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Suppose that in my kernel I have a shared array

__shared__ float a[SIZE];

and that for some reason I would like to access only a member of that array. Like so

float& ref = a[3];

My question is: will the reference variable ref be stored, in the background, as a pointer and thus will it occupy my precious register space? Or, is the compiler smart enough so that whenever I use ref he will automatically replace it with a[3]?

A more elaborate (but still a simplified version of what I have in mind) example of such a situation would be the following:

struct triangle_pool
{
   // Both pointers point to device global memory
   int* indices; // A list of all the indcies of my triangles
   float* areas; // A list of all the areas of my triangles
};

// Resembles the previous structure.
// Only difference is that the variables are stored in shared memory
struct shared_triangle_pool
{
   __shared__ int indices[SIZE];
   __shared__ float areas[SIZE];

   get_triangle(const int& i)
   {
      return triangle_device(indices[i], areas[i]);
   }
};

struct triangle_device
{
   triangle_device(int& ind, float& ar) : _index(ind), _area(ar)
   {   }

   int& index;
   float& area;
};

And inside the kernel:

__global__
void do_something(triangle_pool global_triangles)
{
   shared_triangle_pool shared_triangles;
   // Copy some of the data from global_triangles to shared_triangles
   // Maybe I'll do it in the shared_triangle_pool constructor...
   // ...

   // THIS IS THE TRICKY PART //
   **// Does the variable tri forces the compiler to allocate memory ?**
   triangle_device tri = shared_triangles().get_triangle(threadIdx.x);

   // Now work with variable tri and forget about those nasty arays
}
share|improve this question
1  
Your example code snippets are syntactically wrong on many levels. You can't use __shared__ or any other memory space specifier inside a structure definition in CUDA. You can't ever have uninitialised references in C++. Do you have a concrete, compilable example of whatever it is you are asking about? –  talonmies Aug 7 '12 at 16:43
1  
Replacing ref with a[3] at each occurrence instead of using a register is not necessarily smart. You only want to minimize register usage if the kernel occupancy is register bound and a[3] embeds an extra constant and an add instructions at each occurrence. –  Roger Dahl Aug 7 '12 at 16:48

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