This isn't the nicest way of doing it, but since you're asking: The return type of the template function `ArraySizeHelper`

is `char[N]`

, where the argument of the function is a (reference to an) array of size N of type `T`

. Template argument deduction instantiates this template with the matching number N, and so `sizeof(char[N])`

is just N, which is what you get.

A nicer version could be written as follows. (You need C++0x for `constexpr`

; if you omit it, this will not be a constant expression.)

```
template <typename T, size_t N> constexpr size_t array_size(const T (&)[N]) { return N; }
```

Usage:

```
int x[20];
array_size(x); // == 20
```

**Update:** If you are in C++0x, here is another solution that gives a constexpr, thanks to decltype:

```
#include <type_traits>
template <typename T> struct array_traits;
template <typename T, unsigned int N> struct array_traits<T[N]>
{
static const unsigned int size = N;
typedef std::decay<T>::type type;
};
// Usage:
int x[20];
array_traits<decltype(x)>::size; // == 20
```

`std::extent`

instead of this ugly macro? – Gene Bushuyev Jun 16 '11 at 18:39