# Result of 'sizeof' on array of structs in C?

In C, I have an array of structs defined like:

``````struct D
{
char *a;
char *b;
char *c;
};

static struct D a[] = {
{
"1a",
"1b",
"1c"
},
{
"2a",
"2b",
"2c"
}
};
``````

I would like to determine the number of elements in the array, but `sizeof(a)` returns an incorrect result: 48, not 2. Am I doing something wrong, or is `sizeof` simply unreliable here? If it matters I'm compiling with GCC 4.4.

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See stackoverflow.com/questions/1598773/… for an answer that includes some hacks to make the techniques posted below safer. – Michael Burr Dec 14 '09 at 8:23

## 3 Answers

``````sizeof a / sizeof a[0];
``````

This is a compile-time constant, so you can use it to, for example, create another array:

``````#define N sizeof a / sizeof a[0];
int n_a[N];
``````
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In this case, if sizeof(a) is 48, sizeof(a[0]) == 24. That makes each char * take up 8 bytes. sizeof(char *) is probably either 4 or 8, depending on 32-bit/64-bit, but compilers will word align struct members, so each element ends up taking 8 bytes. – jmanning2k Dec 22 '09 at 20:24
Yes, but the nice thing is, the division gives the correct size whether there's padding or not, or whatever be the size of the `struct`. – Alok Singhal Dec 22 '09 at 23:34

`sizeof` gives you the size in bytes, not the number of elements. As Alok says, to get the number of elements, divide the size in bytes of the array by the size in bytes of one element. The correct C idiom is:

``````sizeof a / sizeof a[0]
``````
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+1 for giving a better explanation. – San Jacinto Dec 14 '09 at 2:45
An alternative, just-as-idiomatic version is `sizeof a / sizeof *a` – caf Dec 14 '09 at 2:47

`sizeof` returns the size in memory of the passed element. By dividing the size of an array by a single element size, you get the elements count.

Note that the element size may include some padding bytes as well. For this reason, a padded struct (e.g. when a char member is followed by a pointer) will have a `sizeof` value greater than it members size sum.

On the other hand, don't let it bother you when counting elements in an array: `sizeof(a) / sizeof(a[0])` will still work as smooth as expected.

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