# Linked List Explanation

I am new to C, i am trying to learn linked lists, can some one explain me the code below. I understand some part of it but not all of it.

``````void deletefrombeginning( node **head, node **tail)
{
node *temp;
if(*head==NULL)
return;
temp=*head;
if(*head==*tail)
*head=*tail=NULL;
else
{
(temp->next)->prev=NULL;  <-- there is where i get lost.
*head=temp->next;
}
free(temp);
}
``````
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## 2 Answers

``````(temp->next)->prev=NULL;
``````

This line is making the prev pointer of what will be your new head NULL. So that when the second item in your linked list becomes the new head with:

``````*head = temp->next;
``````

it has no prev pointer and is therefore the new head.

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``````             ------              ------
|      | <--prev--- |      |
NULL <----- | temp |            | node | -----> ...
|      | ---next--> |      |
------              ------
``````

Short answer:

• `(temp->next)->prev=NULL;` makes sure that `node->prev` doesn't access invalid memory.
• `*head=temp->next;` makes `temp` the new head of the list.

Long answer:

• You are currently at `temp`.
• You cannot delete `temp` first because you then would have broken links (what would `node->prev` point to?).
• This means you have to first remove the links related to `temp`.
• Since `temp` is the first node, `temp->prev` should point to `NULL`.
• So `(temp->next)->prev=NULL;` is equivalent to `node->prev = NULL;`.
• We cannot directly do `node->prev = NULL;` because we do not know `node` exists at this point.
• `*head=temp->next` makes sure that the new list head is `node` (in my above ascii demonstration).
• The next step then frees the memory used by `temp`.

Tip: In case you're nitpicky like me, you might want to assign `temp` to `NULL` right after you free it. This makes sure that you can never mistakenly access `temp` in the rest of your code. Memory can still be accessed in error even after freeing it.

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