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I am trying to pass a pointer to an array of structs as a template argument. I managed to do it after a while:

struct something{};

constexpr const something single;
constexpr const something array[12];
template<const something* arg> void f() {}

template<typename T>
constexpr T* workaround(T* v){
    return v;
};

void bind(){
    f<&single>();                       //OK
    f<array>();                         //NO
    f<&array>();                        //NO
    f<&array[0]>();                     //NO
    f<workaround(array)>();             //NO
    f<(const something*)array>();       //OK
}

Is this one of the rare cases where an array cannot be transparently used as a pointer, or is it a compiler bug?

share|improve this question
    
Have you tried pointers to arrays? – Pubby Nov 27 '12 at 2:07
    
FWIW, Apple clang v4.1 (clang v3.1) won't compile most of this. For starters, it rejects default initialization of single and array because something doesn't have a user-defined default constructor. And when I altered it so they are initialized (i.e constexpr const Elem single {}) it rejects ALL of your variations of calling f reporting: "candidate template ignored: invalid explicitly-specified argument for template parameter 'arg'" – imaginaryboy Nov 27 '12 at 3:24

I actually believe the simplest form of the call, f<array>();, does work if only you declare-define array correctly:

struct Elem
{ };

constexpr const Elem array[5] { {} , {} , {} , {} , {} };

template<const Elem* arg> void f()
{ }

int main()
{
  f<array>();
  return 0;
}

The only thing I changed (apart from reducing the array from 12 to 5 elements) is to add an initializer for array.

(This compiles for me, using GCC 4.7.2.)

share|improve this answer
    
why does initialization matter here? – Lorenzo Pistone Nov 27 '12 at 3:06
    
@LorenzoPistone Since array is a constant expression, the compiler needs its definition when evaluating the template. The definition is provided by the initialization. The missing initialization was the only thing GCC seemed to be confused about. – jogojapan Nov 27 '12 at 3:08
    
but then f<(const something*)array>() shouldn't have worked. – Lorenzo Pistone Nov 27 '12 at 3:11
    
@LorenzoPistone True. And actually, my previous comment is not quite logical. The actual values of the array entries (provided by initialization) shouldn't be necessary. I can't explain why it's important to GCC, but then, I wonder how are you ever going to assign values to the constexpr array of const objects, if not by initialization? – jogojapan Nov 27 '12 at 3:24

Fooling around with this with Apple clang v4.1, I've arrived at the below code which compiles. I have to admit I don't know if it's correct of Clang to insist on external linkage for single and array. Also, based it on jogojapan's modifications for no particular reason.

struct Elem {};

extern const Elem single;
extern const Elem array[3];

constexpr const Elem single {};
constexpr const Elem array[3] {{},{},{}};

template<const Elem* arg> void f()
{ }

int main()
{
    f<&single>();
    f<array>();
    return 0;
}

FWIW, I arrived at this shot in the dark after stumbling across this: http://lists.apple.com/archives/xcode-users/2006/Jun/msg00799.html

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