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Why some struct uses a single element array, such as follows:

typedef struct Bitmapset
 int nwords;
 uint32 words[1];
} Bitmapset;

To make it convenient for latter dynamic allocation?

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up vote 13 down vote accepted

In a word, yes.

Basically, the C99 way to do it is:

uint32 words[];

Some pre-C99 compilers let you get away with:

uint32 words[0];

But the way to guarantee it to work across all compilers is:

uint32 words[1];

And then, no matter how it's declared, you can allocate the object with:

Bitmapset *allocate(int n)
    Bitmapset *p = malloc(offsetof(Bitmapset, words) + n * sizeof(p->words[0]));
    p->nwords = n;
    return p;

Though for best results you should use size_t instead of int.

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Thanks. So will this tricky allocation has a problem for the struct padding thing, say if the passed n is an odd number? – Oxdeadbeef Dec 30 '10 at 3:28
@Oxdeadbeef - Yes, I suppose. You won't really store an array of them in contiguous memory. If you wanted an array of them you'd probably be better off using Bitmapset *a[20] = { NULL }; or Bitmapset **a = malloc(20 * sizeof *a);. – Chris Lutz Dec 30 '10 at 6:23
The syntax offsetof(Bitmapset, words[n]) is an extension (which happens to be supported by most compilers). For strict compliance, use offsetof(Bitmapset, words) + n*sizeof(p->words[0]). – Jed Mar 24 '12 at 16:29
@Jed - I didn't know that, though I should have guessed. Fixed. – Chris Lutz Mar 24 '12 at 16:57
@ChrisLutz: Is there anything in the standard that would forbid a compiler from optimizing p->words[i] as p->words[0], since the former only has defined behavior in the case where the allocated memory exists for the array element, and the subscript is less than the size of the array (i.e. is zero)? I suspect even compilers which might normally optimize single-item array accesses will refrain from doing so if the array is the last item in an indirectly-accessed structure, but is there anything in the standard which would forbid it (or justify code's assumption that compilers won't do it)? – supercat Mar 26 '12 at 20:51

This is usually to allow idiomatic access to variable-sized struct instances. Considering your example, at runtime, you may have a Bitmapset that is laid out in memory like this:

| nwords   |  3 |
| words[0] | 10 |
| words[1] | 20 |
| words[2] | 30 |

So you end up with a runtime-variable number of uint32 "hanging off" the end of your struct, but accessible as if they're defined inline in the struct. This is basically (ab)using the fact that C does no runtime array-bounds checking to allow you to write code like:

for (int i = 0; i < myset.nwords; i++) {
  printf("%d\n", myset.words[i]);
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thanks. but what's the advantage over using uint32 *words? – Oxdeadbeef Dec 30 '10 at 3:00
Wouldn't work the same way. If you did that, then words[2] would say "follow the pointer located in the 'words' field of the struct, then go 2*8==16 bytes further and access the memory there." You'd have to (e.g.,) malloc() a separate memory region to contain the words array in the heap, and this could affect performance and ease-of-use. – Will Robinson Dec 30 '10 at 3:29

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