C Exercises: Insert new node at any position in a doubly linked list
C Linked List : Exercise-15 with Solution
Write a program in C to insert a new node at any position in a doubly linked list.
Pictorial Presentation:
Sample Solution:
C Code:
#include <stdio.h>
#include <stdlib.h>
struct node {
int num;
struct node * preptr;
struct node * nextptr;
}*stnode, *ennode;
void DlListcreation(int n);
void DlLinsertNodeAtBeginning(int num);
void DlLinsertNodeAtEnd(int num);
void DlLinsertNodeAtAny(int num, int pos);
void displayDlList(int a);
int main()
{
int n,num1,a,insPlc;
stnode = NULL;
ennode = NULL;
printf("\n\n Doubly Linked List : Insert new node at any position in a doubly linked list :\n");
printf("-----------------------------------------------------------------------------------\n");
printf(" Input the number of nodes : ");
scanf("%d", &n);
DlListcreation(n);
a=1;
displayDlList(a);
printf(" Input the position ( 1 to %d ) to insert a new node : ",n+1);
scanf("%d", &insPlc);
printf(" Input data for the position %d : ", insPlc);
scanf("%d", &num1);
DlLinsertNodeAtAny(num1,insPlc);
a=2;
displayDlList(a);
return 0;
}
void DlListcreation(int n)
{
int i, num;
struct node *fnNode;
if(n >= 1)
{
stnode = (struct node *)malloc(sizeof(struct node));
if(stnode != NULL)
{
printf(" Input data for node 1 : "); // assigning data in the first node
scanf("%d", &num);
stnode->num = num;
stnode->preptr = NULL;
stnode->nextptr = NULL;
ennode = stnode;
for(i=2; i<=n; i++)
{
fnNode = (struct node *)malloc(sizeof(struct node));
if(fnNode != NULL)
{
printf(" Input data for node %d : ", i);
scanf("%d", &num);
fnNode->num = num;
fnNode->preptr = ennode; // new node is linking with the previous node
fnNode->nextptr = NULL; // set next address of fnnode is NULL
ennode->nextptr = fnNode; // previous node is linking with the new node
ennode = fnNode; // assign new node as last node
}
else
{
printf(" Memory can not be allocated.");
break;
}
}
}
else
{
printf(" Memory can not be allocated.");
}
}
}
void DlLinsertNodeAtAny(int num, int pos)
{
int i;
struct node * newnode, *tmp;
if(ennode == NULL)
{
printf(" No data found in the list!\n");
}
else
{
tmp = stnode;
i=1;
while(i<pos-1 && tmp!=NULL)
{
tmp = tmp->nextptr;
i++;
}
if(pos == 1)
{
DlLinsertNodeAtBeginning(num);
}
else if(tmp == ennode)
{
DlLinsertNodeAtEnd(num);
}
else if(tmp!=NULL)
{
newnode = (struct node *)malloc(sizeof(struct node));
newnode->num = num;
//next address of new node is linking with the next address of temp node
newnode->nextptr = tmp->nextptr;
// previous address of new node is linking with the tmp node
newnode->preptr = tmp;
if(tmp->nextptr != NULL)
{
tmp->nextptr->preptr = newnode; // n+1th node is linking with new node
}
tmp->nextptr = newnode; // n-1th node is linking with new node
}
else
{
printf(" The position you entered, is invalid.\n");
}
}
}
void DlLinsertNodeAtBeginning(int num)
{
struct node * newnode;
if(stnode == NULL)
{
printf(" No data found in the list!\n");
}
else
{
newnode = (struct node *)malloc(sizeof(struct node));
newnode->num = num;
newnode->nextptr = stnode; // next address of new node is linking with starting node
newnode->preptr = NULL; // set previous address field of new node is NULL
stnode->preptr = newnode; // previous address of starting node is linking with new node
stnode = newnode; // set the new node as starting node
}
}
void DlLinsertNodeAtEnd(int num)
{
struct node * newnode;
if(ennode == NULL)
{
printf(" No data found in the list!\n");
}
else
{
newnode = (struct node *)malloc(sizeof(struct node));
newnode->num = num;
newnode->nextptr = NULL; // set next address field of new node is NULL
newnode->preptr = ennode; // previous address of new node is linking with ending node
ennode->nextptr = newnode; // next address of ending node is linking with new node
ennode = newnode; // set the new node as ending node
}
}
void displayDlList(int m)
{
struct node * tmp;
int n = 1;
if(stnode == NULL)
{
printf(" No data found in the List yet.");
}
else
{
tmp = stnode;
if (m==1)
{
printf("\n Data entered in the list are :\n");
}
else
{
printf("\n After insertion the new list are :\n");
}
while(tmp != NULL)
{
printf(" node %d : %d\n", n, tmp->num);
n++;
tmp = tmp->nextptr; // current pointer moves to the next node
}
}
}
Sample Output:
Doubly Linked List : Insert new node at any position in a doubly linked list :
-----------------------------------------------------------------------------------
Input the number of nodes : 3
Input data for node 1 : 2
Input data for node 2 : 5
Input data for node 3 : 8
Data entered in the list are :
node 1 : 2
node 2 : 5
node 3 : 8
Input the position ( 1 to 4 ) to insert a new node : 4
Input data for the position 4 : 9
After insertion the new list are :
node 1 : 2
node 2 : 5
node 3 : 8
node 4 : 9
Flowchart:
DlListcreation() :
DlLinsertNodeAtAny() :
DlLinsertNodeAtBeginning() :
DlLinsertNodeAtEnd() :
displayDlList() :
C Programming Code Editor:
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C Programming: Tips of the Day
Static variable inside of a function in C
The scope of variable is where the variable name can be seen. Here, x is visible only inside function foo().
The lifetime of a variable is the period over which it exists. If x were defined without the keyword static, the lifetime would be from the entry into foo() to the return from foo(); so it would be re-initialized to 5 on every call.
The keyword static acts to extend the lifetime of a variable to the lifetime of the programme; e.g. initialization occurs once and once only and then the variable retains its value - whatever it has come to be - over all future calls to foo().
Ref : https://bit.ly/3fOq7XP
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