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Let's say we have two struct types as follows:

struct A {
    int a;

struct B {
    int b;
    int c;

Would it be possible to initialize a flexible-length array to contain instances of both A and B using designated initializers, e.g:

<sometype> my_array[] = {
    ((struct A){ .a = 10, }),
    ((struct B){ .b = 1, .c = 5, }),

And since I need to know the type of elements in the array, a way to put some char before the structs would be nice too. :)

I know this looks terribly broken, but I am trying to pack some bytecode-like data structures together and this looks like an elegant way to define them (well, with the help of some macros at least).

Edit: To clarify a few points:

  • Dynamic allocation is not an option
  • Neither are unions - I want the elements to occupy exactly the space needed by their type
  • "Variable length array" in the question could have been misleading - the exact denomination would be "flexible length array", according to The example code is ideally how I'd like it to look like.

So what I'd basically like is to be able to pack some arbitrary, structured data into a memory area that is allocated in the .data segment of the binary. I do not need random access to elements, just to pack the data from structs - the use of a flexible length array in my example is because this construct seems to be the closest from what I want to achieve. But the declaration could be anything else that does the job (except assembler, I need to retain C portability).

share|improve this question
C doesn't have variable length arrays. – tjameson Nov 22 '12 at 10:09
have yuu tried to use pointer and malloc... – avinashse Nov 22 '12 at 10:12
@tjameson yes it does; see – ecatmur Nov 22 '12 at 10:13
@ecatmur - I guess I read variable length arrays as dynamically resizable arrays or something. Oops... – tjameson Nov 22 '12 at 10:19
Anyway the questioner's code doesn't use VLAs. What C doesn't have is "arrays, not all of whose elements are the same size", and I think that might be what the questioner was hoping for by saying "variable-length array". – Steve Jessop Nov 22 '12 at 10:45

The best way for this would be to use unions. You could define all your types within a union, including this union and the char you wanna you for defining what is the actual type into a struct.

struct TypesAB {
    char type;
    union {
        struct {
            int a;
        } A;
        struct {
            int b;
            int c;
        } B;
enum {

With this struct, you can define your array, and then set the elements.

struct TypesAB array[10];
array[0].type = TypeA;
array[0].A.a = 10;
array[1].type = TypeB;
array[1].B.b = 1;
array[1].B.c = 5;

Note that the memory layout will make you loose some space if your A and B types are not the same length. Indeed, with the above definition, struct TypesAB will be defined with a sizeof large enough to hold the larger of the A or B, plus the char. If you use it as a A, then the memory space that would have been used for the c member is lost. The same memory space is used for the a member of A and the b member of B.

share|improve this answer
Sorry, I should have stated in the question that unions are not an option (exactly because of the loss of space that you mention). I am aware of this solution and am actually trying to do better in terms of memory footprint. Note that I don't need random access to elements, so the difference in size is not a problem. – Gnurou Nov 22 '12 at 12:48
In that case, there's nothing the C compiler can do for you. (In an array, all elements have to be the same size.) You'll have to use a blob of memory (some char []) and to iterate over it: reading the type char, and interpreting the data depending on the type, before finding a new type char, ... – Didier Trosset Nov 22 '12 at 13:41
Yep, I am aware that's how I will have to read that data - and that way of doing is fine. What I'd like to do is construct it in a compact and readable manner from C code. Actually I have an implementation that relies on structs in exactly the same fashion as you describe, I just want to make it more compact. – Gnurou Nov 22 '12 at 14:15
@Gnurou I'm afraid you are out of luck for you want too much: no malloc, no unions, easy syntax (and of course easy handling if possible). There is always need for a compromise - usually size (data packing) vs. speed (simple addressing) vs. readability (convoluted code to read packed data). Have you evaluated these well indeed? – peterph Nov 22 '12 at 14:57
@peterph I did - I am aware that alignment issues might pop up if things are not done properly, but I want to be able to save space when one structure of the sequence if much larger than the others (unions would make all instances of the biggest possible size). I'm surprised there is no elegant way to do that in C... – Gnurou Nov 23 '12 at 4:20

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