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DISCLAIMER: This question is about a general concept. I've "dumbed down" the question so that I can ask it here clearly - without needing to provide the entire context of it's actual application. I can already foresee a bunch of comments like "why would you ever do that?" But, if the question could just be taken at face value, I'd appreciate it!

Suppose you wanted to dynamically synthesize some data structures in C at runtime out of some pre-defined structs.

The best way I know how to ask this question is through a code sample.

In the following, we've defined two structs: Foo and Bar. I also define a struct FooBar to illustrate at least one difference between the compile-time generated composite type and the runtime generated "dynamically synthesized" type.

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

typedef struct Foo {
    char junk1;
    char junk2;
} Foo;

typedef struct Bar {
    int junk3;
    int junk4;
} Bar;

typedef struct FooBar {
    Foo foo;
    Bar bar;
} FooBar;

int main()
    printf("Sizes: %li, %li, %li\n", sizeof(Foo), sizeof(Bar), sizeof(FooBar));
    // Prints: Sizes: 2, 8, 12
    // Because Foo is aligned on 1-byte boundaries and has total size of 2 bytes.
    // Bar is aligned on 4-byte boundaries and has total size of 8 bytes.
    // But FooBar is aligned on 4-byte boundaries due to the ints in Foo. Therefore,
    // the compiler added 2-bytes of padding after the foo member.

    // The following "works", but only allocates 10 bytes, and
    // "Bar" members are now "misaligned":
    void * syntheticFooBar = malloc(sizeof(Foo) + sizeof(Bar));
    ((Foo*)syntheticFooBar)->junk1 = 1;
    ((Foo*)syntheticFooBar)->junk2 = 2;
    ((Bar*)(syntheticFooBar + sizeof(Foo)))->junk3 = 3;
    ((Bar*)(syntheticFooBar + sizeof(Foo)))->junk4 = 4;

    return 0;

So my questions would be:

1.) How badly would the lack of proper data alignment affect performance? Given the overhead involved with accessing "members" of the synthetic structures, is data-alignment even a significant contributing factor?

2.) Is there a better way of doing this given the constraints of run-time synthesis?

share|improve this question
you can always associate a type marker for structs that you want to do this with and embed them within each other. Let's say foo extends bar then there would be a struct bar inside a struct foo. And some use of the containerof macro can get you these extensions. – Jesus Ramos Aug 16 '13 at 3:31
Are you trying to avoid adding padding? – Vaughn Cato Aug 16 '13 at 3:36
@VaughnCato - No, I am not trying to avoid adding the padding - and if there were a way to calculate and add the padding on the fly somehow (and if that would be significant, performance-wise), I'd happily do so. – Steve Aug 16 '13 at 3:37
You have to make sure that each member has the proper alignment. In your example, you would see that Bar has a 4-byte alignment (for example), so you would add two extra bytes between Foo and Bar in your synthesized struct. – Vaughn Cato Aug 16 '13 at 3:56
That depends entirely on processor. x86 will probably be okay (though I can't recall if that's true of double, which tends to be the most constrained type), but there are definitely processors where you'll get a memory bus fault if alignment isn't correct. The main fact is this code has unspecified behavior under the C Standard. You'll never be sure that some future system change won't cause your code to core dump. I'd run away from this idea hard and fast. – Gene Aug 16 '13 at 4:15

1 Answer 1

up vote 1 down vote accepted

1.) How badly would the lack of proper data alignment affect performance? Given the overhead involved with accessing "members" of the synthetic structures, is data-alignment even a significant contributing factor?

This is entirely dependent on the CPU architecture and compiler. On some systems you may just have a performance penalty, but on others you could get a crash.

2.) Is there a better way of doing this given the constraints of run-time synthesis?

Here's an example of how you might create a properly aligned synthesized struct at runtime:

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

typedef struct {
  char junk1;
  char junk2;
} A;

typedef struct {
  int junk3;
  int junk4;
} B;

typedef struct {
  double junk5;
  char junk6;
} C;

static size_t roundUp(size_t value,size_t factor)
  return value+factor-1-((value+factor-1)%factor);

#define alignof(type) (sizeof(struct {type a;char b;})-sizeof(type))

int main(int argc,char **argv)
  size_t offsets[3];
  size_t pos = 0;

  pos = roundUp(pos,alignof(A));
  offsets[0] = pos;
  pos += sizeof(A);

  pos = roundUp(pos,alignof(B));
  offsets[1] = pos;
  pos += sizeof(B);

  pos = roundUp(pos,alignof(C));
  offsets[2] = pos;
  pos += sizeof(C);

    char *foobar = malloc(pos);
    A *a = (A *)(foobar + offsets[0]);
    B *b = (B *)(foobar + offsets[1]);
    C *c = (C *)(foobar + offsets[2]);
    a->junk1 = 1;
    a->junk2 = 2;
    b->junk3 = 3;
    b->junk4 = 4;
    c->junk5 = 5;
    c->junk6 = 6;
  return 0;

The alignment of a particular struct is determined by creating a struct with the original struct and an extra char. The compiler will automatically add enough padding to make sure that the necessary alignment is preserved if you were to use an array of these structs, so by measuring the difference in sizes, we get the proper alignment.

Using the alignment information, we can create a table of where each member of the synthesized struct should live relative to the beginning. We just have to make sure that the position of each member has the proper alignment by rounding the position up to the nearest multiple of the alignment.

You should be able to generalize this to any number of members.

Note that if you wanted to determine the overall size if your synthesized struct (what sizeof() might return), so that you could create an array of these synthesized structs, then you need to get the combined alignment requirement and roundUp the final pos to that factor. The combined alignment will be the least common multiple of the individual alignments.

share|improve this answer
Nice. Would you mind adding to your answer the information in the comments to the question (that misaligned data will crash on some architectures) before I mark it as accepted? – Steve Aug 16 '13 at 5:56
@Steve: I've updated my answer. – Vaughn Cato Aug 16 '13 at 14:08
Thanks! Accepted. – Steve Aug 16 '13 at 17:17
Are you sure there isn't an error in your calculation for the offsets? I'm getting much larger numbers than seem right. – Steve Aug 16 '13 at 18:49
Something doesn't seem right. If you reorder it: C, A, B, then your size and the compiler don't agree. – Steve Aug 16 '13 at 18:53

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