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Flatten a multilevel linked list

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Given a linked list where in addition to the next pointer, each node has a child pointer, which may or may not point to a separate list. These child lists may have one or more children of their own, and so on, to produce a multilevel data structure, as shown in below figure. You are given the head of the first level of the list. Flatten the list so that all the nodes appear in a single-level linked list. You need to flatten the list in way that all nodes at the first level should come first, then nodes of second level, and so on.
Each node is a C struct with the following definition.

C




struct List
{
    int data;
    struct List *next;
    struct List *child;
};


C++




class List{
      public:
      int data;
      List *next;
      List *child;
};
  
// This code is contributed by lokeshmvs21.


Java




static class List
{
    public int data;
    public List next;
    public List child;
};
  
// This code is contributed by pratham76


Python3




# A linked list node has data, 
# next pointer and child pointer 
class Node:
    def __init__(self, data):
        self.data = data
        self.next = None
        self.child = None
          
        # This code contributed by umadevi9616


C#




static class List
{
    public int data;
    public List next;
    public List child;
};
  
// This code is contributed by rutvik_56


Javascript




<script> 
class List
{
     constructor(){
         this.data = 0;
         this.next = null;
         this.child = null;
     }
  
}
// This code contributed by aashish1995 
</script>


The above list should be converted to 10->5->12->7->11->4->20->13->17->6->2->16->9->8->3->19->15 

The problem clearly say that we need to flatten level by level. The idea of solution is, we start from first level, process all nodes one by one, if a node has a child, then we append the child at the end of list, otherwise we don’t do anything. After the first level is processed, all next level nodes will be appended after first level. Same process is followed for the appended nodes. 

1) Take "cur" pointer, which will point to head of the first level of the list
2) Take "tail" pointer, which will point to end of the first level of the list
3) Repeat the below procedure while "curr" is not NULL.
    I) if current node has a child then
    a) append this new child list to the "tail"
        tail->next = cur->child
    b) find the last node of new child list and update "tail"
        tmp = cur->child;
        while (tmp->next != NULL)
            tmp = tmp->next;
        tail = tmp;
    II) move to the next node. i.e. cur = cur->next
 

Following is the implementation of the above algorithm. 

C




// Program to flatten list with next and child pointers
#include <stdio.h>
#include <stdlib.h>
  
// Macro to find number of elements in array
#define SIZE(arr) (sizeof(arr)/sizeof(arr[0]))
  
// A linked list node has data, next pointer and child pointer
struct Node
{
    int data;
    struct Node *next;
    struct Node *child;
};
  
// A utility function to create a linked list with n nodes. The data
// of nodes is taken from arr[].  All child pointers are set as NULL
struct Node *createList(int *arr, int n)
{
    struct Node *head = NULL;
    struct Node *p;
  
    int i;
    for (i = 0; i < n; ++i) {
        if (head == NULL)
            head = p = (struct Node *)malloc(sizeof(*p));
        else {
            p->next = (struct Node *)malloc(sizeof(*p));
            p = p->next;
        }
        p->data = arr[i];
        p->next = p->child = NULL;
    }
    return head;
}
  
// A utility function to print all nodes of a linked list
void printList(struct Node *head)
{
    while (head != NULL) {
        printf("%d ", head->data);
        head = head->next;
    }
    printf("\n");
}
  
// This function creates the input list.  The created list is same
// as shown in the above figure
struct Node *CreateInputList(void)
{
    int arr1[] = {10, 5, 12, 7, 11};
    int arr2[] = {4, 20, 13};
    int arr3[] = {17, 6};
    int arr4[] = {9, 8};
    int arr5[] = {19, 15};
    int arr6[] = {2};
    int arr7[] = {16};
    int arr8[] = {3};
  
    /* create 8 linked lists */
    struct Node *head1 = createList(arr1, SIZE(arr1));
    struct Node *head2 = createList(arr2, SIZE(arr2));
    struct Node *head3 = createList(arr3, SIZE(arr3));
    struct Node *head4 = createList(arr4, SIZE(arr4));
    struct Node *head5 = createList(arr5, SIZE(arr5));
    struct Node *head6 = createList(arr6, SIZE(arr6));
    struct Node *head7 = createList(arr7, SIZE(arr7));
    struct Node *head8 = createList(arr8, SIZE(arr8));
  
  
    /* modify child pointers to create the list shown above */
    head1->child = head2;
    head1->next->next->next->child = head3;
    head3->child = head4;
    head4->child = head5;
    head2->next->child = head6;
    head2->next->next->child = head7;
    head7->child = head8;
  
  
    /* Return head pointer of first linked list.  Note that all nodes are
       reachable from head1 */
    return head1;
}
  
/* The main function that flattens a multilevel linked list */
void flattenList(struct Node *head)
{
    /*Base case*/
    if (head == NULL)
       return;
  
    struct Node *tmp;
  
    /* Find tail node of first level linked list */
    struct Node *tail = head;
    while (tail->next != NULL)
        tail = tail->next;
  
    // One by one traverse through all nodes of first level
    // linked list till we reach the tail node
    struct Node *cur = head;
    while (cur != tail)
    {
        // If current node has a child
        if (cur->child)
        {
            // then append the child at the end of current list
            tail->next = cur->child;
  
            // and update the tail to new last node
            tmp = cur->child;
            while (tmp->next)
                tmp = tmp->next;
            tail = tmp;
        }
  
        // Change current node
        cur = cur->next;
    }
}
  
// A driver program to test above functions
int main(void)
{
    struct Node *head = NULL;
    head = CreateInputList();
    flattenList(head);
    printList(head);
    return 0;
}


C++




// C++ Program to flatten list with
// next and child pointers 
#include <bits/stdc++.h>
using namespace std;
  
// Macro to find number of elements in array 
#define SIZE(arr) (sizeof(arr)/sizeof(arr[0])) 
  
// A linked list node has data, 
// next pointer and child pointer 
class Node 
    public:
    int data; 
    Node *next; 
    Node *child; 
}; 
  
// A utility function to create a linked list
// with n nodes. The data of nodes is taken 
// from arr[]. All child pointers are set as NULL 
Node *createList(int *arr, int n) 
    Node *head = NULL; 
    Node *p; 
  
    int i; 
    for (i = 0; i < n; ++i) 
    
        if (head == NULL) 
            head = p = new Node();
        else 
        
            p->next = new Node();
            p = p->next; 
        
        p->data = arr[i]; 
        p->next = p->child = NULL; 
    
    return head; 
  
// A utility function to print 
// all nodes of a linked list 
void printList(Node *head) 
    while (head != NULL) 
    
        cout << head->data << " "
        head = head->next; 
    
    cout<<endl; 
  
// This function creates the input 
// list. The created list is same 
// as shown in the above figure 
Node *createList(void
    int arr1[] = {10, 5, 12, 7, 11}; 
    int arr2[] = {4, 20, 13}; 
    int arr3[] = {17, 6}; 
    int arr4[] = {9, 8}; 
    int arr5[] = {19, 15}; 
    int arr6[] = {2}; 
    int arr7[] = {16}; 
    int arr8[] = {3}; 
  
    /* create 8 linked lists */
    Node *head1 = createList(arr1, SIZE(arr1)); 
    Node *head2 = createList(arr2, SIZE(arr2)); 
    Node *head3 = createList(arr3, SIZE(arr3)); 
    Node *head4 = createList(arr4, SIZE(arr4)); 
    Node *head5 = createList(arr5, SIZE(arr5)); 
    Node *head6 = createList(arr6, SIZE(arr6)); 
    Node *head7 = createList(arr7, SIZE(arr7)); 
    Node *head8 = createList(arr8, SIZE(arr8)); 
  
  
    /* modify child pointers to 
    create the list shown above */
    head1->child = head2; 
    head1->next->next->next->child = head3; 
    head3->child = head4; 
    head4->child = head5; 
    head2->next->child = head6; 
    head2->next->next->child = head7; 
    head7->child = head8; 
  
  
    /* Return head pointer of first 
    linked list. Note that all nodes are 
    reachable from head1 */
    return head1; 
  
/* The main function that flattens
a multilevel linked list */
void flattenList(Node *head) 
    /*Base case*/
    if (head == NULL) 
    return
  
    Node *tmp; 
  
    /* Find tail node of first level linked list */
    Node *tail = head; 
    while (tail->next != NULL) 
        tail = tail->next; 
  
    // One by one traverse through all nodes of first level 
    // linked list till we reach the tail node 
    Node *cur = head; 
    while (cur != tail) 
    
        // If current node has a child 
        if (cur->child) 
        
            // then append the child at the end of current list 
            tail->next = cur->child; 
  
            // and update the tail to new last node 
            tmp = cur->child; 
            while (tmp->next) 
                tmp = tmp->next; 
            tail = tmp; 
        
  
        // Change current node 
        cur = cur->next; 
    
  
// Driver code
int main(void
    Node *head = NULL; 
    head = createList(); 
    flattenList(head); 
    printList(head); 
    return 0; 
  
// This code is contributed by rathbhupendra


Java




// Java program to flatten linked list with next and child pointers
  
class LinkedList {
      
    static Node head;
      
    class Node {
          
        int data;
        Node next, child;
          
        Node(int d) {
            data = d;
            next = child = null;
        }
    }
  
    // A utility function to create a linked list with n nodes. The data
    // of nodes is taken from arr[].  All child pointers are set as NULL
    Node createList(int arr[], int n) {
        Node node = null;
        Node p = null;
          
        int i;
        for (i = 0; i < n; ++i) {
            if (node == null) {
                node = p = new Node(arr[i]);
            } else {
                p.next = new Node(arr[i]);
                p = p.next;
            }
            p.next = p.child = null;
        }
        return node;
    }
  
    // A utility function to print all nodes of a linked list
    void printList(Node node) {
        while (node != null) {
            System.out.print(node.data + " ");
            node = node.next;
        }
        System.out.println("");
    }
      
    Node createList() {
        int arr1[] = new int[]{10, 5, 12, 7, 11};
        int arr2[] = new int[]{4, 20, 13};
        int arr3[] = new int[]{17, 6};
        int arr4[] = new int[]{9, 8};
        int arr5[] = new int[]{19, 15};
        int arr6[] = new int[]{2};
        int arr7[] = new int[]{16};
        int arr8[] = new int[]{3};
  
        /* create 8 linked lists */
        Node head1 = createList(arr1, arr1.length);
        Node head2 = createList(arr2, arr2.length);
        Node head3 = createList(arr3, arr3.length);
        Node head4 = createList(arr4, arr4.length);
        Node head5 = createList(arr5, arr5.length);
        Node head6 = createList(arr6, arr6.length);
        Node head7 = createList(arr7, arr7.length);
        Node head8 = createList(arr8, arr8.length);
  
        /* modify child pointers to create the list shown above */
        head1.child = head2;
        head1.next.next.next.child = head3;
        head3.child = head4;
        head4.child = head5;
        head2.next.child = head6;
        head2.next.next.child = head7;
        head7.child = head8;
  
        /* Return head pointer of first linked list.  Note that all nodes are
         reachable from head1 */
        return head1;
    }
  
    /* The main function that flattens a multilevel linked list */
    void flattenList(Node node) {
          
        /*Base case*/
        if (node == null) {
            return;
        }
          
        Node tmp = null;
  
        /* Find tail node of first level linked list */
        Node tail = node;
        while (tail.next != null) {
            tail = tail.next;
        }
  
        // One by one traverse through all nodes of first level
        // linked list till we reach the tail node
        Node cur = node;
        while (cur != tail) {
  
            // If current node has a child
            if (cur.child != null) {
  
                // then append the child at the end of current list
                tail.next = cur.child;
  
                // and update the tail to new last node
                tmp = cur.child;
                while (tmp.next != null) {
                    tmp = tmp.next;
                }
                tail = tmp;
            }
  
            // Change current node
            cur = cur.next;
        }
    }
      
    public static void main(String[] args) {
        LinkedList list = new LinkedList();
        head = list.createList();
        list.flattenList(head);
        list.printList(head);
    }
}
  
// This code has been contributed by Mayank Jaiswal


Python3




# Python3 Program to flatten list with
# next and child pointers 
  
# A linked list node has data, 
# next pointer and child pointer 
class Node:
    def __init__(self, data):
        self.data = data
        self.next = None
        self.child = None
  
# Return Node
def newNode(data):
    return Node(data) 
  
# The main function that flattens
# a multilevel linked list
def flattenlist(head):
      
    # Base case
    if not head:
        return
      
    # Find tail node of first level linked list
    temp = head
    while(temp.next != None):
        temp = temp.next
    currNode = head
      
    # One by one traverse through all nodes 
    # of first level linked list
    # till we reach the tail node 
    while(currNode != temp):
          
        # If current node has a child
        if(currNode.child):
              
            # then append the child
            # at the end of current list 
            temp.next = currNode.child
              
            # and update the tail to new last node 
            tmp = currNode.child
            while(tmp.next):
                tmp = tmp.next
            temp = tmp
              
        # Change current node 
        currNode = currNode.next
      
# A utility function to print 
# all nodes of a linked list 
def printList(head): 
    if not head: 
        return
    while(head): 
        print("{}".format(head.data), end = " "
        head = head.next
  
# Driver code 
if __name__=='__main__'
      
    # Child list of 13
    child13 = newNode(16)
    child13.child = newNode(3)
      
    # Child List of 10
    head1 = newNode(4)
    head1.next = newNode(20)
    head1.next.child = newNode(2) #Child of 20
    head1.next.next = newNode(13)
    head1.next.next.child = child13
      
    # Child of 9
    child9 = newNode(19)
    child9.next = newNode(15)
  
    # Child List of 17
    child17 = newNode(9)
    child17.next = newNode(8)
    child17.child = child9
  
    # Child List of 7
    head2 = newNode(17)
    head2.next = newNode(6)
    head2.child = child17
      
    # Main List
    head = newNode(10)
    head.child = head1
    head.next = newNode(5)
    head.next.next = newNode(12)
    head.next.next.next = newNode(7)
    head.next.next.next.child = head2
    head.next.next.next.next = newNode(11)
  
    flattenlist(head)
    printList(head)
  
# This code is contributed by 0_hero


C#




// C# program to flatten linked list
// with next and child pointers
using System;
  
public class LinkedList
{
    static Node head;
      
    class Node 
    {
        public int data;
        public Node next, child;
          
        public Node(int d)
        {
            data = d;
            next = child = null;
        }
    }
  
    // A utility function to create
    // a linked list with n nodes. The data
    // of nodes is taken from arr[].
    // All child pointers are set as NULL
    Node createList(int []arr, int n) 
    {
        Node node = null;
        Node p = null;
          
        int i;
        for (i = 0; i < n; ++i) 
        {
            if (node == null
            {
                node = p = new Node(arr[i]);
            
            else 
            {
                p.next = new Node(arr[i]);
                p = p.next;
            }
            p.next = p.child = null;
        }
        return node;
    }
  
    // A utility function to print 
    // all nodes of a linked list
    void printList(Node node)
    {
        while (node != null
        {
            Console.Write(node.data + " ");
            node = node.next;
        }
        Console.WriteLine("");
    }
      
    Node createList() 
    {
        int []arr1 = new int[]{10, 5, 12, 7, 11};
        int []arr2 = new int[]{4, 20, 13};
        int []arr3 = new int[]{17, 6};
        int []arr4 = new int[]{9, 8};
        int []arr5 = new int[]{19, 15};
        int []arr6 = new int[]{2};
        int []arr7 = new int[]{16};
        int []arr8 = new int[]{3};
  
        /* create 8 linked lists */
        Node head1 = createList(arr1, arr1.Length);
        Node head2 = createList(arr2, arr2.Length);
        Node head3 = createList(arr3, arr3.Length);
        Node head4 = createList(arr4, arr4.Length);
        Node head5 = createList(arr5, arr5.Length);
        Node head6 = createList(arr6, arr6.Length);
        Node head7 = createList(arr7, arr7.Length);
        Node head8 = createList(arr8, arr8.Length);
  
        /* modify child pointers to
        create the list shown above */
        head1.child = head2;
        head1.next.next.next.child = head3;
        head3.child = head4;
        head4.child = head5;
        head2.next.child = head6;
        head2.next.next.child = head7;
        head7.child = head8;
  
        /* Return head pointer of first 
        linked list. Note that all nodes
         are reachable from head1 */
        return head1;
    }
  
    /* The main function that flattens 
    a multilevel linked list */
    void flattenList(Node node)
    {
          
        /*Base case*/
        if (node == null)
        {
            return;
        }
          
        Node tmp = null;
  
        /* Find tail node of first
        level linked list */
        Node tail = node;
        while (tail.next != null
        {
            tail = tail.next;
        }
  
        // One by one traverse through 
        // all nodes of first level
        // linked list till we reach the tail node
        Node cur = node;
        while (cur != tail) 
        {
  
            // If current node has a child
            if (cur.child != null
            {
  
                // then append the child at 
                // the end of current list
                tail.next = cur.child;
  
                // and update the tail to new last node
                tmp = cur.child;
                while (tmp.next != null
                {
                    tmp = tmp.next;
                }
                tail = tmp;
            }
  
            // Change current node
            cur = cur.next;
        }
    }
      
    // Driver code
    public static void Main() 
    {
        LinkedList list = new LinkedList();
        head = list.createList();
        list.flattenList(head);
        list.printList(head);
    }
}
  
/* This code is contributed PrinciRaj1992 */


Javascript




// Javascript Program to flatten list with next and child pointers
 
    // A linked list node has data,
    // next pointer and child pointer
    class Node {
      constructor() {
        this.data;
        this.next;
        this.child;
      }
    }
 
    // A utility function to create a linked list
    // with n nodes. The data of nodes is taken
    // from arr[]. All child pointers are set as null
    function createList(arr, n) {
      head = null;
      var p;
 
      let i;
      for (i = 0; i < n; ++i) {
        if (head == null) head = p = new Node();
        else {
          p.next = new Node();
          p = p.next;
        }
        p.data = arr[i];
        p.next = p.child = null;
      }
      return head;
    }
 
    // A utility function to print
    // all nodes of a linked list
    function printList(head) {
      while (head != null) {
        console.log(head.data + " ");
        head = head.next;
      }
    }
 
    // This function creates the input
    // list. The created list is same
    // as shown in the above figure
    function createsList() {
      arr1 = [10, 5, 12, 7, 11];
      arr2 = [4, 20, 13];
      arr3 = [17, 6];
      arr4 = [9, 8];
      arr5 = [19, 15];
      arr6 = [2];
      arr7 = [16];
      arr8 = [3];
 
      /* create 8 linked lists */
      head1 = createList(arr1, arr1.length);
      head2 = createList(arr2, arr2.length);
      head3 = createList(arr3, arr3.length);
      head4 = createList(arr4, arr4.length);
      head5 = createList(arr5, arr5.length);
      head6 = createList(arr6, arr6.length);
      head7 = createList(arr7, arr7.length);
      head8 = createList(arr8, arr8.length);
 
      /* modify child pointers to
        create the list shown above */
      head1.child = head2;
      head1.next.next.next.child = head3;
      head3.child = head4;
      head4.child = head5;
      head2.next.child = head6;
      head2.next.next.child = head7;
      head7.child = head8;
 
      /* Return head pointer of first
        linked list. Note that all nodes are
        reachable from head1 */
      return head1;
    }
 
    /* The main function that flattens
    a multilevel linked list */
    function flattenList(head) {
      /*Base case*/
      if (head == null) return;
 
      var tmp;
 
      /* Find tail node of first level linked list */
      tail = head;
      while (tail.next != null) tail = tail.next;
 
      // One by one traverse through all nodes of first level
      // linked list till we reach the tail node
      cur = head;
      while (cur != tail) {
        // If current node has a child
        if (cur.child) {
          // then append the child at the end of current list
          tail.next = cur.child;
 
          // and update the tail to new last node
          tmp = cur.child;
          while (tmp.next) tmp = tmp.next;
          tail = tmp;
        }
 
        // Change current node
        cur = cur.next;
      }
    }
 
    // Driver code
 
    head = null;
    head = createsList();
    flattenList(head);
    printList(head);


Output

10 5 12 7 11 4 20 13 17 6 2 16 9 8 3 19 15 

Time Complexity: Since every node is visited at most twice, the time complexity is O(n) where n is the number of nodes in given linked list.
Auxiliary Space: O(1)



Last Updated : 17 Feb, 2023
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