2

This program is based on a linked list. It adds the element in the beginning of the list each time Insert(x) is called in main(). The big arrow in the code points to the part I'm not sure I have correct. My questions are enumerated below:

Question 1. The code creates a global structure pointer head of type Node and a local pointer to structure Node in the Insert() function. The first arrow points to code which does temp->next = head. Does that mean we are passing in temp->next the address of head or the value inside of head? I guess the value -- please confirm.

Suppose I have case:

int a= 2;
int *p;

then p= &a; means p has the address of a but here in code seems like p=a i.e. pointer temp->next = head

Here the next pointer= head means that we are passing the value inside of the head node. If it were the address than we should have used &head?

Question 2. In the next arrow head = temp . I clearly see that we are passing the address of temp to head? Is it correct? Or is it saying the address of temp to address of temp ?

#include <stdio.h>
#include <stdlib.h>

struct Node{
  int data;
  struct Node *next;
};
struct Node* head;

void Insert(int x)
{
  struct Node* temp = (struct Node*)malloc(sizeof(struct Node));
  temp->data=x;
  temp->next = head;     <------------------------------- (1)
  head= temp;            <------------------------------- (2) 
}

void Print()
{
  struct Node * temp= head;
  printf("List is: ");
  while(temp != NULL)
  {
    printf("%d  ", temp->data);
    temp= temp->next;
  }
  printf("\n");
}

int main()
{
  head =NULL;

  int n, i, x;

  printf("How many Numbers?: \n");
  scanf("%d", &n);

  for(i= 0; i<n; i++)
  {
    printf("Enter the number: ");
    scanf("%d",&x);
    Insert(x);
    Print();
  }
  return 0;
}
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  • Q2 : address of temp is &temp, value of temp is return value of malloc. head = temp : value of temp set to value of head.
    – BLUEPIXY
    Aug 6, 2014 at 13:46

2 Answers 2

4

Your first question:

You declare a pointer called head:

struct Node* head;

The pointer is an address that points to a value in the memory. When you do:

temp->next = head;

Then you assign the pointer head to temp->next. So it's not the value of head, but the address that points to the value.

You second question:

You first declare a pointer temp and you allocate some memory for it:

struct Node* temp = malloc(sizeof(struct Node));

Then you assign it to head (the head pointer now points to the temp allocated memory):

head= temp;

Both are pointers, so you save the temp pointer in the head pointer. Nothing more. For example: Lets say your head pointer points to address 0001. And your temp pointer points to address 0002. If you do head = temp, then head will point to address 0002.

Example:

struct Node node1;

node1 is not a pointer, so it has the value. If you want to make a pointer out of the value then you need to take the address of node1:

struct Node *node1Pointer = &node1;

The &node1 means, the address of node1.

if now you want the value of node1 and get it from node1Pointer then you have to dereference it:

struct Node node2 = *node1Pointer;

The *nodePointer means, give me the value to which this pointer points to.

Now lets assume you have node1 that has a pointer node1Pointer with address 0001. And you have another node, node2 that has a node2Pointer that points to address 0002.

Consider the following:

 struct Node *tempNodePointer = node2Pointer; 

tempNodePointer points to address 0002

 node2Pointer = node1Pointer;

node2Pointer now points to address 0001

 node1Pointer = 0; 

node1Pointer now points to nothing, nullpointer

 struct Node nodeValue = *node2Pointer;

nodeValue now has the value that was stored at address 0001

 node1Pointer = &nodeValue;

node1Pointer now points to address 0001

This will probably clarify a little better.

I hope it helps you out.

6
  • can you please explain last line of your answer Both are pointers, so you save the temp pointer in the head pointer. Nothing more. so does that means now every thing we had in temp pointer is been copied to head? So where is the allocated temp gone?
    – user3858912
    Aug 6, 2014 at 13:52
  • No, you only copy the address. So its like saying that head gets a new address. But i will try to clarify it with an example.
    – fonZ
    Aug 6, 2014 at 13:54
  • but the i you first answer temp->next is also a pointer to structure Node? Aren't we copying head pointer into temp->next ?
    – user3858912
    Aug 6, 2014 at 13:54
  • @Noobsplzdon't-1 does that clarify your doubts?
    – fonZ
    Aug 6, 2014 at 14:15
  • @fonZ Don't keep adding that cast back. It's harmful. Aug 6, 2014 at 14:54
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your code has a lot of bugs. While working with linked lists,you need to have a START pointer that stores the address of the first node of your list else you won't be able to access the list. As you keep adding nodes to your list,the head node traverses to your last node and it cannot be taken as your starting node. And the answers for your question is already given by @fonZ . I'll suggest you the following code for creating and inserting nodes in a linked list.

void create()
{
    int term,i;
    char ch;
    do
    {
        temp=(struct node *)malloc(sizeof(struct node));
        printf("\nEnter the data : ");
        scanf("%d",&temp->data);
        temp->next=0;
        if(start==0)
        {
            start=temp;
            curr=temp;
        }
        else
        {
            curr->next=temp;
            curr=temp;
        }
        printf("Do you want to create another node?y\\n.. ");
        ch=getche();
    }while(ch!='n');
} 
void insert(int pos,int val)
{
    int count=1;
    temp=(struct node*)malloc(sizeof(struct node));
    temp->next=0;
    temp->data=val;
    if(pos==1)
    {
        if(start==0)
            start=temp;
        else
        {
            temp->next=start;
            start=temp;
        }
    }
    else
    {
        curr=start;
        while(count!=pos)
        {
            prev=curr;
            curr=curr->next;
            count++;
        }
        temp->next=prev->next;
        prev->next=temp;
    }
}

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