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Following is the implementation of a stack struct in C. I need to write a function (not a method) to dispose off an existing stack and ofcourse free any memory allocated for it on the heap. the dispose (stack *s) function takes in a pointer to a stack that is to be disposed off.

typedef struct {
    int allocatedLength;
    int logicalLength;
    int elementSize;
    void *elems;
} stack;

If I implement the dispose() function as follows, will it lead to some memory never being freed?

void dispose (stack *s) {
    free (s->elems);
}

In the above implementation, I am only freeing the memory allocated to elems, which is not even on the heap. We need to remember that elems is a pointer to something. Shouldn't we be freeing that something, instead of freeing the memory allocated to the pointer?

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3 Answers 3

up vote 1 down vote accepted

You misunderstand: free(p) does not free the memory for p, but the memory for *p -- that is, the memory pointed to by p. Thus, you are correctly freeing the allocated memory to which you stored a pointer in s->elems, and all is well.

Feel free to blame everyone who talks about "freeing a pointer" for this misnomer, when really they should be saying "freeing the memory to which I have a pointer".

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What you will free all depends on if you will allocate the struct stack dynamically or not. If you don't allocate it dynamically, you only need to free (the dynamically allocated memory) that elems is pointing to. Which is exactly what you are doing with free (s->elems);

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If you are allocating memory for the struct stack, then free() should be for struct only. Not for the member of it. Here is a sample program which allocates memory for whole struct. free() should be done to structure pointer s.

If free (s->elems); is uncommented and free (s); is commented, the printf prints the assigned data. struct's memory will not be freed and leads to memory leak.

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

typedef struct {
    int allocatedLength;
    int logicalLength;
    int elementSize;
    void *elems;
} stack;


void dispose (stack *s) {
    //free (s->elems); 
    free (s);
}

int main()
{

 stack *p = malloc(sizeof(stack));

 if(p == NULL)
    {
            printf("\n Memory Allocation Error\n");
            return 0;
    }

  p->allocatedLength = 10;
  p->logicalLength = 20;
  p->elementSize = 30;

  dispose(p);

  /* This printf is undefined behaviour if stack's ptr is freed. If the elem only freed, then it prints data */
  printf("\n allocatedLength: %d\nlogicalLength:%d\nelementSize:%d", p->allocatedLength, p->logicalLength, p->elementSize);


return 0;
}
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