Defines the type x and an array X of that type.

x.h:

typedef struct _x {int p, q, r;} x;
extern x X[];

Separate file to keep the huge honking array X.

x.c:

#include "x.h"
x X[] = {/* lotsa stuff */};

Now I want to use X:

main.c:

#include "x.h"

int main()
{
    int i;

    for (i = 0; i < sizeof(X)/sizeof(x); i++) /* error here */
        invert(X[i]);

    return 0;
}

main.c won't compile; the error is:

error: invalid application of ‘sizeof’ to incomplete type ‘struct x[]’

How do I get the size of X without hardcoding it?

  • if x is a struct you usually have to specify sizeof(struct x) – Marshall Tigerus Apr 22 '14 at 21:05
  • 1
    no need to use struct if you typedef – cppguy Apr 22 '14 at 21:06
up vote 14 down vote accepted

In x.h add:

extern size_t x_count;

In x.c add:

size_t x_count = sizeof(X)/sizeof(x);

Then use the variable x_count in your loop.

The division has to be done in the compilation unit that contains the array initializer, so it knows the size of the whole array.

  • I added a little more explanation of why this should work. – Barmar Apr 22 '14 at 21:28
  • 3
    This may solve OP's specific problem, but in general it's deficient since count is still not a constant expression and cannot be used in all places you would use sizeof. Also, int is the wrong type. It should be size_t. – R.. Apr 22 '14 at 21:53
  • 1
    The result of sizeof is a constant expression, for the purposes of initializing a global variable. You're completely right about using size_t however. – M.M Apr 23 '14 at 4:27
  • 1
    Thank you, I used this solution with a wrapper #define XCOUNT x_count for legacy purposes. – Yimin Rong Apr 23 '14 at 13:08
  • 2
    I don't see a problem with declaring x_count as const size_t – PJRobot May 31 '16 at 22:42

If it is possible to place a termination indicator at the end of the array, such as:

x X[] = {/* lotsa stuff */, NULL};

It might be that the number of elements in the array would be irrelevant:

#include "x.h"

int main()
   {
   x *ptr = X;

   while(ptr)
      invert(ptr++);

   return 0;
   }

If the number of elements in the array is needed, the above method can be also be used to count the elements.

Here a solution using compound literals:

in .h

typedef struct _x {int p, q, r} x;

#define LOTSA_STUFF        {1, 2, 3}, {4, 5, 7}
#define LOTSA_STUFF_SIZE  sizeof ((x[]) {LOTSA_STUFF})

extern x X[LOTSA_STUFF_SIZE];

and in .c

x X[LOTSA_STUFF_SIZE] = {LOTSA_STUFF};

For the definition in .c, you can even do better and use a static assert (definition of the STATIC_ASSERT is let as an exercise for the reader ;):

x X[] = {LOTSA_STUFF};

STATIC_ASSERT(sizeof X != LOTSA_STUFF_SIZE, "oops, sizes are not equal");
  • What a cool example. I've never used compound literals and wasn't familiar with the syntax. There is a really good article on Dr. Dobb's for people interested in learning more. – embedded_guy Apr 22 '14 at 22:16
  • Oh... and you are missing an 'F' on your LOTSA_STUF in the fourth line of the .h example. – embedded_guy Apr 22 '14 at 22:18
  • This version still does require having the initial data visible in the header, which I think OP was trying to avoid. – M.M Apr 23 '14 at 4:29
  • @embedded_guy thanks, fixed – ouah Apr 23 '14 at 10:07

If you simply include x.h, the compiler has no idea what the real size of X is. Just by looking at x.h, there is no way to guess. You have to declare X with a size:

extern x X[15];
  • 1
    The whole point of using sizeof(X)/sizeof(x) is so you don't have to hard-code the number of elements, it's sized automatically from the number of elements in the array initializer. – Barmar Apr 22 '14 at 21:16

You can't do that. But you can provide a way to get the size.

In addition to

extern x X[];

Add

extern size_t xArraySize;

or, preferably,

extern size_t xArraySize(void);

in x.h

Define it in x.c.

Change your loop to:

for (i = 0; i < xArraySize(); i++)
    invert(X[i]);
  • Why is the function preferable? – Rick Aug 30 at 15:29
  • @Rick it allows you to hide the details of how the data is stored. – R Sahu Aug 30 at 16:26

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