How will I free the nodes allocated in another function?

struct node {
    int data;
    struct node* next;

struct node* buildList()
    struct node* head = NULL;
    struct node* second = NULL;
    struct node* third = NULL;

    head = malloc(sizeof(struct node));
    second = malloc(sizeof(struct node));
    third = malloc(sizeof(struct node));

    head->data = 1;
    head->next = second;

    second->data = 2;
    second->next = third;

    third->data = 3;
    third->next = NULL;

    return head;

I call the buildList function in the main()

int main()
    struct node* h = buildList();
    printf("The second element is %d\n", h->next->data);
    return 0;

I want to free head, second and third variables.


int main()
    struct node* h = buildList();
    printf("The element is %d\n", h->next->data);  //prints 2

   // struct node* h1 = buildList();
    printf("The element is %d\n", h->next->data);  //print 2 ?? why?
    return 0;

Both prints 2. Shouldn't calling free(h) remove h. If so why is that h->next->data available, if h is free. Ofcourse the 'second' node is not freed. But since head is removed, it should be able to reference the next element. What's the mistake here?

  • Are you having problems in unlinking the elements, or freeing them? If the latter, you call free() with the returned value from malloc(). – vhallac Jun 20 '11 at 20:38
  • possible duplicate of Remove node from single linked list. – Bo Persson Jun 20 '11 at 20:40
  • 3
    free() does not erase the content of the memory, it merely allows those contents to be reused later. The pointer h->next remains valid as a coincidence because the memory you free()'d has not yet been reused. – Heath Hunnicutt Jun 20 '11 at 20:53
  • 2
    @jase21 Well Heath answered to this. It just works when you tried it, but it's not guaranteed that it will work in the future or by another machine. In another machine doing h->next->data could get you a segmentation fault. Ok, let's say you have h having the following data: h->next = 0x12341281; h->data = 1, when you do free(h) you just let know the machine that in a future malloc you can overwrite h, that h is not more used by your program. But the data h->next = 0x12341281; h->data = 1 seem to keep existing, that doesn't mean you should use them. – insumity Jun 20 '11 at 21:07
  • 1
    @jase21 Maybe in a future malloc, where h->next and h->data is saved, something else will be written. And then when doing h->next->data will get you a segmentation fault. – insumity Jun 20 '11 at 21:10

An iterative function to free your list:

void freeList(struct node* head)
   struct node* tmp;

   while (head != NULL)
       tmp = head;
       head = head->next;


What the function is doing is the follow:

  1. check if head is NULL, if yes the list is empty and we just return

  2. Save the head in a tmp variable, and make head point to the next node on your list (this is done in head = head->next

  3. Now we can safely free(tmp) variable, and head just points to the rest of the list, go back to step 1
  • 1
    Just be sure the set the list head pointer to null after passing it to this function. In fact, it's a good idea to set each next pointer of each node to null before freeing the node, too. – David R Tribble Jun 20 '11 at 20:38
  • 1
    @foobar If the data in the node was created using malloc too, would we have to free that BEFORE we freed temp? Like: free(tmp->data); free(tmp); – Robert Cardona Mar 14 '13 at 6:47
  • 3
    @Robert yes exactly! If you free'd tmp first then tmp->data would probably point to garbage and you will get a seg fault. – insumity Mar 14 '13 at 20:30
  • Perhaps it would be better to pass the head pointer by reference and NULL the pointer directly in the FreeList function. So, it would be void freeList(struct node** head){blah; blah; *head = NULL;}. This would avoid the problem that David mentions. – m_a_s Jan 6 '17 at 12:33
  • You all are ignoring that a non NULL head pointer will not break the loop at all. – Dario Rodriguez Jul 9 '18 at 19:35

Simply by iterating over the list:

struct node *n = head;
   struct node *n1 = n;
   n = n->next;

You could always do it recursively like so:

void freeList(struct node* currentNode)
    if(currentNode->next) freeList(currentNode->next);
  • 3
    argg, recursion is nice on paper... but in reality it's memory and CPU demands is very costy compared to simple loops like I or jase21 did. Unwinding the stack is not cheap when you have 1328786 nodes. – elcuco Jun 20 '11 at 20:40
  • 1
    @elcuco I agree actually. In a case like the one the question presents, it'll perform fine, but if you're looking at lists that large, there's no question a loop is going to put you in a better position. – Bradley Swain Jun 20 '11 at 21:02
  • this would be ok in languages that can do tail recursion. and that's not C – Tomáš Nesrovnal Dec 9 '15 at 8:13
  • This code is not tail recursive. (It s doing something after the recursion) And cannot benefit from tail recursion optimization – HAL9000 Jul 4 '19 at 12:01

One function can do the job,

void free_list(node *pHead)
    node *pNode = pHead, *pNext;

    while (NULL != pNode)
        pNext = pNode->next;
        pNode = pNext;


Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy