I came across this snippet

template <typename T, size_t N>  
char (&ArraySizeHelper(T (&array)[N]))[N];  
#define arraysize(array) (sizeof(ArraySizeHelper(array))) 

in this article http://software.intel.com/en-us/articles/pvs-studio-vs-chromium/

I've seen other templates to do the same thing, like this one

Use templates to get an array's size and end address

and I understand those, but I've been having difficulty with this one.

Any help would be appreciated.


The function template is named ArraySizeHelper, for a function that takes one argument, a reference to a T [N], and returns a reference to a char [N].

The macro passes your object (let's say it's X obj[M]) as the argument. The compiler infers that T == X and N == M. So it declares a function with a return type of char (&)[M]. The macro then wraps this return value with sizeof, so it's really doing sizeof(char [M]), which is M.

If you give it a non-array type (e.g. a T *), then the template parameter inference will fail.

As @Alf points out below, the advantage of this hybrid template-macro system over the alternative template-only approach is that this gives you a compile-time constant.

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    I'll just add about the purpose, namely to get the array size as a compile time constant (which in turn can be used to specify the size of a raw array). As I recall it was a Russian who first came up with this variation. Unfortunately I don't recall the name. – Cheers and hth. - Alf Jun 16 '11 at 17:35
  • So, I take it, that the function is declared but not defined? The syntax is hard for me to parse. – John Jun 16 '11 at 17:37
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    @Alf this is 2004, pretty early: blogs.msdn.com/b/the1/archive/2004/05/07/128242.aspx – Johannes Schaub - litb Jun 16 '11 at 17:58
  • Thanks, I think it was the syntax for returning char (&)[M] that was throwing me. C/C++ array syntax is awful. – BigSandwich Jun 16 '11 at 18:23
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    @Gene Bushuyev: Basically that you can use this code in any compiler that follows the 98 standard, but you cannot use your approach unless the compiler implements C++0x features (at the very least decltype and the extent type trait. – David Rodríguez - dribeas Jun 16 '11 at 18:48

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; }


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
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    so out of curiosity, what do you feel the nicest way of doing it is? – jalf Jun 16 '11 at 17:35
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    @Jalf: Updated. No compiler macros! – Kerrek SB Jun 16 '11 at 17:39
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    Trouble with that is that it's not constexpr, unlike the macro. – Puppy Jun 16 '11 at 17:41
  • @DeadMG: True. Could we somehow wrap this in a way that doesn't need macros? More importantly, do the two compute different assembler output? – Kerrek SB Jun 16 '11 at 17:43
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    Just put constexpr before your first function template, and array_size(x) will be a constant expression too in C++0x. – Johannes Schaub - litb Jun 16 '11 at 19:26

This blog on MSDN precisely describes how it works. Very interesting story. Take a look at it.

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