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A usual way to target different floating point precisions (float / double) is either by typedefs

typedef float Real;
//typedef double Real;

or by using templates

template<typename Real>
...

This is convenient, but anyone has ideas how to use the CUDA types float2/float3/... and make_float2/make_float3/... ? Sure, I could make #defines or typedefs for all of them but that seems not very elegant.

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I'm not sure what are you trying to ask. typedef float2 Complex; works. –  JackOLantern Jul 24 '13 at 11:11
    
float2 and float3 quantities don't affect floating point precision. They are vector types. I suggest you clarify your question. –  Robert Crovella Jul 24 '13 at 12:14
    
Exactly, if you also like to enhance precision you could use double2, for example, instead of float2. –  JackOLantern Jul 24 '13 at 12:31

1 Answer 1

up vote 5 down vote accepted

You can implement helper class that will concatenate type and channels number:

template <typename T, int cn> struct MakeVec;
template <> struct MakeVec<float, 3>
{
    typedef float3 type;
};
template <> struct MakeVec<double, 3>
{
    typedef double3 type;
};
// and so on for all combination of T and cn

Usage:

template <typename T>
void func()
{
    typedef typename MakeVec<T, 4>::type vec4_type;
    vec4_type vec4; // for T=float it will be float4, for T=double it will be double4
}

You can find implementation here

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+1 code like this is very common in CUDA generic libraries... –  harrism Jul 25 '13 at 4:09

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