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I have a question, if I wish to delete a node from linked list and I do this : Assume: Head points to first node.

   deleteFirstNode(struct node * head)
   struct node* temp=head;//this line

1) will this delete first node?

2) If so, when I free head , will it not free temp pointer too? because both temp and head point to same location in this line (see comment in "this line" in code). If both above are true, how will I retain retain pointer to beginning of the list. ? Thank you very much.

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5 Answers 5

up vote 1 down vote accepted

You want to delete the node that head points to; you have several problems:

1) you pass in a copy of the head pointer - the function is unable to change the original head pointer the function was called with, so the last line of the function, head=temp does nothing really. When the function returns whatever you had pointing to the first node on the list will now be pointing to freed memory. In effect, you have lost the list.

2) when you're grabbing head->next->data you're not getting the data item you want because head->next has been overwritten.

3) free(head) will also free temp since it points to the same thing as head. temp is kind of pointless.

Some notes in the code:

deleteFirstNode(struct node * head)
    struct node* temp=head;

    temp->next=head->next->next;  // note: this overwrites head->next
    temp->data=head->next->data;  //       so this gets what used to be
                                  //         head->next->next->data

    free(head);     // this frees `temp` (which is an alias for `head`)
                    //      - so whats the point of `temp`?

    head=temp;      // this is pointless in more ways than one

So here's a proposed (untested) alternate version of deleteFirstNode():

deleteFirstNode(struct node ** head)
    struct node* temp = *head;      // temp points to the node we want to free
    struct node* next = temp->next; // next points to what will be the new
                                    //  first node


You will have to call the function by passing in a pointer to the head pointer:

struct node* head_pointer;

// ...


Another thing to consider:

  • if your head pointer is NULL, deleteFirstNode() will not work. You should make it handle that case.
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that was really helpful, can you please evaluate my final solution below. Thank you. Will it work? – David Prun Mar 21 '12 at 6:29

i would pass a double pointer and do something on these lines

deleteFirstNode(struct node ** head) {
  struct node* temp= *head;
  *head = temp->next;
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Hello Keety, I am not sure of pointer to pointer, can you please evaluate my answer below, I thank you for support. – David Prun Mar 21 '12 at 6:33

will this delete first node?


If so, when I free head , will it not free temp pointer too? because both temp and head point to same location in this line (see comment in "this line" in code).

Yes, it will free the memory pointed by temp too as both head and temp are pointing to same memory. Pointer head will be pointing to an invalid memory location after this method is executed.

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Hello Asha, then how can I still retain reference to starting node of the list. – David Prun Mar 21 '12 at 5:45
@Ranjan: for example, you return a pointer to the head->next before you delete it, that will point to the "new head" after the deletion. – vsz Mar 21 '12 at 5:50
@vsz, if I have a return statement, then how will it execute free statement? – David Prun Mar 21 '12 at 5:53
Pointer head will be pointing to an invalid memory location it points to a valid memory location just that it does not belong to you and hence you cannot assume the contents of that address are valid. – Alok Save Mar 21 '12 at 5:59
@Ranjan: you will return only at the end, after you called free(). You actually have to return your temp variable, because this is your new head. You'll need to set temp = head->next; after that, you free the head, after that you return the temp. – vsz Mar 21 '12 at 6:09

Yes you have two pointers pointing to the same address.
So deallocating memory by calling free() on either of them will free the pointed memory.

For understanding Link lists always draw them on piece of paper.

-------------      ------------       ----------- 
|           |      |          |       |         |
|   head    |----->|  first   |------>| second  | 
|           |      |          |       |         |
-------------      ------------       -----------    

Steps you need to do are:

Isolate first.
Make head point to Second.
free first.

temp = head->next; //temp now points to first
head = temp->next; //head now points to second
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If so, how will I get the pointer to beginning of the list? – David Prun Mar 21 '12 at 6:04
@Ranjan: The intent of the deleteFirstNode() as the name suggests is to delete the first node. i.e: The node pointed by the head. Ideally, to do this, You will have to make head point to the node which is after the first node, and then delete first node.The idea is to have the link list intact and the node to be removed must first be isolated from the list and then freeing it. – Alok Save Mar 21 '12 at 6:10
Can you please evaluate my answer below. Thank you for your effort. It helped . – David Prun Mar 21 '12 at 6:29

From your suggestions above here is my final code to delete first node and return pointer to head node (which will be second node in list).

 struct node* freeFirstNode(struct node* head)
 struct node* temp;
 temp=head//edited after expert's comment
 temp->next=head->next;//please confirm if this is valid and not Bad pointer.
 free(head);//how will I fix this? it will free temp too.
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temp points to nothing in particular (it's never initialized), so temp->next and temp->data are invalid expressions, and return(temp) will return garbage if you ever get that far. – Michael Burr Mar 21 '12 at 6:28
@MichaelBurr, thank you , can you please fix my final code, that is all I have in my mind. – David Prun Mar 21 '12 at 6:33
You're trying to do too much - just set temp = head->next. Now temp points to the 'future' head node, and you can free(head) then return temp. The caller of the function will need to take care that they replace their idea of the list head with the returned value. I'm not a great fan of this particular idiom (, but at least it can work. – Michael Burr Mar 21 '12 at 6:37
@MichaelBurr, finally.. ! you gave me the Answer, I learned something today, temp=head->next is fix for temp=head. Great thank you. – David Prun Mar 21 '12 at 6:47
No, in the current form (temp = head;) it's not good. If you want to return the new head (which was head->next), you should use temp=head->next; However, it would be better if you tried to understand the inner workings of your list, for example, just draw the elements and draw arrows where the next is pointing. An alternative would be to use an "empty-headed list", where the head itself does not carry information, and the first element comes after the head. Look at the answer by Als for an example. – vsz Mar 21 '12 at 7:11

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