8

I think that hiding definition of structure makes the code safer as you enforce with the help of compiler that no member of the structure can be accessed directly. The downside is that users cannot declare variables of the structure type on stack because the size of the structure is not known, while sometimes it's desirable to avoid using malloc(). This can be (with a part-success) solved with alloca(3) which is present in all major libc implementations, although this function doesn't conform to POSIX. Given this little pros and cons, can such design generally considered good?

In lib.h:

struct foo;
extern size_t foo_size;
int foo_get_bar (struct foo *);

In lib.c:

struct foo {
  int bar;
};

size_t foo_size = sizeof foo;

int foo_get_bar (struct foo *foo)
{
  return foo->bar;
}

In example.c:

#include "lib.h"

int bar(void) {
  struct foo *foo = alloca (foo_size);
  foo_init (foo);
  return foo_get_bar (foo);
}

UPD: Updated the question, stating is explicitly that the idea of using alloca() is to be able to declare structure on stack yet hiding its definition.

  • 4
    The more common choice is to use something like foo_create and foo_destroy, which means you don't expose any details of your structure, and can do more advanced things like storing internally malloc'd pointers. There's precious few situations where you actually want to use alloca, other than perhaps embedded systems where malloc and friends are super limited. – Richard J. Ross III Dec 15 '15 at 22:21
  • 2
    If the struct is opaque it would be bad design to have client code needing to allocate or declare any variables of that type as shown in the example. All instances of the struct should come from the library itself. – kaylum Dec 15 '15 at 22:28
  • 3
    VLA[] allowed? (C99)? Declaring a character array of foo_size (using alignas) may work. Yet , in gerneral, agree with @kaylum – chux - Reinstate Monica Dec 15 '15 at 22:31
  • @chqrlie, yes I saw that soon after I posted my comment, then deleted the comment before your response arrived here. – John Bollinger Dec 15 '15 at 22:38
  • 2
    Once you get a candidate solution that meets you goals, clean it up, simplify it and try posting on codereview.stackexchange.com for additional feedback. Be prepared for some strong feedback. – chux - Reinstate Monica Dec 15 '15 at 23:19
3

Yes it is good practice to hide data.

Alternate to alloca(foo_size); is to declare an aligned character array and perform pointer conversion.

The pointer conversion is not fully portable though.

The character array needs to be a VLA if the size needs to be a variable and not a compile time constant.

extern size_t size;

struct sfoo;

#include <stddef.h>

int main(void) {
   unsigned char _Alignas (max_align_t) cptr[size];
   // or unsigned char _Alignas (_Complex  long double) cptr[size];  // some widest type
   struct sfoo *sfooptr = (struct sfoo *) cptr;

If VLAs are not desired/available, declare the size as a constant like #define foo_N 100 that is certain to be at least as much as needed.

  • This idea is interesting, but hardly qualifies as good practice. – chqrlie Dec 15 '15 at 22:58
  • @chqrlie Should you detail the not good practice concerns, perhaps we can address them. "hardly qualifies as good practice." is akin to an OP saying "code does not work". – chux - Reinstate Monica Dec 15 '15 at 23:02
  • what is good practice is probably opinion based. If the price to pay for hiding the implementation is this hard to read VLA contraption, I personally think it is not worth the trouble. What you are proposing is a hack to allow stack allocation, are you going to hide it with a macro? Could that be considered good practice? – chqrlie Dec 15 '15 at 23:11
2

Function bar invokes undefined behavior: the structure pointed to by foo is uninitialized.

If you are going to hide the structure details, provide a foo_create() that allocates one and initializes it and foo_finalize that releases any resources and frees it.

What you are proposing could be made to work, but is error prone and not a general solution.

  • Fixed the code. As I stated if foo_create() is used, then it's impossible to allocate memory on stack which is sometimes desirable. – Alexander Solovets Dec 15 '15 at 22:39
  • @AlexanderSolovets In practice, this is usually undesirable. Allowing objects to be allocated and torn down on the stack isn't great; it means you can't do any cleanup on the instance. – duskwuff -inactive- Dec 15 '15 at 22:40
  • If you want to keep the use of alloca you can have a foo_init function to initialize it. As chux mentioned in the comments you'd also need the alignment of the struct, so it's just a lot easier for the user to call foo_create and not worry about any of that. – Kevin Dec 15 '15 at 22:41
  • @AlexanderSolovets, you asked "Can such a design generally be considered good?" The answer is "no". If you had instead asked "Is it ever a good idea to implement the following pattern?" then perhaps the answer would be different. It would also, however, be much more a matter of opinion, and as such, probably not appropriate for SO. – John Bollinger Dec 15 '15 at 22:41
  • @chqrlie Except the possibility to overflow stack what are the possible errors? – Alexander Solovets Dec 15 '15 at 22:53

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