if (index == count):
            previous.next = next.next
             
            return head
         
        previous = previous.next
        next = previous.next
        len = len - 1
        count = count + 1
     
    return head
 
# Driver Code
 
head = None
head = Insert(head, 99)
head = Insert(head, 11)
head = Insert(head, 22)
head = Insert(head, 33)
head = Insert(head, 44)
head = Insert(head, 55)
head = Insert(head, 66)
 
# Deleting Node at position
print("Initial List: ")
Display(head)
print("\nAfter Deleting node at index 4: ")
head = DeleteAtPosition(head, 4)
Display(head)
 
# Deleting first Node
print("\n\nInitial List: ")
Display(head)
print("\nAfter Deleting first node: ")
head = DeleteFirst(head)
Display(head)
 
# Deleting last Node
print("\n\nInitial List: ")
Display(head)
print("\nAfter Deleting last node: ")
head = DeleteLast(head)
Display(head)
 
# This code is contributed by Arnab Kundu

                    

C#

// C# program to delete node at different
// positions from a circular linked list
using System;
 
class GFG
{
 
// structure for a node
class Node
{
    public int data;
    public Node next;
};
 
// Function to insert a node at the end of
// a Circular linked list
static Node Insert(Node head, int data)
{
    Node current = head;
     
    // Create a new node
    Node newNode = new Node();
 
    // check node is created or not
    if (newNode == null)
    {
        Console.Write("\nMemory Error\n");
        return null;
    }
 
    // insert data into newly created node
    newNode.data = data;
 
    // check list is empty
    // if not have any node then
    // make first node it
    if (head == null)
    {
        newNode.next = newNode;
        head = newNode;
        return head;
    }
 
    // if list have already some node
    else
    {
 
        // move first node to last node
        while (current.next != head)
        {
            current = current.next;
        }
 
        // put first or head node address
        // in new node link
        newNode.next = head;
 
        // put new node address into last
        // node link(next)
        current.next = newNode;
    }
    return head;
}
 
// Function print data of list
static void Display( Node head)
{
    Node current = head;
 
    // if list is empty, simply show message
    if (head == null)
    {
        Console.Write("\nDisplay List is empty\n");
        return;
    }
 
    // traverse first to last node
    else
    {
        do
        {
            Console.Write("{0} ", current.data);
            current = current.next;
        } while (current != head);
    }
}
 
// Function return number of nodes present in list
static int Length(Node head)
{
    Node current = head;
    int count = 0;
 
    // if list is empty
    // simply return length zero
    if (head == null)
    {
        return 0;
    }
 
    // traverse first to last node
    else
    {
        do
        {
            current = current.next;
            count++;
        } while (current != head);
    }
    return count;
}
 
// Function delete First node of
// Circular Linked List
static Node DeleteFirst(Node head)
{
    Node previous = head, next = head;
 
    // check list have any node
    // if not then return
    if (head == null)
    {
        Console.Write("\nList is empty\n");
        return null;
    }
 
    // check list have single node
    // if yes then delete it and return
    if (previous.next == previous)
    {
        head = null;
        return null;
    }
 
    // traverse second to first
    while (previous.next != head)
    {
        previous = previous.next;
        next = previous.next;
    }
 
    // now previous is last node and
    // next is first node of list
    // first node(next) link address
    // put in last node(previous) link
    previous.next = next.next;
 
    // make second node as head node
    head = previous.next;
 
    return head;
}
 
// Function to delete last node of
// Circular Linked List
static Node DeleteLast(Node head)
{
    Node current = head, temp = head, previous = null;
 
    // check if list doesn't have any node
    // if not then return
    if (head == null)
    {
        Console.Write("\nList is empty\n");
        return null;
    }
 
    // check if list have single node
    // if yes then delete it and return
    if (current.next == current)
    {
        head = null;
        return null;
    }
 
    // move first node to last
    // previous
    while (current.next != head)
    {
        previous = current;
        current = current.next;
    }
 
    previous.next = current.next;
    head = previous.next;
     
    return head;
}
 
// Function delete node at a given position
// of Circular Linked List
static Node DeleteAtPosition( Node head, int index)
{
    // Find length of list
    int len = Length(head);
    int count = 1;
    Node previous = head, next = head;
 
    // check list have any node
    // if not then return
    if (head == null)
    {
        Console.Write("\nDelete Last List is empty\n");
        return null;
    }
 
    // given index is in list or not
    if (index >= len || index < 0)
    {
        Console.Write("\nIndex is not Found\n");
        return null;
    }
 
    // delete first node
    if (index == 0)
    {
        head = DeleteFirst(head);
        return head;
    }
 
    // traverse first to last node
    while (len > 0)
    {
 
        // if index found delete that node
        if (index == count)
        {
            previous.next = next.next;
             
            return head;
        }
        previous = previous.next;
        next = previous.next;
        len--;
        count++;
    }
    return head;
}
 
// Driver Code
public static void Main(String []args)
{
    Node head = null;
    head = Insert(head, 99);
    head = Insert(head, 11);
    head = Insert(head, 22);
    head = Insert(head, 33);
    head = Insert(head, 44);
    head = Insert(head, 55);
    head = Insert(head, 66);
 
    // Deleting Node at position
    Console.Write("Initial List: ");
    Display(head);
    Console.Write("\nAfter Deleting node at index 4: ");
    head = DeleteAtPosition(head, 4);
    Display(head);
 
    // Deleting first Node
    Console.Write("\n\nInitial List: ");
    Display(head);
    Console.Write("\nAfter Deleting first node: ");
    head = DeleteFirst(head);
    Display(head);
 
    // Deleting last Node
    Console.Write("\n\nInitial List: ");
    Display(head);
    Console.Write("\nAfter Deleting last node: ");
    head = DeleteLast(head);
    Display(head);
}
}
 
// This code is contributed by Rajput-Ji

                    

Javascript

<script>
 
// JavaScript program to delete node at different
// positions from a circular linked list
 
// A linked list node
class Node{
    constructor(new_data){
        this.data = new_data
        this.next = null
        this.prev = null
    }
}
 
// Function to insert a node at the end of
// a Circular linked list
function Insert(head, data){
 
    let current = head
     
    // Create a new node
    let newNode = new Node(0)
 
    // check node is created or not
    if (newNode == null){
     
        document.write("</br>","Memory Error","</br>")
        return null
    }
     
    // insert data into newly created node
    newNode.data = data
 
    // check list is empty
    // if not have any node then
    // make first node it
    if (head == null){
        newNode.next = newNode
        head = newNode
        return head
    }
 
    // if list have already some node
    else{
     
        // move first node to last node
        while (current.next != head)
         
            current = current.next
         
        // put first or head node address
        // in new node link
        newNode.next = head
 
        // put new node address into last
        // node link(next)
        current.next = newNode
    }
     
    return head
}
 
// Function document.write data of list
function Display(head){
 
    let current = head
 
    // if list is empty, simply show message
    if (head == null){
     
        document.write("</br>","Display List is empty","</br>")
        return
    }
     
    // traverse first to last node
    else{
     
        while(true){
         
            document.write( current.data," ")
            current = current.next
            if (current == head)
                break;
        }
    }
}
     
// Function return number of nodes present in list
function Length(head){
    let current = head
    let count = 0
 
    // if list is empty
    // simply return length zero
    if (head == null)
     
        return 0
 
    // traverse first to last node
    else{
     
        while(true){
         
            current = current.next
            count = count + 1
            if (current == head)
                break;
        }
 
    }
     
    return count
}
 
// Function delete First node of
// Circular Linked List
function DeleteFirst(head){
    let previous = head
    let next = head
 
    // check list have any node
    // if not then return
    if (head == null){
     
        document.write("</br>","List is empty")
        return null
    }
     
    // check list have single node
    // if yes then delete it and return
    if (previous.next == previous){
     
        head = null
        return null
    }
     
    // traverse second to first
    while (previous.next != head){
        previous = previous.next
        next = previous.next
    }
     
    // now previous is last node and
    // next is first node of list
    // first node(next) link address
    // put in last node(previous) link
    previous.next = next.next
 
    // make second node as head node
    head = previous.next
 
    return head
}
 
// Function to delete last node of
// Circular Linked List
function DeleteLast(head){
    let current = head
    let temp = head
    let previous = null
 
    // check if list doesn't have any node
    // if not then return
    if (head == null){
        document.write("</br>","List is empty")
        return null
    }
 
    // check if list have single node
    // if yes then delete it and return
    if (current.next == current){
        head = null
        return null
    }
 
    // move first node to last
    // previous
    while (current.next != head){
        previous = current
        current = current.next
    }
     
    previous.next = current.next
    head = previous.next
     
    return head
}
 
// Function delete node at a given position
// of Circular Linked List
function DeleteAtPosition(head, index){
 
    // Find length of list
    len = Length(head)
    count = 1
    previous = head
    next = head
 
    // check list have any node
    // if not then return
    if (head == null){
        document.write("</br>","Delete Last List is empty")
        return null
    }
     
    // given index is in list or not
    if (index >= len || index < 0) {
        document.write("</br>","Index is not Found")
        return null
    }
 
    // delete first node
    if (index == 0){
        head = DeleteFirst(head)
        return head
    }
 
    // traverse first to last node
    while (len > 0){
     
        // if index found delete that node
        if (index == count){
            previous.next = next.next
             
            return head
        }
         
        previous = previous.next
        next = previous.next
        len = len - 1
        count = count + 1
    }
    return head
}
 
// Driver Code
 
let head = null
head = Insert(head, 99)
head = Insert(head, 11)
head = Insert(head, 22)
head = Insert(head, 33)
head = Insert(head, 44)
head = Insert(head, 55)
head = Insert(head, 66)
 
// Deleting Node at position
document.write("Initial List: ")
Display(head)
document.write("</br>","After Deleting node at index 4: ")
head = DeleteAtPosition(head, 4)
Display(head)
 
// Deleting first Node
document.write("</br>","</br>","Initial List: ")
Display(head)
document.write("</br>","After Deleting first node: ")
head = DeleteFirst(head)
Display(head)
 
// Deleting last Node
document.write("</br>","</br>","Initial List: ")
Display(head)
document.write("</br>","After Deleting last node: ")
head = DeleteLast(head)
Display(head)
 
// This code is contributed by shinjanpatra
 
</script>

                    

Output
Initial List: 99 11 22 33 44 55 66 
After Deleting node at index 4: 99 11 22 33 55 66 

Initial List: 99 11 22 33 55 66 
After Deleting first node: 11 22 33 55 66 

Initial List: 11 22 33 55 66 
After Deleting last node: 11 22 33 55 

Time Complexity: O(N) where N is the number of nodes in given linked list.

Auxiliary Space: O(1)



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