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i am in the process of learning linked lists, and i dont understand the behavior change when freeing a string. Here is the code:

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

struct node {
    char*          data;
    struct node*   next;
    };

void Push(struct node** headRef, char *data)
{
    struct node* newNode = malloc(sizeof(struct node));
    newNode->data = data;
    newNode->next = *headRef;  // The '*' to dereferences back to the real head
    *headRef = newNode;        // ditto
}

int main(int argc, const char * argv[])
{

    char* auxStr;
    struct node* list;
    struct node* auxPtr;
    int i=5;


    while (i<9)
    {
        auxStr=malloc(sizeof("String:%d"));
        sprintf(auxStr, "String:%d",i);
        Push(&list, auxStr);
        i++;
    }

    auxPtr=list;

    i=0;
    while (auxPtr)
    {
        printf("Node:%d - Data:%s\n",i++,auxPtr->data);
        auxPtr=auxPtr->next;
    }

    return 0;
}

That results in:

Node:0 - Data:String:8
Node:1 - Data:String:7
Node:2 - Data:String:6
Node:3 - Data:String:5

now, when i add free(auxStr) in the first while:

while (i<9)
{
    auxStr=malloc(sizeof("String:%d"));
    sprintf(auxStr, "String:%d",i);
    Push(&list, auxStr);
    free(auxStr);
    i++;
}

i now get:

Node:0 - Data:String:8
Node:1 - Data:String:8
Node:2 - Data:String:8
Node:3 - Data:String:8

Can someone explain why ? i know it may not be the most efficient code freeing in there multiple times, but i saw this behavio and it is puzzling me. Would appreciate your help to help me understand the concept better.

Thanks

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Note that the buffer malloc(sizeof("String:%d")) will be too small for sprintf() when your integer becomes >= 100. –  Niklas R Feb 3 '13 at 9:25

4 Answers 4

You are getting undefined behavior.

You are freeing a memory (auxPtr) but you still happen to have a pointer to it - as the data in the relevant node. That is called a dangling reference.

What happens with this data is undefined, and it happens to be reusing the same address for each new allocation (but again, anything can happen).

Thus, when later printing the data - the output is undefined.

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if i use an array instead: char auxStr[20]; and get rid of the malloc and free, i still get the same wrong result. Why is it the same situation ? –  jelipito Feb 3 '13 at 9:20
    
@jelipito Not sure I am following, do you mean you will use an array in main() and send it to the linked list? The result will then be perfectly defined - but again wrong, the data in all nodes will have the value assigned to the last node in this case. You should consider dynamically allocate a string per node, or replace the char* in each node to a char[SIZE] (in the later beware of buffer overflow) –  amit Feb 3 '13 at 9:22
    
yes, ok, got the array one. The other that i don't understand is that going back to the original code posted, why does it work fine ? when i call malloc several times for auxStr does it actually creates different pointers everytime ? –  jelipito Feb 3 '13 at 9:27
    
@jelipito It may reuse already freed memory (which seems to be the case), and since you copied the address of the string to data - after freeing that address you cannot access the same address again (you can, but that will result in undefined behavior). When you later read the data, you access addresses that were already released, and the result is undefined. In practice, you keep getting the same address, which is a valid behavior for the memory allocator - because you already freed that memory.\ –  amit Feb 3 '13 at 10:12
    
thanks, any links that you recommend for learning dynamic allocation ?. –  jelipito Feb 3 '13 at 10:33

You aren't copying the data string by strncpy - instead you are simply assigning pointer to the same string that you free later

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As indicated here acessing a poitner after you free it is undefined behavior.

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Each of your data in struct node points on the same address. When freeing auxPtr, you are accessing to a memory location which is not allocated anymore. In C, it leads to an undefined behavior. It could be a better idea to dynamically allocate your data, as follow.

#include <assert.h>
#include <stdlib.h>
#include <string.h>

void Push(struct node **head, const char *data, size_t size)
{
  struct node *elt;

  elt = malloc(sizeof *elt);
  assert(elt != NULL);

  elt->data = malloc(size);
  assert(elt->data != NULL);
  memcpy(elt->data, data, size);

  elt->next = *head;
  *head = elt;
}

Moreover, there is no null pointer in your list. You should allocate list first.

share|improve this answer
    
Hm.. It would be interesting as why they point to the same location, which is not covered in your answer. I think because malloc() returns the same address which was just freed bofere, again, but that's just a guess. –  Niklas R Feb 3 '13 at 9:30

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