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NODE* insertNode (NODE* head, NODE* pre, DATA item)
//Local Declaration
NODE* curr;

if (!(curr = (NODE*)malloc(sizeof(NODE)))
    printf("\amemory overflow in insert\n");

curr->data = item;
if (pre == NULL)
   //inserting before first node or to empty list
   curr->next = head;
   head = curr;
   //inserting in middle or at the end
   curr->next = pre->next;
   pre->next = curr;

return head;

this is how I insert node in the middle of an existing list according to the book that I'm reading. But, it doesn't really show me how pre is defined here(pre is pointing to the predecessor node.) How do I define pre pointer so that it points to predecessor node?

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This doesn't have enough context to be a full question. –  Richard J. Ross III Mar 23 '13 at 20:11
I think if curr and next are in a linked list, then pre already points to the now-previous node. –  user529758 Mar 23 '13 at 20:12
Can you post the whole code of your linked list? –  Bharat Mar 23 '13 at 20:12
only a double-linked list has a pre... –  akira Mar 23 '13 at 20:13
@RichardJ.RossIII Here's the whole code –  More Code Mar 23 '13 at 20:22

1 Answer 1

This link is, IMHO, the master introduction to linked lists.

What the book is illustrating is the "3 step link"...

Suppose {a,b,c} are structs/nodes such that a ==> b ==> c ==> NULL

Then to insert NEW immediately after a you first link: NEW ==> b (this first, because if you reset a's pointer first, you will have serious trouble getting to b!

Then link a to NEW like... a ==> NEW ... so we have a ==> NEW ==> b ==> c ==> NULL

To do this, the nodes must have pointers in them... something like:

struct node{
  int i;
  struct node* next; // this is the value that will be changed

As you can see, the precise definition of the node doesn't matter, as long as it contains a pointer to another node.

curr points to the current node... so to get "previous", you could create a complimentary pointer to another node, as I assume NODE* pre is in your question.

But it is unnecessary, really, because just using the -> operator is much simpler than having several pointers. You can use it to point to other nodes just as well.

So, for my {a,b,c} example, assume a, b and c are all unique struct nodes, connected as shown before.

struct node* curr = a;   // a pointer to the head of the list
struct node NEW = malloc(sizeof(struct node)); // make a new node

NEW->next = curr->next;  // set NEW's next to point to b through `curr->next`
/* note that defining previous isn't necessary, b/c it is defined @ curr->next */
curr->next = NEW;        // set curr (a) to point to NEW instead of b

Just remember to set curr before the nodes you need to work with in a singly-linked list.

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Thanks for a great link –  More Code Mar 23 '13 at 20:24
@ProgrammingNerd Once you get into the swing of things, check out the problems. There are some good ones! Also, I made my example a bit more thorough. –  d0rmLife Mar 23 '13 at 21:01

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