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Please, look at the following code that just convert an unsigned int to a string (there may be some unhandled cases but it's not my question), allocating a char array in the heap and returning it, leaving the user the responsibility to free it after the use. Can you explain me why such function (and others similar) do not exist in C standard library? Yes, printf("%s\n", itos(5)) is a memory leak, but this programming pattern is already used and is consider a good practice[1]. IMO, if such functions had existed since the dawn of C we would had little memory leaks more but tons of buffer overflows less!

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

char* itos(unsigned int value)
    int string_l = (value == 0) ? 1 : (int)log10(value) + 1;
    char *string = malloc((string_l + 1) * sizeof(char));
    int residual = value;
    int it;
    for (it = string_l - 1; it >= 0; it--) {
        int digit;
        digit = residual % 10;
        residual = residual / 10;
        string[it] = '0' + digit;
    string[string_l] = '\0';
    return string;

int main(void)
    char* string = itos(534534345);
    printf("%s\n", string);
    return 0;



WTH! Habbie did it!

char *string;
asprintf(&string, "%d", 155);
printf("%s\n", string);

That's the answer! There's still hope in C! :D

Thanks Habbie!

share|improve this question
are you aware of asprintf? It's in GNU libc, FreeBSD, OpenBSD and some others. see – Habbie Sep 30 '10 at 16:50
Your reference to justify small memory leaks as being considered good practice is a description of the getaddrinfo and freeaddrinfo functions. I don't get it. – torak Sep 30 '10 at 17:01
@torak: wait , i'm not justifying memory leaks at all. printf("%s\n", itos(55)); is a memory leak because I want to print the string "55", but I can't free the memory allocated for "55" because I lost the pointer to it. I just wanted to say that getaddrinfo() allocate space that the user have to deallocate explicitly with freeaddrinfo(), and that exactly the way i'd like to operate for such a trivial thing such a conversion int->string, without wasting memory such as declaring char string[MAX_INT_DIGITS] for "1". Read my edit. – ceztko Sep 30 '10 at 18:57
@Habbie: wow! That's exactly what I was looking for! After an hour of googling, I was depressed of just finding references to sprintf(), itoa(), sscanf() regarding integer->string conversion. I'd like to vote your reply as the "accepted solution" but it seems I can't unless you post it as an answer: can you do it please? Thanks – ceztko Sep 30 '10 at 19:41
There's no such function as asprintf in C standard library. The proper way to calculate the size of the required buffer in C is to use snprintf. – AnT Oct 3 '10 at 7:10
up vote 1 down vote accepted

turns out asprintf is what you need :)

share|improve this answer

In my eyes, memory management is up to the caller, not the callee. For instance, when I'm not using the standard malloc() implementation throughout my program I would be very upset about having to find and call the corresponding free(), the upshot is I wouldn't use such a function.

Edit: Your getaddrinfo() example is perfect, they provide both getaddrinfo() and freeaddrinfo(), that's the only way to make sure I'm calling the right free().

share|improve this answer
Just think of what happens type MyObject *obj = new MyObject(); in c++, that's not garbage collected (as of c++98). There's an agreement between you and the constructor. The constructor tells you: "ok, I will allocate, and destructor will deallocate for you, but it's up to you to decide when to do it". Yeah, there's not a single free() like delete, and that's a problem. But strictly speaking about the integer->string conversion, the standard free() perfectly works for char array. – ceztko Sep 30 '10 at 19:17
and it's up to me to decide when I call new MyObject(); so it's me who initiates the allocation, and consequently it should be me who calls delete. – hroptatyr Sep 30 '10 at 19:37
Ok, true. Anyway, Habbie pointed about asprintf() that is exactly what I was looking for, so we can be both happy. :) – ceztko Sep 30 '10 at 19:54

Programming has evolved since it was created - this is simply something that wasn't present since the dawn of C, but has evolved in other languages since. I particularly like the way objective-c handles this by returning a string object which has been autoreleased (meaning it will be automatically freed later on, after the object has gone out of scope). You could implement something similar in C if you wanted to:

  1. create a pool for temporary allocations outside your main loop
  2. allocate from the pool as needed using your own allocation function
  3. periodically free the pool at a shallow level in your call stack (for example once per cycle in your very outer main loop)

Another way to achieve the same thing, but allowing you to use system functions that use malloc to allocate memory:

  1. outside your main loop create a list (initially empty) of 'to-be-freed' objects
  2. write a function called 'autofree' that adds pointers to the list and returns the pointer
  3. whenever you need to use it like this: printf("%s\n", autofree(itos(5)));
  4. each time round your main loop, free all the pointers in the list and empty the list

If you do this in a nice way, you can create multiple such autofree pools and nest them around inner loops that potentially create lots of allocations that you want to be freed sooner rather than back in your main loop.

share|improve this answer

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