The question has already some good answers, for example the second one. However there is a lack of explanation so I would like to extend the sample and explain it:
Using template and template parameters and in this case None-Type Template parameters makes it possible to get the size of a fixed array with any type.
Assume you have such a function template:
template<typename T, int S>
int getSizeOfArray(T (&arr)[S]) {
return S;
}
The template is clearly for any type(here T) and a fixed integer(S).
The function as you see takes a reference to an array of S objects of type T, as you know in C++ you cannot pass arrays to functions by value but by reference so the function has to take a reference.
Now if u use it like this:
int i_arr[] = { 3, 8, 90, -1 };
std::cout << "number f elements in Array: " << getSizeOfArray(i_arr) << std::endl;
The compiler will implicitly instantiate the template function and detect the arguments, so the S here is 4
which is returned and printed to output.