I wrote the following toy program and observed that the second variable test2 will take the memory address released by the first variable test1. And even if I free(test1), test2 will retain test1's fields values. I wonder how to clean up the data left behind by free() in C:

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

typedef struct test_str
    char name[128];
    int Id;
} test_str;

typedef test_str* mytest;

int main()

    mytest test1 = malloc(sizeof(test_str));
    printf("test1 pointer address is %p \n", test1);
    strcpy(test1->name, "hello world");
    test1->Id = 10;

//  test1->name = NULL;   /* this does not work */
//  test1->Id = 0;        /* without resetting Id = 0, test2->Id will show 10 */
    test1 = NULL;         

    mytest test2 = malloc(sizeof(test_str));
    printf("test2 pointer address is %p, name field is %s, Id = %d \n", test2, test2->name, test2->Id);

    return 0;

this is the output:

test1 pointer address is 0x2401010
test2 pointer address is 0x2401010, name field is hello world, Id = 10

  • 1
    If you really want to do this for some reason, just overwrite the data with zeroes before you free() it.
    – Crowman
    Commented Apr 24, 2014 at 22:59
  • You can always use memset.
    – Linuxios
    Commented Apr 24, 2014 at 22:59
  • 1
    This doesn't really matter, since a correct program will assume the memory contents are unpredictable and never even try to read that storage before writing into it.
    – aschepler
    Commented Apr 24, 2014 at 23:01
  • 1
    freeing memory means you give up all rights to it. Memory isn't "destroyed". You have free'd everything you malloc'd, so you're fine. Whatever's left behind doesn't need to be "cleaned". Commented Apr 24, 2014 at 23:01
  • do you have to set the struct fields to NULL (or whatever appropriate) before doing free() on it?
    – TonyW
    Commented Apr 24, 2014 at 23:13

6 Answers 6


If your data is that sensitive, use platform calls to pin the memory and use a non-elidable call to some memset-variant to clear before free.

When you give memory back to the runtime, it is free to use it for the next fitting request. Whether and when it does so, or if it gives the memory back to a possible OS, is not mandated by the standard.

Aside: void free(void*) {} is a valid implementation of free.

  • is it fair to say ...is a valid (but useless) implementation of...?
    – ryyker
    Commented Apr 24, 2014 at 23:33
  • @ryyker It is fair to say it's a severly sub-par implementation for most programs. If that's what you want to say. Commented Apr 24, 2014 at 23:36

As the comments have mentioned, just use memset before free.

memset(test1, 0, sizeof(*test1));
  • 1
    @Deduplicator - Are you using a stamp?
    – ryyker
    Commented Apr 24, 2014 at 23:12
  • @ryyker: No stamp, not even C&P. It's just that this comment was right for so many posts coming in just then. Commented Apr 24, 2014 at 23:20
  • @Deduplicator - Asked purely tongue in cheek. You defended it well enough :)
    – ryyker
    Commented Apr 24, 2014 at 23:24

There is hardly any good reason on earth why one would want to do this...

Nevertheless, adding test1->name[0]=0 before free(test1) should do the job.

If you want to remove "all trace" of the previous text, then you can even do:

for (int i=0; test1->name[i]!=0; i++)
  • @Deduplicator: What "is not guaranteed"? Commented Apr 24, 2014 at 23:06
  • The compiler is free to optimize the loop by removing it. Commented Apr 24, 2014 at 23:07
  • 1
    @Deduplicator: "observable behavior"? What's not "observable" about setting a non-zero value to zero? Commented Apr 24, 2014 at 23:10
  • 1
    @barakmanos - No, it was just a bad place to use emphasis :) Simply suggesting memset (but don't tell Deduplicator)
    – ryyker
    Commented Apr 24, 2014 at 23:15
  • 2
    @barakmanos: It does not change the observable behavior of the program as the standard defines it in the named section, which means it can be optimised away. This is the "as if"-rule. Commented Apr 24, 2014 at 23:19

free() does not clear memory in sense of zeroing it – it just makes it available for reuse – and that is exactly what happened here. If your intent is to have alocated memory initialized, consider using calloc().


You can use memset(test1, 0, sizeof(test_str)) just before freeing, this will simply fills the allocated memory area with 0.

malloc algorithm actually works by keeping meta data for each memory block it creates. So if you allocate / free / re-allocate the same size just after, you will probably use the exact same memory block, which explains why the new address is the same.

  • The compiler is free o optimize that call by removing it. Commented Apr 24, 2014 at 23:08
  • Only if the compiler can determine for sure that this removing has no side effects, so this is valid a lot of C instructions. Sorry, but the "is not guaranteed" because of some optimizations is irrelevant here
    – Ervadac
    Commented Apr 24, 2014 at 23:10
  • The memset has no observable behavior according to the standard, because you call free directly afterwards. Commented Apr 24, 2014 at 23:11
  • Please, the section of the standard defines the behavior of a C program, and because your call is not observable behavior as the standard defines it, it explicitly can be optimised away. Commented Apr 24, 2014 at 23:17
  • 1
    @Deduplicator: Nevertheless, given that practically all modern systems provide the C standard library as a shared library, and that library can be updated long after your program is compiled, the compiler is simply unable to deduce that there are no visible side effects, here, and hence cannot optimize it away. says clearly that the compiler has to be able to deduce that a called function also does not cause such side-effects.
    – Crowman
    Commented Apr 24, 2014 at 23:35

Generally, C functions don't do anything other than what they're supposed to. malloc and free simply allocate and free memory - nothing more. This means that they don't null-out any fields.

When creating a struct, a general technique is to clean up any relevant fields. In fact, consider writing a function that encapsulates struct creation, like so:

mytest create_struct(char* name, int id) {
    mytest t = malloc(sizeof(test_str));
    size_t nlen = strlen(name);
    memcpy(t->name, name, nlen <= 127 ? nlen : 127);
    t->name[127] = '\0';

    t->Id = id;
    return t;

If you'd like, you can also consider defining a corresponding deletion function.

void del_struct(mytest t) {
    if (t) {
        memset(t->name, 0, 128);
        t->Id = 0;

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