I think that GCC extension __attribute__((cleanup)) is a good idea, at least for some cases, but i can't figure out how to use it in a good way. All i'm doing looks still really annoying.

I saw a lot of code doing #define _cleanup_(x) __attribute__((cleanup(x)) just to type less, but it there a way to pass there a standard function like free or closedir, fclose, etc?

As I see I can't just write:

__attribute__((cleanup(free))) char *foo = malloc(10);

Because the cleanup callback will receive char** pointer, and I have to always write something like:

static void free_char(char **ptr) { free(*ptr); }
__cleanup__((free_char)) char *foo = malloc(10);

That's pretty annoying, and the most annoying part is to define such cleanup functions for all types you need, because obviously you can't just define it for void **. What is the best way to avoid these things?

  • 7
    I think you've made a pretty good case for saying that __attribute__((cleanup)) is not a good idea. Jan 3, 2016 at 9:28
  • 11
    If you want destructors you know where to find them.
    – Ross Ridge
    Jan 3, 2016 at 9:33
  • 3
    @user3386109, i'd say it IS a good idea, but the realisation is a little bit broken. Or maybe there is something i don't understand, so that's why I'm asking. Jan 3, 2016 at 9:48
  • 2
    @coredump The realization is fine too. That the cleanup function expects a pointer to the variable makes sense, because the variable may not be a pointer itself but a large struct that is better not passed by value (cf. the difference between glib's g_autoptr and g_auto). Having two different attributes just for convenience would needlessly bloat the language extension.
    – dpi
    Jan 23, 2016 at 14:34
  • 2
    @RossRidge: better to have control over it than to worry about the baggage C++ brings to the table. So yes, if we want reasonable, good, non-hidden destructors, we know where to find them: C code under gcc and clang. May 19, 2021 at 15:47

2 Answers 2


You can't write __attribute__((cleanup(free))), but you don't need to write a free cleanup function for each type. It's ugly, but you can write this:

static void cleanup_free(void *p) {
  free(*(void**) p);

I first saw this in the systemd codebase.

For other functions you would in general need to a write a wrapper with an extra level of indirection for use with __attribute__((cleanup)). systemd defines a helper macro for this:

#define DEFINE_TRIVIAL_CLEANUP_FUNC(type, func)             \
    static inline void func##p(type *p) {                   \
            if (*p)                                         \
                    func(*p);                               \
    }                                                       \
    struct __useless_struct_to_allow_trailing_semicolon__

which is used all over the place, e.g.


#define _cleanup_pclose_ __attribute__((cleanup(pclosep)))

There's a library that builds general-purpose smart pointers (unique_ptr and shared_ptr) on top of __attribute__((cleanup)) here: https://github.com/Snaipe/libcsptr

It allows you to write higher-level code like this:

#include <stdio.h>
#include <csptr/smart_ptr.h>
#include <csptr/array.h>

void print_int(void *ptr, void *meta) {
    (void) meta;
    // ptr points to the current element
    // meta points to the array metadata (global to the array), if any.
    printf("%d\n", *(int*) ptr);

int main(void) {
    // Destructors for array types are run on every element of the
    // array before destruction.
    smart int *ints = unique_ptr(int[5], {5, 4, 3, 2, 1}, print_int);
    // ints == {5, 4, 3, 2, 1}

    // Smart arrays are length-aware
    for (size_t i = 0; i < array_length(ints); ++i) {
        ints[i] = i + 1;
    // ints == {1, 2, 3, 4, 5}

    return 0;

As for idiomatic, though? Well the above is certainly close to idiomatic C++. Not C so much. The feature is clearly mainly supported in GCC and Clang because they have C++ compilers as well, so they have the option to make use of the RAII machinery in the C frontend at no extra cost; that doesn't make it a great idea to write C-intended-as-C this way. It kinda relies on a C++ compiler being present despite not actually being used.

If it were me, I'd probably investigate implementing autorelease pools, or something similar that can actually be done in pure C at the language level. Depends how quickly you need your resources to be freed; for memory, you usually can live without immediate cleanup.

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