An incomplete array type is a reference to the location where the first item of an array would have been allocated, but does not actually allocate space for that item. On some older C compilers, one could get a similar effect by declaring an array of size zero, although doing so has never been legal in any "official" version of the C standard. The primary use for such declarations is for structures which will be allocated using malloc, calloc, or other similar mechanism; the code which allocates space for the struct will allocate enough extra space to handle the desired number of array items.
Before incomplete array declarations became legal in C, a common workaround was to declare an array of size 1, and then subtract one from the number of elements to be appended to the struct. For example:
void test(char *new_name, int new_name_length)
MYSTRUCT *ms = malloc(sizeof(MYSTRUCT)+new_name_length-1);
memcpy(ms->name, new_name, new_name_length);
This approach had a couple of icky aspects, however:
- There's no guarantee that the formula used wouldn't allocate unnecessary extra space. For example, if sizeof(int)==4, sizeof(mystruct) might get padded out to 20 bytes because of int-alignment requirements. If name_length is four, the total size allocated should be 24 bytes, but the malloc would ask for 27.
- Because the maximum legal subscript for an array is the smaller of the dimensioned size or the allocated space, accessing `ms->name[i]` for any value of `i` other than zero would technically be undefined behavior. It would thus be perfectly legal for a compiler optimize `ms->name[i]` as `ms->name`. In practice, I wouldn't be surprised if every published C compiler in existence would refrain from performing that optimization when subscripting a single-element array at the end of an indirectly-accessed struct (because whether or not the common implementation of the 'struct hack' is legal, a lot of production code uses it.
If C compilers had simply not included code to reject zero-size arrays, and the standard had specified that the maximum subscript value for any array is (unsigned int)(size-1), the struct hack would have been much cleaner. Unfortunately, the standard wasn't written that way.