Recall Merge Sort sorts a vector of elements. Rewrite Merge Sort to sort a list

Question

Recall Merge Sort sorts a vector of elements. Rewrite Merge Sort to sort a list of elements. You may use your own List or STL list. This must be in C++.
Write your own version of merge_sort(), merge(), and copy() functions.Do not use generic functions such as sort(), inplace_merge(), merge() or copy(). Do not use STL list methods such as sort() or copy(). Make sure the time complexity of your merge_sort() function is in O(n log n).
Make sure you take care of end conditions such as sorting a null list or a list of one element.
Give your own simple main() function that constructs a list, calls your merge sort, and prints the sorted sequence.

Explanation / Answer

#include<stdio.h>

#include<stdlib.h>

  

/* Link list node */

struct node

{

    int data;

    struct node* next;

};

/* function prototypes */

struct node* SortedMerge(struct node* a, struct node* b);

void FrontBackSplit(struct node* source,

          struct node** frontRef, struct node** backRef);

/* sorts the linked list by changing next pointers (not data) */

void MergeSort(struct node** headRef)

{

  struct node* head = *headRef;

  struct node* a;

  struct node* b;

  /* Base case -- length 0 or 1 */

  if ((head == NULL) || (head->next == NULL))

  {

    return;

  }

  /* Split head into 'a' and 'b' sublists */

  FrontBackSplit(head, &a, &b);

  /* Recursively sort the sublists */

  MergeSort(&a);

  MergeSort(&b);

  /* answer = merge the two sorted lists together */

  *headRef = SortedMerge(a, b);

}

/* See http://geeksforgeeks.org/?p=3622 for details of this

   function */

struct node* SortedMerge(struct node* a, struct node* b)

{

  struct node* result = NULL;

  /* Base cases */

  if (a == NULL)

     return(b);

  else if (b==NULL)

     return(a);

  /* Pick either a or b, and recur */

  if (a->data <= b->data)

  {

     result = a;

     result->next = SortedMerge(a->next, b);

  }

  else

  {

     result = b;

     result->next = SortedMerge(a, b->next);

  }

  return(result);

}

/* UTILITY FUNCTIONS */

/* Split the nodes of the given list into front and back halves,

     and return the two lists using the reference parameters.

     If the length is odd, the extra node should go in the front list.

     Uses the fast/slow pointer strategy. */

void FrontBackSplit(struct node* source,

          struct node** frontRef, struct node** backRef)

{

  struct node* fast;

  struct node* slow;

  if (source==NULL || source->next==NULL)

  {

    /* length < 2 cases */

    *frontRef = source;

    *backRef = NULL;

  }

  else

  {

    slow = source;

    fast = source->next;

    /* Advance 'fast' two nodes, and advance 'slow' one node */

    while (fast != NULL)

    {

      fast = fast->next;

      if (fast != NULL)

      {

        slow = slow->next;

        fast = fast->next;

      }

    }

    /* 'slow' is before the midpoint in the list, so split it in two

      at that point. */

    *frontRef = source;

    *backRef = slow->next;

    slow->next = NULL;

  }

}

/* Function to print nodes in a given linked list */

void printList(struct node *node)

{

  while(node!=NULL)

  {

   printf("%d ", node->data);

   node = node->next;

  }

}

/* Function to insert a node at the beginging of the linked list */

void push(struct node** head_ref, int new_data)

{

  /* allocate node */

  struct node* new_node =

            (struct node*) malloc(sizeof(struct node));

  

  /* put in the data */

  new_node->data = new_data;

  

  /* link the old list off the new node */

  new_node->next = (*head_ref);   

  

  /* move the head to point to the new node */

  (*head_ref)    = new_node;

}

  

/* Drier program to test above functions*/

int main()

{

  /* Start with the empty list */

  struct node* res = NULL;

  struct node* a = NULL;

  

  /* Let us create a unsorted linked lists to test the functions

   Created lists shall be a: 2->3->20->5->10->15 */

  push(&a, 15);

  push(&a, 10);

  push(&a, 5);

  push(&a, 20);

  push(&a, 3);

  push(&a, 2);

  

  /* Sort the above created Linked List */

  MergeSort(&a);

  

  printf(" Sorted Linked List is: ");

  printList(a);          

  

  getchar();

  return 0;

}

#include<stdio.h>

#include<stdlib.h>

  

/* Link list node */

struct node

{

    int data;

    struct node* next;

};

/* function prototypes */

struct node* SortedMerge(struct node* a, struct node* b);

void FrontBackSplit(struct node* source,

          struct node** frontRef, struct node** backRef);

/* sorts the linked list by changing next pointers (not data) */

void MergeSort(struct node** headRef)

{

  struct node* head = *headRef;

  struct node* a;

  struct node* b;

  /* Base case -- length 0 or 1 */

  if ((head == NULL) || (head->next == NULL))

  {

    return;

  }

  /* Split head into 'a' and 'b' sublists */

  FrontBackSplit(head, &a, &b);

  /* Recursively sort the sublists */

  MergeSort(&a);

  MergeSort(&b);

  /* answer = merge the two sorted lists together */

  *headRef = SortedMerge(a, b);

}

/* See http://geeksforgeeks.org/?p=3622 for details of this

   function */

struct node* SortedMerge(struct node* a, struct node* b)

{

  struct node* result = NULL;

  /* Base cases */

  if (a == NULL)

     return(b);

  else if (b==NULL)

     return(a);

  /* Pick either a or b, and recur */

  if (a->data <= b->data)

  {

     result = a;

     result->next = SortedMerge(a->next, b);

  }

  else

  {

     result = b;

     result->next = SortedMerge(a, b->next);

  }

  return(result);

}

/* UTILITY FUNCTIONS */

/* Split the nodes of the given list into front and back halves,

     and return the two lists using the reference parameters.

     If the length is odd, the extra node should go in the front list.

     Uses the fast/slow pointer strategy. */

void FrontBackSplit(struct node* source,

          struct node** frontRef, struct node** backRef)

{

  struct node* fast;

  struct node* slow;

  if (source==NULL || source->next==NULL)

  {

    /* length < 2 cases */

    *frontRef = source;

    *backRef = NULL;

  }

  else

  {

    slow = source;

    fast = source->next;

    /* Advance 'fast' two nodes, and advance 'slow' one node */

    while (fast != NULL)

    {

      fast = fast->next;

      if (fast != NULL)

      {

        slow = slow->next;

        fast = fast->next;

      }

    }

    /* 'slow' is before the midpoint in the list, so split it in two

      at that point. */

    *frontRef = source;

    *backRef = slow->next;

    slow->next = NULL;

  }

}

/* Function to print nodes in a given linked list */

void printList(struct node *node)

{

  while(node!=NULL)

  {

   printf("%d ", node->data);

   node = node->next;

  }

}

/* Function to insert a node at the beginging of the linked list */

void push(struct node** head_ref, int new_data)

{

  /* allocate node */

  struct node* new_node =

            (struct node*) malloc(sizeof(struct node));

  

  /* put in the data */

  new_node->data = new_data;

  

  /* link the old list off the new node */

  new_node->next = (*head_ref);   

  

  /* move the head to point to the new node */

  (*head_ref)    = new_node;

}

  

/* Drier program to test above functions*/

int main()

{

  /* Start with the empty list */

  struct node* res = NULL;

  struct node* a = NULL;

  

  /* Let us create a unsorted linked lists to test the functions

   Created lists shall be a: 2->3->20->5->10->15 */

  push(&a, 15);

  push(&a, 10);

  push(&a, 5);

  push(&a, 20);

  push(&a, 3);

  push(&a, 2);

  

  /* Sort the above created Linked List */

  MergeSort(&a);

  

  printf(" Sorted Linked List is: ");

  printList(a);          

  

  getchar();

  return 0;

}

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