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Appending_Node.c
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Appending_Node.c
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#include<stdio.h>
#include<stdlib.h>
void append();
struct node
{
int data;
struct node *link;
};
struct node *root;
int main()
{
root=(struct node*)malloc(sizeof(struct node));
printf("ROOT 1 DATA:");
scanf("%d", &root->data);
root->link=NULL;
struct node*current;
current=(struct node*)malloc(sizeof(struct node));
printf("ROOT 2 DATA:");
scanf("%d", ¤t->data);
current->link=NULL;
root->link=current; // this will store the address of the second node into the link part of the first node
current=malloc(sizeof(struct node));
printf("ROOT 3 DATA:");
scanf("%d", ¤t->data);
current->link=NULL;
root->link->link=current; // this will store the base address of the third node into the link part of the second node
printf("APPENDING NODE:\n");
append(); // now the user will be prompted for appending the element to the last of the linked list
}
void append()
{
struct node *temp;
temp=(struct node*)malloc(sizeof(struct node));
printf("ENTER NODE DATA:");
scanf("%d", &temp->data);
if(root==NULL)
{
root=temp; // we are checking if the linked list is empty then this will be the first node to be inserted in the linked list
}
else
{
struct node *ptr; // used for traversing through nodes
ptr=root;
while(ptr->link!=NULL)
{
ptr=ptr->link;
}
ptr->link=temp; // this will connect the last node with the temp node which we created before
}
printf("PRINTING DATA IN ALL NODES\n");
printf("NODE 1: %d\n", root->data);
printf("NODE 2: %d\n", root->link->data);
printf("NODE 3: %d\n", root->link->link->data);
printf("NODE 4: %d\n", root->link->link->link->data);
}