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Find modular node in a linked list

Last Updated : 15 Jul, 2022
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Given a singly linked list and a number k, find the last node whose n%k == 0, where n is the number of nodes in the list.

Examples: 

Input : list = 1->2->3->4->5->6->7
        k = 3
Output : 6

Input : list = 3->7->1->9->8
        k = 2
Output : 9
  1. Take a pointer modularNode and initialize it with NULL. Traverse the linked list. 
  2.  For every i%k=0, update modularNode.

Implementation:

C++ 
// C++ program to find modular node in a linked list
#include <bits/stdc++.h>

/* Linked list node */
struct Node {
    int data;
    Node* next;
};

/* Function to create a new node with given data */
Node* newNode(int data)
{
    Node* new_node = new Node;
    new_node->data = data;
    new_node->next = NULL;
    return new_node;
}

/* Function to find modular node in the linked list */
Node* modularNode(Node* head, int k)
{
    // Corner cases
    if (k <= 0 || head == NULL)
        return NULL;   

    // Traverse the given list
    int i = 1;
    Node* modularNode = NULL;
    for (Node* temp = head; temp != NULL; temp = temp->next) {
        if (i % k == 0) 
            modularNode = temp;
        
        i++;
    }
    return modularNode;
}

/* Driver program to test above function */
int main(void)
{
    Node* head = newNode(1);
    head->next = newNode(2);
    head->next->next = newNode(3);
    head->next->next->next = newNode(4);
    head->next->next->next->next = newNode(5);
    int k = 2;
    Node* answer = modularNode(head, k);
    printf("\nModular node is ");
    if (answer != NULL) 
        printf("%d\n", answer->data);
    else
        printf("null\n");
    return 0;
}
Java 
// A Java program to find modular node in a linked list
public class GFG
{
    // A Linkedlist node
    static class Node{
        int data;
        Node next;
        Node(int data){
            this.data = data;
        }
    }
    
    // Function to find modular node in the linked list
    static Node modularNode(Node head, int k)
    {
        // Corner cases
        if (k <= 0 || head == null)
            return null;   
     
        // Traverse the given list
        int i = 1;
        Node modularNode = null;
        for (Node temp = head; temp != null; temp = temp.next) {
            if (i % k == 0) 
                modularNode = temp;
             
            i++;
        }
        return modularNode;
    }
    
    // Driver code to test above function
    public static void main(String[] args) 
    {
        Node head = new Node(1);
        head.next = new Node(2);
        head.next.next = new Node(3);
        head.next.next.next = new Node(4);
        head.next.next.next.next = new Node(5);
        int k = 2;
        Node answer = modularNode(head, k);
        System.out.print("Modular node is ");
        if (answer != null) 
            System.out.println(answer.data);
        else
            System.out.println("null");
    }
}
// This code is contributed by Sumit Ghosh
Python3 
# Python3 program to find modular node 
# in a linked list
import math

# Linked list node
class Node:
    def __init__(self, data):
        self.data = data
        self.next = None

# Function to create a new node 
# with given data
def newNode(data):
    new_node = Node(data)
    new_node.data = data
    new_node.next = None
    return new_node

# Function to find modular node 
# in the linked list
def modularNode(head, k):
    
    # Corner cases
    if (k <= 0 or head == None):
        return None

    # Traverse the given list
    i = 1
    modularNode = None
    temp = head
    while (temp != None):
        if (i % k == 0):
            modularNode = temp

        i = i + 1
        temp = temp.next
    return modularNode

# Driver Code
if __name__ == '__main__':
    head = newNode(1)
    head.next = newNode(2)
    head.next.next = newNode(3)
    head.next.next.next = newNode(4)
    head.next.next.next.next = newNode(5)
    k = 2
    answer = modularNode(head, k)
    print("Modular node is", end = ' ')
    if (answer != None):
        print(answer.data, end = ' ')
    else:
        print("None")

# This code is contributed by Srathore
C# 
// C# program to find modular node in a linked list
using System;

class GFG 
{ 
    // A Linkedlist node 
    public class Node
    { 
        public int data; 
        public Node next; 
        public Node(int data)
        { 
            this.data = data; 
        } 
    } 
    
    // Function to find modular node in the linked list 
    static Node modularNode(Node head, int k) 
    { 
        // Corner cases 
        if (k <= 0 || head == null) 
            return null; 
    
        // Traverse the given list 
        int i = 1; 
        Node modularNode = null; 
        for (Node temp = head; temp != null; temp = temp.next)
        { 
            if (i % k == 0) 
                modularNode = temp; 
            
            i++; 
        } 
        return modularNode; 
    } 
    
    // Driver code  
    public static void Main(String[] args) 
    { 
        Node head = new Node(1); 
        head.next = new Node(2); 
        head.next.next = new Node(3); 
        head.next.next.next = new Node(4); 
        head.next.next.next.next = new Node(5); 
        int k = 2; 

        Node answer = modularNode(head, k); 
        Console.Write("Modular node is "); 

        if (answer != null) 
            Console.WriteLine(answer.data); 
        else
            Console.WriteLine("null"); 
    } 
} 

// This code is contributed by Rajput-JI
JavaScript 
<script>

// A JavaScript program to find 
// modular node in a linked list
 
    // A Linkedlist node
     class Node {
        constructor(val) {
            this.data = val;
            this.next = null;
        }
    }
    // Function to find modular node in the linked list
    function modularNode(head , k) {
        // Corner cases
        if (k <= 0 || head == null)
            return null;

        // Traverse the given list
        var i = 1;
        var modularNode = null;
        for (temp = head; temp != null; temp = temp.next) {
            if (i % k == 0)
                modularNode = temp;

            i++;
        }
        return modularNode;
    }

    // Driver code to test above function
    
        var head = new Node(1);
        head.next = new Node(2);
        head.next.next = new Node(3);
        head.next.next.next = new Node(4);
        head.next.next.next.next = new Node(5);
        var k = 2;
        var answer = modularNode(head, k);
        document.write("Modular node is ");
        if (answer != null)
            document.write(answer.data);
        else
            document.write("null");

// This code contributed by Rajput-Ji

</script>

Output
Modular node is 4

Complexity Analysis:

  • Time Complexity: O(n).
  • Space complexity: O(1).


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Find First Node of Loop in Linked List

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