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OK, I'm not entirely a newbie, but I cannot say I understand the following macro. The most confusing part is the division with value cast to size_t: what on earth does that accomplish? Especially, since I see a negation operator, which, as far as I know, might result in a zero value. Does not this mean that it can lead to a division-by-zero error? (By the way, the macro is correct and works beautifully.)

#define ARRAYSIZE(a) \
  ((sizeof(a) / sizeof(*(a))) / \
  static_cast<size_t>(!(sizeof(a) % sizeof(*(a)))))
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is this the whole thing? what's #endif for? – Nick Dandoulakis Oct 31 '10 at 17:29
up vote 9 down vote accepted

The first part (sizeof(a) / sizeof(*(a))) is fairly straightforward; it's dividing the size of the entire array (assuming you pass the macro an object of array type, and not a pointer), by the size of the first element. This gives the number of elements in the array.

The second part is not so straightforward. I think the potential division-by-zero is intentional; it will lead to a compile-time error if, for whatever reason, the size of the array is not an integer multiple of one of its elements. In other words, it's some kind of compile-time sanity check.

However, I can't see under what circumstances this could occur... As people have suggested in comments below, it will catch some misuse (like using ARRAYSIZE() on a pointer). It won't catch all errors like this, though.

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I think it's there to catch an occasional misuse of the macro, like calling it on a pointer rather than an array. Unfortunately, it doesn't catch things like calling it on a pointer to an object that's the same size as the pointer. – John Calsbeek Oct 31 '10 at 17:27
The main circumstance I can think of is when a is a pointer, to something whose size isn't a factor of sizeof (a). So most classes, you'd expect, but you won't get the desired division-by-zero if a is a char*. There are better ways to write an ARRAYSIZE helper in C++ so as to get a warning/error when it's used with a pointer. And this is C++ only, not dual-use C++ and C, because of the static_cast. – Steve Jessop Oct 31 '10 at 17:29

The division at the end seems to be an attempt at detecting a non-array argument (e.g. pointer).

It fails to detect that for, for example, char*, but would work for T* where sizeof(T) is greater than the size of a pointer.

In C++, one usually prefers the following function template:

typedef ptrdiff_t Size;

template< class Type, Size n >
Size countOf( Type (&)[n] ) { return n; }

This function template can't be instantiated with pointer argument, only array. In C++11 it can alternatively be expressed in terms of std::begin and std::end, which automagically lets it work also for standard containers with random access iterators.

Limitations: doesn't work for array of local type in C++03, and doesn't yield compile time size.

For compile time size you can instead do like

template< Size n > struct Sizer { char elems[n]; };

template< class Type, size n >
Sizer<n> countOf_( Type (&)[n] );

#define COUNT_OF( a ) sizeof( countOf_( a ).elems )

Disclaimer: all code untouched by compiler's hands.

But in general, just use the first function template, countOf.

Cheers & hth.

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suppose we have

T arr[42];

ARRAYSIZE(arr) will expand to (rougly)

sizeof (arr) / sizeof(*arr) / !(sizeof(arr) % sizeof(*arr))

which in this case gives 42/!0 which is 42

If for some reason sizeof array is not divisible by sizeof its element, division by zero will occur. When can it happen? For example when you pass a dynamically allocated array instead of a static one!

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It does lead to a division-by-zero error (intentionally). The way that this macro works is it divides the size of the array in bytes by the size of a single array element in bytes. So if you have an array of int values, where an int is 4 bytes (on most 32-bit machines), an array of 4 int values would be 16 bytes.

So when you call this macro on such an array, it does sizeof(array) / sizeof(*array). And since 16 / 4 = 4, it returns that there are 4 elements in the array.

Note: *array dereferences the first element of the array and is equivalent to array[0].

The second division does modulo-division (gets the remainder of the division), and since any non-zero value is considered "true", using the ! operator would cause a division by zero if the remainder of the division is non-zero (and similarly, division by 1 otherwise).

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The div-by-zero may be trying to catch alignment errors caused by whatever reason. Like if, with some compiler settings, the size of an array element were 3 but the compiler would round it to 4 for faster array access, then an array of 4 entries would have the size of 16 and !(16/3) would go to zero, giving division-by-zero at compile time. Yet, I don't know of any compiler doing like that, and it may be against the specification of C++ for sizeof to return a size that differs from the size of that type in an array..

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I wrote this version of this macro. Consider the older version:

#include <sys/stat.h>
#define ARRAYSIZE(a) (sizeof(a) / sizeof(*(a)))

int main(int argc, char *argv[]) {
  struct stat stats[32];
  std::cout << "sizeof stats = " << (sizeof stats) << "\n";
  std::cout << "sizeof *stats = " << (sizeof *stats) << "\n";
  std::cout << "ARRAYSIZE=" << ARRAYSIZE(stats) << "\n";


void foo(struct stat stats[32]) {
  std::cout << "sizeof stats = " << (sizeof stats) << "\n";
  std::cout << "sizeof *stats = " << (sizeof *stats) << "\n";
  std::cout << "ARRAYSIZE=" << ARRAYSIZE(stats) << "\n";

On a 64-bit machine, this code produces this output:

sizeof stats = 4608
sizeof *stats = 144
sizeof stats = 8
sizeof *stats = 144

What's going on? How did the ARRAYSIZE go from 32 to zero? Well, the problem is the function parameter is actually a pointer, even though it looks like an array. So inside of foo, "sizeof(stats)" is 8 bytes, and "sizeof(*stats)" is still 144.

With the new macro:

#define ARRAYSIZE(a) \
  ((sizeof(a) / sizeof(*(a))) / \
  static_cast<size_t>(!(sizeof(a) % sizeof(*(a)))))

When sizeof(a) is not a multiple of sizeof(* (a)), the % is not zero, which the ! inverts, and then the static_cast evaluates to zero, causing a compile-time division by zero. So to the extent possible in a macro, this weird division catches the problem at compile-time.

ps In C++11, just use std::size, see

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Coming late to the party here...

Google's C++ codebase has IMHO the definitive C++ implementation of the arraysize() macro, which includes several wrinkles that aren't considered here.

I cannot improve upon the source, which has clear and complete comments.

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