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When I do something like this:

int my_array[5] = {1, 2, 3, 4, 5};
for (int &x : my_array) {
    x *= 2;
}

C++11 obviously knows that my array only has 5 elements. Is this information stored somewhere in the my_array object?

If so, is there any good reason why it is not made available to me as a developer (or is it?!?!?)? It seems that a lot of the world's problems would be solved if C++ devs always knew the bounds of the arrays they're dealing with.

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3 Answers 3

up vote 10 down vote accepted

This is simply something that the language requires to work, and the compiler must implement. Obviously the complete type of my_array is int[5] (i.e. the size is part of the type), so this information is readily available.

Contrary to popular belief, there is no use of the free std::begin()/std::end() functions in play, although those would naively seem to be able to do the trick (but there's a catch involving ADL that would break this approach).

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Ok. So is there any particular reason why a my_array.size does not exist? –  MrFox Nov 13 '12 at 20:30
5  
@suslik: Sure, because arrays are not class types and thus cannot have member functions. But you can trivially write an array_size free function template that produces the desired value, or use the readily-made std::extent. –  Kerrek SB Nov 13 '12 at 20:30
    
How did I live my life not knowing about this for so long... I blame std::vector :). –  MrFox Nov 13 '12 at 20:53
3  
@suslik: Because std::extent is new C++11 stuff too. Those mechanics (the type of arrays being part of the type) aren't new, so std::extent could always have been written. They just didn't until recently. –  Nicol Bolas Nov 14 '12 at 0:01

It is available - you can define begin and end on arrays in standard C++. The size of the array is encoded in the type.

The general method is to use references to arrays.

Here's an example size function:

template<typename T, size_t N>
size_t array_size(T (& const)[N])
{
    return N;
}
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5  
This is also known as std::extent. And std::begin and std::end are already defined for arrays in the standard library. –  Kerrek SB Nov 13 '12 at 20:32

No, it's not part of the object. But it's part of the type. That's what the 5 in the array declaration is. However, this won't work:

void f(int arr[5]) {
    for(int& x: arr) {
        // whatever
    }
}

because the name of the array here decays into a pointer to its first element, that is, the argument declaration is equivalent to int *arr which has no size information.

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2  
I wouldn't use the term 'decay' in this instance. I think that term is usually specific to the implicit conversion done to an array variable in many expressions. int a[5]; a + 1; // decay Instead I like to refer to what happens here with the term 'adjust' as that's the word the standard uses. void foo(int a[5]); // type 'adjustment': equivalent to void foo(int *a). And I like to use a sarcastic tone when I say the word. –  bames53 Nov 13 '12 at 20:50
    
This would work though. void f(int (&arr)[5]){ ... } –  balki Feb 4 '13 at 10:01

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