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merge_sort_dll.c
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merge_sort_dll.c
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// C program for merge sort on doubly linked list
// Time complexity is the same as time complexity of
// merge sort of arrays O(n log n). Space complexity
// is constant 0(1).
#include<stdio.h>
#include<stdlib.h>
struct Node
{
int data;
struct Node *next, *prev;
};
struct Node *split(struct Node *head);
// Function to merge two linked lists
struct Node *merge(struct Node *first, struct Node *second)
{
// If first linked list is empty
if (!first)
return second;
// If second linked list is empty
if (!second)
return first;
// Pick the smaller value
if (first->data < second->data)
{
first->next = merge(first->next,second);
first->next->prev = first;
first->prev = NULL;
return first;
}
else
{
second->next = merge(first,second->next);
second->next->prev = second;
second->prev = NULL;
return second;
}
}
// Function to do merge sort
struct Node *mergeSort(struct Node *head)
{
if (!head || !head->next)
return head;
struct Node *second = split(head);
// Recur for left and right halves
head = mergeSort(head);
second = mergeSort(second);
// Merge the two sorted halves
return merge(head,second);
}
// A utility function to insert a new node at the
// beginning of doubly linked list
void insert(struct Node **head, int data)
{
struct Node *temp =
(struct Node *)malloc(sizeof(struct Node));
temp->data = data;
temp->next = temp->prev = NULL;
if (!(*head))
(*head) = temp;
else
{
temp->next = *head;
(*head)->prev = temp;
(*head) = temp;
}
}
// A utility function to print a doubly linked list in
// both forward and backward directions
void print(struct Node *head)
{
struct Node *temp = head;
printf("Forward Traversal using next pointer\n");
while (head)
{
printf("%d ",head->data);
temp = head;
head = head->next;
}
printf("\nBackward Traversal using prev pointer\n");
while (temp)
{
printf("%d ", temp->data);
temp = temp->prev;
}
}
// Utility function to swap two integers
void swap(int *A, int *B)
{
int temp = *A;
*A = *B;
*B = temp;
}
// Split a doubly linked list (DLL) into 2 DLLs of
// half sizes
struct Node *split(struct Node *head)
{
struct Node *fast = head,*slow = head;
while (fast->next && fast->next->next)
{
fast = fast->next->next;
slow = slow->next;
}
struct Node *temp = slow->next;
slow->next = NULL;
return temp;
}
// Driver program
int main(void)
{
struct Node *head = NULL;
insert(&head,5);
insert(&head,20);
insert(&head,4);
insert(&head,3);
insert(&head,30);
insert(&head,10);
head = mergeSort(head);
printf("\n\nLinked List after sorting\n");
print(head);
return 0;
}