mirror of
https://github.com/TheAlgorithms/C
synced 2024-11-22 05:21:49 +03:00
Merge pull request #538 from shubhamsah/master
Added Priority Queue, Queue (link list) and Merge Sort
This commit is contained in:
commit
1c07d61ce3
286
data_structures/linked_list/ascendingpriorityqueue.c
Normal file
286
data_structures/linked_list/ascendingpriorityqueue.c
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/* Ascending priority queue using Linked List - Program to implement Ascending priority queue using Linked List */
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/*A priority queue is a special type of queue in which each element is associated with a priority and is served according
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to its priority. If elements with the same priority occur, they are served according to their order in the queue.
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Generally, the value of the element itself is considered for assigning the priority.
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For example: The element with the highest value is considered as the highest priority element. However, in other cases,
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we can assume the element with the lowest value as the highest priority element. In other cases,
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we can set priorities according to our needs.
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In a queue, the first-in-first-out rule is implemented whereas, in a priority queue, the values are removed on the basis of priority.
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The element with the highest priority is removed first.
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insert() - Would insert an element in a queue
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delete() - Would delete the smallest element in the queue
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#define NULL ((void*)0)
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struct node
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{
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int data ;
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struct node *next ;
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} ;
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struct node *front , *rear ;
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/* This function initializes the queue to empty by making both front and rear as NULL */
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void createqueue()
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{
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front=rear=NULL ;
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}
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int empty()
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{
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if(front==NULL)
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return 1 ;
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else
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return 0 ;
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}
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void insert(int x)
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{
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struct node *pnode ;
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pnode=(struct node*)malloc(sizeof(struct node)) ;
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if(pnode==NULL)
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{
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printf("Memory overflow. Unable to insert.\n") ;
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exit(1) ;
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}
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pnode->data=x ;
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pnode->next=NULL; /* New node is always last node */
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if(empty())
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front=rear=pnode ;
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else
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{
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rear->next=pnode ;
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rear=pnode ;
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}
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}
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int removes()
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{
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int min ;
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struct node *follow , *follow1 , *p , *p1 ;
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if(empty())
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{
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printf("\nQueue Underflow. Unable to remove.") ;
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exit(1) ;
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}
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/* finding the node with minimum value in the APQ.*/
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p=p1=front ;
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follow=follow1=NULL ;
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min=front->data ;
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while(p!=NULL)
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{
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if(p->data<min)
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{
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min=p->data ;
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follow1=follow ;
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p1=p ;
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}
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follow=p ;
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p=p->next ;
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}
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/* Deleting the node with min value */
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if(p1==front) /* deleting first node.*/
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{
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front=front->next ;
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if(front==NULL) /* Deleting the only one node */
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rear=NULL ;
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}
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else if(p1==rear) /* Deleting last node */
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{
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rear=follow1 ;
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rear->next=NULL ;
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}
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else /* deleting any other node.*/
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follow1->next=p1->next ;
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free(p1) ;
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return min ; /* DONT FORGET LAST 2 STATEMENTS.*/
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}
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void show()
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{
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struct node *p ;
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if(empty())
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printf("Queue empty. No data to display \n") ;
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else
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{
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printf("Queue from front to rear is as shown: \n") ;
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p=front ;
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while(p!=NULL)
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{
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printf("%d ",p->data) ;
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p=p->next ;
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}
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printf("\n") ;
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}
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}
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void destroyqueue()
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{
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front=rear=NULL ;
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}
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int main()
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{
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int x , ch ;
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createqueue() ;
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do
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{
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printf("\n\n Menu: \n") ;
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printf("1:Insert \n") ;
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printf("2:Remove \n") ;
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printf("3:exit \n") ;
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printf("Enter your choice: ") ;
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scanf("%d",&ch) ;
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switch(ch)
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{
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case 1:
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printf("Enter element to be inserted: ") ;
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scanf("%d",&x) ;
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insert(x) ;
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show() ;
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break ;
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case 2:
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x=removes() ;
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printf("Element removed is: %d\n",x) ;
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show() ;
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break ;
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case 3:
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break ;
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}
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}
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while(ch!=3) ;
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destroyqueue() ;
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return 0;
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}
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/* Output of the Program*/
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/*
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 1
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Enter element to be inserted: 12
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Queue from front to rear is as shown:
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12
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 1
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Enter element to be inserted: 1
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Queue from front to rear is as shown:
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12 1
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 1
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Enter element to be inserted: 14
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Queue from front to rear is as shown:
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12 1 14
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 1
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Enter element to be inserted: 3
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Queue from front to rear is as shown:
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12 1 14 3
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 1
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Enter element to be inserted: 5
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Queue from front to rear is as shown:
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12 1 14 3 5
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 2
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Element removed is: 1
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Queue from front to rear is as shown:
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12 14 3 5
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 2
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Element removed is: 3
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Queue from front to rear is as shown:
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12 14 5
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 2
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Element removed is: 5
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Queue from front to rear is as shown:
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12 14
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 2
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Element removed is: 12
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Queue from front to rear is as shown:
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14
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Menu:
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1:Insert
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2:Remove
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3:exit
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Enter your choice: 2
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Element removed is: 14
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Queue empty. No data to display
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*/
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149
data_structures/linked_list/queue_linked_list.c
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149
data_structures/linked_list/queue_linked_list.c
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/* Queue using Linked List - Program to create a queue ADT using linked list. ADT should support the following operations
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1) Createqueue
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2) Insert into the queue
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3) Delete from the queue
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4) destroyqueue
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*/
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/* queue q declared globally */
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#include <stdio.h>
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#include <stdlib.h>
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#define NULL 0
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struct node
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{
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int data ;
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struct node *next ;
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} ;
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struct queue
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{
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struct node *front , *rear ;
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} ;
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struct queue q ;
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/* This function initializes the queue to empty by making both front and rear as NULL */
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void createqueue()
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{
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q.front=q.rear=NULL ;
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}
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int empty()
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{
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if(q.front==NULL)
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return 1 ;
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else
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return 0 ;
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}
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void insert(int x)
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{
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struct node *pnode ;
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pnode=(struct node*)malloc(sizeof(struct node)) ;
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if(pnode==NULL)
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{
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printf("Memory overflow. Unable to insert.\n") ;
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exit(1) ;
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}
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pnode->data=x ;
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pnode->next=NULL ; /* New node is always last node */
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if(empty())
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q.front=q.rear=pnode ;
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else
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{
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(q.rear)->next=pnode ;
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q.rear=pnode ;
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}
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}
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int removes()
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{
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int x ;
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struct node *p ;
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if(empty())
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{
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printf("Queue Underflow. Unable to remove.\n") ;
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exit(1) ;
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}
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p=q.front ;
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x=(q.front)->data ;
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q.front=(q.front)->next ;
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if(q.front==NULL) /* Queue contained only one node */
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q.rear=NULL ;
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free(p) ;
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return x ;
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}
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void show()
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{
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struct node *p ;
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if(empty())
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printf("Queue empty. No data to display \n") ;
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else
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{
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printf("Queue from front to rear is as shown: \n") ;
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p=q.front ;
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while(p!=NULL)
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{
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printf("%d ",p->data) ;
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p=p->next ;
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}
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printf("\n") ;
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}
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}
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void destroyqueue()
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{
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q.front=q.rear=NULL ;
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}
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int main()
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{
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int x , ch ;
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createqueue() ;
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do
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{
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printf("\n\n Menu: \n") ;
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printf("1:Insert \n") ;
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printf("2:Remove \n") ;
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printf("3:exit \n") ;
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printf("Enter your choice: ") ;
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scanf("%d",&ch) ;
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switch(ch)
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{
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case 1:
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printf("Enter element to be inserted: ") ;
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scanf("%d",&x) ;
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insert(x) ;
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show() ;
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break ;
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case 2:
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x=removes() ;
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printf("Element removed is: %d\n",x) ;
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show() ;
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break ;
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case 3:
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break ;
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}
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}
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while(ch!=3) ;
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destroyqueue() ;
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return 0;
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}
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110
sorting/merge_sort_nr.c
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110
sorting/merge_sort_nr.c
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@ -0,0 +1,110 @@
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/* Program to demonstrate non recursive merge sort */
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/* Merge sort is an effective sorting algorithm which falls under divide and conquer paradigm and produces a stable sort.
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Merge sort repeatedly breaks down a list into several sublists until each sublist consists of a single element and merging those
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sublists in a manner that results into a sorted list.
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Bottom-Up Merge Sort Implementation:
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The Bottom-Up merge sort approach uses iterative methodology. It starts with the “single-element” array, and combines two adjacent elements and
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also sorting the two at the same time.
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The combined-sorted arrays are again combined and sorted with each other until one single unit of sorted array is achieved. */
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#include <stdio.h>
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void mergesort(int x[ ] , int n) ;
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void show(int x[ ] , int n) ;
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void mergesort(int x[ ] , int n)
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{
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int temp[50] , i , j , k , lb1 , lb2 , ub1 , ub2 , size ;
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size=1 ;
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while(size<n)
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{
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lb1=0 ;
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k=0 ;
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while(lb1+size<n)
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{
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lb2=lb1+size ;
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ub1=lb2-1 ;
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if(ub1+size<n)
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ub2=ub1+size ;
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else
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ub2=n-1 ;
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i=lb1 ;
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j=lb2 ;
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while(i<=ub1&&j<=ub2)
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if(x[i]<x[j])
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temp[k++]=x[i++] ;
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else
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temp[k++]=x[j++] ;
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while(i<=ub1)
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temp[k++]=x[i++] ;
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while(j<=ub2)
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temp[k++]=x[j++] ;
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lb1=ub2+1 ;
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}
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for(i=0 ; i<=ub2 ; i++)
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x[i]=temp[i] ;
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size=size*2 ;
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show(x,n) ;
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}
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}
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// function to show each pass
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void show(int x[ ] , int n)
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{
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int i ;
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for(i=0 ; i<n ; i++)
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printf("%d " , x[i]) ;
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printf("\n\n") ;
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}
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int main() //main function
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{
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int i , n , x[20] ;
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printf("Enter the number of elements: ") ;
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scanf("%d",&n) ;
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printf("Enter the elements:\n") ;
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for(i=0 ; i<n ; i++)
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scanf("%d",&x[i]) ;
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mergesort(x,n) ;
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printf("Sorted array is as shown:\n") ;
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for(i=0 ; i<n ; i++)
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printf("%d " , x[i]) ;
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return 0;
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}
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/* Output of the Program*/
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/*
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Enter the number of elements: 5
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Enter the elements:
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15
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14
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13
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12
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11
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14 15 12 13 11
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12 13 14 15 11
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11 12 13 14 15
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Sorted array is as shown:
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11 12 13 14 15
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*/
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