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In my code, I need to deal with one of two structs that share almost all of the members, but their offsets can only be determined at runtime. Something like:

struct type1 {int a, char b[8], int c};
struct type2 {int a, char b[16], int c};

There's nothing I can do about the layout of these structs, because it's dictated by hardware.

So every time I want to access a member I would need to do something like:

void foo(void *data)
     if (is_type1)
         ((struct type1 *)(data))->c = 5;
         ((struct type2 *)(data))->c = 5;

And that is not very elegant.

I was wondering if there is some recipe for a more elegant handling of this situation, besides hiding all this ugliness in macros, which is the solution I will resort to in absence of a better one.


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This code looks good. Why do you think that this approach of yours is not very elegant? –  Aditya Kumar Jul 30 '11 at 8:20
It becomes a lot less elegant if he has to add a type3 :) –  gnud Jul 30 '11 at 8:25
Makes you wish for polymorphism... –  Sam Dufel Jul 30 '11 at 8:28
What do you want? ... maybe, assigning memory alignment is one way to solve your problem? –  Stan Jul 30 '11 at 8:28
these two structures end up the same on many architectures :) –  unkulunkulu Jul 30 '11 at 8:46
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2 Answers

If you can't change the order, I would join them into the same struct as a union:

struct type12 { union { struct type1 type1; struct type2 type2; } types; int type; };

void foo(struct type12 *data)
    if (data->type == 1)
         data->types.type1.c = 5
         data->types.type2.c = 5;

Perhaps not a big improvement, but you can avoid the type casts...

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In practice though, the type field should always be first. –  Jeff Mercado Jul 30 '11 at 8:25
I had it first, at first. Then placed it last so that it still maps a void * onto the type1/type2 data... –  Kaos Jul 30 '11 at 10:57
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Move the shared members into a seperate struct, and use that as the first member of the two types. This has the advantage that you don't have to test types (or even care about them) in order to read/write the shared data.

#include <stdio.h>      
struct shared_data {
  int a;
  int c;
struct type1 {
  struct shared_data shared;
  char b[2];
struct type2 {
  struct shared_data shared;
  char b[4];

void foo(void *data)
     ((struct shared_data*)(data))->c = 5;

int main(int argc, char** argv) {
    struct type1 a;
    struct type2 b;


    printf("A: %d\nB: %d\n", a.shared.c, b.shared.c);


A: 5
B: 5
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I'm guessing that since it's based on hardware, the order of the members in the struct matter. –  Jim Buck Jul 30 '11 at 8:35
The order of the members in the struct shared_data doesn't matter. The struct shared_data is first in all the types using it. You don't have to have it first, you can use offsetof to find it, but then you have to switch based on type again. –  gnud Jul 30 '11 at 8:41
I'm saying that on the specific hardware he's using ("nothing I can do about the layout of these structs, because it's dictated by hardware"), those structs might map to memory layouts of the hardware (think embedded systems). –  Jim Buck Jul 30 '11 at 9:05
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