vectorwrapper/test/unit/sample_vectors.hpp

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#ifndef id050D92FF58A04FCBB4ACD5FB1C73071F
#define id050D92FF58A04FCBB4ACD5FB1C73071F
#include "vectorwrapper/vectorwrapper.hpp"
#include <cstdint>
#include <cstddef>
#include <ciso646>
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namespace vwr {
struct SimpleVector2 {
float x;
float y;
};
struct SimpleVector3 {
float x;
float y;
float z;
};
struct IntVector1 {
int64_t x;
};
struct IntVector2 {
int64_t x;
int64_t y;
};
struct IntVector3 {
int64_t x;
int64_t y;
int64_t z;
};
struct MixedDataVector3 {
float s;
float x;
float x1;
float y;
float y1;
float z;
float z1;
};
struct PaddedVector3 {
float a;
float b;
float x;
float y;
float z;
int c, d;
};
struct TrailingDataVector3 {
float X;
float Y;
float Z;
int a, b;
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};
template <>
struct VectorWrapperInfo<float> {
enum { dimensions = 1 };
typedef float vector_type;
typedef float scalar_type;
typedef SimpleVector2 higher_vector_type;
static scalar_type& get_at (std::size_t, vector_type& parVector) {
return parVector;
}
};
template <>
struct VectorWrapperInfo<SimpleVector2> {
enum { dimensions = 2 };
typedef float scalar_type;
typedef SimpleVector3 higher_vector_type;
typedef float lower_vector_type;
enum {
offset_x = offsetof(SimpleVector2, x),
offset_y = offsetof(SimpleVector2, y)
};
};
template <>
struct VectorWrapperInfo<SimpleVector3> {
enum { dimensions = 3 };
typedef float scalar_type;
typedef SimpleVector2 lower_vector_type;
enum {
offset_x = offsetof(SimpleVector3, x),
offset_y = offsetof(SimpleVector3, y),
offset_z = offsetof(SimpleVector3, z)
};
};
template <>
struct VectorWrapperInfo<IntVector1> {
enum { dimensions = 1 };
typedef decltype(IntVector1::x) scalar_type;
typedef IntVector2 higher_vector_type;
enum {
offset_x = offsetof(IntVector1, x)
};
};
template <>
struct VectorWrapperInfo<IntVector2> {
enum { dimensions = 2 };
typedef VectorWrapperInfo<IntVector1>::scalar_type scalar_type;
typedef IntVector1 lower_vector_type;
typedef IntVector3 higher_vector_type;
enum {
offset_x = offsetof(IntVector2, x),
offset_y = offsetof(IntVector2, y)
};
};
template <>
struct VectorWrapperInfo<IntVector3> {
enum { dimensions = 3 };
typedef VectorWrapperInfo<IntVector1>::scalar_type scalar_type;
typedef IntVector2 lower_vector_type;
enum {
offset_x = offsetof(IntVector3, x),
offset_y = offsetof(IntVector3, y),
offset_z = offsetof(IntVector3, z)
};
};
template <>
struct VectorWrapperInfo<MixedDataVector3> {
enum { dimensions = 3 };
typedef float scalar_type;
enum {
offset_x = offsetof(MixedDataVector3, x),
offset_y = offsetof(MixedDataVector3, y),
offset_z = offsetof(MixedDataVector3, z)
};
};
template <>
struct VectorWrapperInfo<PaddedVector3> {
enum { dimensions = 3 };
typedef float scalar_type;
enum {
offset_x = offsetof(PaddedVector3, x),
offset_y = offsetof(PaddedVector3, y),
offset_z = offsetof(PaddedVector3, z)
};
};
template <>
struct VectorWrapperInfo<TrailingDataVector3> {
enum {
dimensions = 3,
cast_ignore_trailing_properties = 1
};
typedef float scalar_type;
enum {
offset_x = offsetof(TrailingDataVector3, X),
offset_y = offsetof(TrailingDataVector3, Y),
offset_z = offsetof(TrailingDataVector3, Z)
};
};
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typedef Vec<float> svec1;
typedef Vec<SimpleVector2> svec2;
typedef Vec<SimpleVector3> svec3;
typedef Vec<IntVector1> ivec1;
typedef Vec<IntVector2> ivec2;
typedef Vec<IntVector3> ivec3;
typedef Vec<MixedDataVector3> mvec3;
typedef Vec<PaddedVector3> pvec3;
typedef Vec<TrailingDataVector3> tvec3;
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static_assert(sizeof(svec1) == sizeof(float), "Wrong size");
static_assert(sizeof(svec2) == sizeof(SimpleVector2), "Wrong size");
static_assert(sizeof(svec3) == sizeof(SimpleVector3), "Wrong size");
static_assert(sizeof(ivec1) == sizeof(IntVector1), "Wrong size");
static_assert(sizeof(ivec2) == sizeof(IntVector2), "Wrong size");
static_assert(sizeof(ivec3) == sizeof(IntVector3), "Wrong size");
static_assert(sizeof(mvec3) == sizeof(MixedDataVector3), "Wrong size");
static_assert(sizeof(pvec3) == sizeof(PaddedVector3), "Wrong size");
static_assert(svec1::is_interleaved_mem == 2, "Maybe interleaved data was expected");
static_assert(svec2::is_interleaved_mem == 0, "Non-interleaved data was expected");
static_assert(svec3::is_interleaved_mem == 0, "Non-interleaved data was expected");
static_assert(ivec1::is_interleaved_mem == 0, "Non-interleaved data was expected");
static_assert(ivec2::is_interleaved_mem == 0, "Non-interleaved data was expected");
static_assert(ivec3::is_interleaved_mem == 0, "Non-interleaved data was expected");
static_assert(mvec3::is_interleaved_mem == 1, "Interleaved data was expected");
static_assert(pvec3::is_interleaved_mem == 0, "Interleaved data was expected");
static_assert(tvec3::is_interleaved_mem == 0, "Non-interleaved data was expected");
//Vector Wrapper debug assertions
static_assert(not implem::HasOffsetXEnum<VectorWrapperInfo<float>>::value, "Should return false");
static_assert(implem::HasOffsetXEnum<VectorWrapperInfo<SimpleVector2>>::value, "Should return true");
static_assert(implem::have_compat_offsets<SimpleVector3, PaddedVector3>::value, "Should be true");
static_assert(implem::have_compat_layout<SimpleVector3, PaddedVector3>::value, "Should be true");
static_assert(implem::is_vec<pvec3>::value, "Should be true");
static_assert(implem::is_vec<svec3>::value, "Should be true");
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} //namespace vwr
#endif