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SPIRV-Cross/reference/shaders-msl/comp/shared-matrix-nested-struct-array.comp

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MSL: Use a wrapper type for matrices in workgroup storage. The standard `matrix` type in MSL lacked a constructor in the `threadgroup` AS. This means that it was impossible to declare a `threadgroup` variable that contains a matrix. This appears to have been an oversight that was corrected in macOS 13/Xcode 14 beta 4. This workaround continues to be required, however, for older systems. To avoid changing interfaces unnecessarily (which shouldn't be a problem regardless because the old and new types take up the same amount of storage), only do this for structs if the struct is positively identified as being used for workgroup storage. I'm entirely aware this is inconsistent with the way packed matrices are handled. One of them should be changed to match the other. Not sure which one. Fixes 23 CTS tests under `dEQP-VK.memory_model.shared`.
2022-08-05 08:16:45 +00:00
#pragma clang diagnostic ignored "-Wmissing-prototypes"
#pragma clang diagnostic ignored "-Wmissing-braces"
#include <metal_stdlib>
#include <simd/simd.h>
using namespace metal;
template<typename T, size_t Num>
struct spvUnsafeArray
{
T elements[Num ? Num : 1];
thread T& operator [] (size_t pos) thread
{
return elements[pos];
}
constexpr const thread T& operator [] (size_t pos) const thread
{
return elements[pos];
}
device T& operator [] (size_t pos) device
{
return elements[pos];
}
constexpr const device T& operator [] (size_t pos) const device
{
return elements[pos];
}
constexpr const constant T& operator [] (size_t pos) const constant
{
return elements[pos];
}
threadgroup T& operator [] (size_t pos) threadgroup
{
return elements[pos];
}
constexpr const threadgroup T& operator [] (size_t pos) const threadgroup
{
return elements[pos];
}
};
template<typename T, int Cols, int Rows=Cols>
struct spvStorageMatrix
{
vec<T, Rows> columns[Cols];
spvStorageMatrix() thread = default;
thread spvStorageMatrix& operator=(initializer_list<vec<T, Rows>> cols) thread
{
size_t i;
thread vec<T, Rows>* col;
for (i = 0, col = cols.begin(); i < Cols; ++i, ++col)
columns[i] = *col;
return *this;
}
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const thread matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const thread spvStorageMatrix& m) thread = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const constant matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const constant spvStorageMatrix& m) thread = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const device matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const device spvStorageMatrix& m) thread = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const threadgroup matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const threadgroup spvStorageMatrix& m) thread = default;
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const threadgroup_imageblock matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const threadgroup_imageblock spvStorageMatrix& m) thread = default;
#endif
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const ray_data matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const ray_data spvStorageMatrix& m) thread = default;
#endif
#ifdef __HAVE_MESH__
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) thread = default;
thread spvStorageMatrix& operator=(const object_data matrix<T, Cols, Rows>& m) thread
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
thread spvStorageMatrix& operator=(const object_data spvStorageMatrix& m) thread = default;
#endif
operator matrix<T, Cols, Rows>() const thread
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const thread
{
return columns[idx];
}
thread vec<T, Rows>& operator[](size_t idx) thread
{
return columns[idx];
}
spvStorageMatrix() constant = default;
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) constant = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) constant = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) constant = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) constant = default;
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) constant = default;
#endif
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) constant = default;
#endif
#ifdef __HAVE_MESH__
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) constant
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) constant = default;
#endif
operator matrix<T, Cols, Rows>() const constant
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const constant
{
return columns[idx];
}
spvStorageMatrix() device = default;
device spvStorageMatrix& operator=(initializer_list<vec<T, Rows>> cols) device
{
size_t i;
thread vec<T, Rows>* col;
for (i = 0, col = cols.begin(); i < Cols; ++i, ++col)
columns[i] = *col;
return *this;
}
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const thread matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const thread spvStorageMatrix& m) device = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const constant matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const constant spvStorageMatrix& m) device = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const device matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const device spvStorageMatrix& m) device = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const threadgroup matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const threadgroup spvStorageMatrix& m) device = default;
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const threadgroup_imageblock matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const threadgroup_imageblock spvStorageMatrix& m) device = default;
#endif
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const ray_data matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const ray_data spvStorageMatrix& m) device = default;
#endif
#ifdef __HAVE_MESH__
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) device = default;
device spvStorageMatrix& operator=(const object_data matrix<T, Cols, Rows>& m) device
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
device spvStorageMatrix& operator=(const object_data spvStorageMatrix& m) device = default;
#endif
operator matrix<T, Cols, Rows>() const device
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const device
{
return columns[idx];
}
device vec<T, Rows>& operator[](size_t idx) device
{
return columns[idx];
}
spvStorageMatrix() threadgroup = default;
threadgroup spvStorageMatrix& operator=(initializer_list<vec<T, Rows>> cols) threadgroup
{
size_t i;
thread vec<T, Rows>* col;
for (i = 0, col = cols.begin(); i < Cols; ++i, ++col)
columns[i] = *col;
return *this;
}
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const thread matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const thread spvStorageMatrix& m) threadgroup = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const constant matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const constant spvStorageMatrix& m) threadgroup = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const device matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const device spvStorageMatrix& m) threadgroup = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const threadgroup matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const threadgroup spvStorageMatrix& m) threadgroup = default;
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const threadgroup_imageblock matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const threadgroup_imageblock spvStorageMatrix& m) threadgroup = default;
#endif
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const ray_data matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const ray_data spvStorageMatrix& m) threadgroup = default;
#endif
#ifdef __HAVE_MESH__
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) threadgroup = default;
threadgroup spvStorageMatrix& operator=(const object_data matrix<T, Cols, Rows>& m) threadgroup
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup spvStorageMatrix& operator=(const object_data spvStorageMatrix& m) threadgroup = default;
#endif
operator matrix<T, Cols, Rows>() const threadgroup
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const threadgroup
{
return columns[idx];
}
threadgroup vec<T, Rows>& operator[](size_t idx) threadgroup
{
return columns[idx];
}
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix() threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(initializer_list<vec<T, Rows>> cols) threadgroup_imageblock
{
size_t i;
thread vec<T, Rows>* col;
for (i = 0, col = cols.begin(); i < Cols; ++i, ++col)
columns[i] = *col;
return *this;
}
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const thread matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const thread spvStorageMatrix& m) threadgroup_imageblock = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const constant matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const constant spvStorageMatrix& m) threadgroup_imageblock = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const device matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const device spvStorageMatrix& m) threadgroup_imageblock = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const threadgroup matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const threadgroup spvStorageMatrix& m) threadgroup_imageblock = default;
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const threadgroup_imageblock matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const threadgroup_imageblock spvStorageMatrix& m) threadgroup_imageblock = default;
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const ray_data matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const ray_data spvStorageMatrix& m) threadgroup_imageblock = default;
#endif
#ifdef __HAVE_MESH__
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) threadgroup_imageblock = default;
threadgroup_imageblock spvStorageMatrix& operator=(const object_data matrix<T, Cols, Rows>& m) threadgroup_imageblock
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
threadgroup_imageblock spvStorageMatrix& operator=(const object_data spvStorageMatrix& m) threadgroup_imageblock = default;
#endif
operator matrix<T, Cols, Rows>() const threadgroup_imageblock
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const threadgroup_imageblock
{
return columns[idx];
}
threadgroup_imageblock vec<T, Rows>& operator[](size_t idx) threadgroup_imageblock
{
return columns[idx];
}
#endif
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix() ray_data = default;
ray_data spvStorageMatrix& operator=(initializer_list<vec<T, Rows>> cols) ray_data
{
size_t i;
thread vec<T, Rows>* col;
for (i = 0, col = cols.begin(); i < Cols; ++i, ++col)
columns[i] = *col;
return *this;
}
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const thread matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const thread spvStorageMatrix& m) ray_data = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const constant matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const constant spvStorageMatrix& m) ray_data = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const device matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const device spvStorageMatrix& m) ray_data = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const threadgroup matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const threadgroup spvStorageMatrix& m) ray_data = default;
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const threadgroup_imageblock matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const threadgroup_imageblock spvStorageMatrix& m) ray_data = default;
#endif
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const ray_data matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const ray_data spvStorageMatrix& m) ray_data = default;
#ifdef __HAVE_MESH__
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) ray_data = default;
ray_data spvStorageMatrix& operator=(const object_data matrix<T, Cols, Rows>& m) ray_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
ray_data spvStorageMatrix& operator=(const object_data spvStorageMatrix& m) ray_data = default;
#endif
operator matrix<T, Cols, Rows>() const ray_data
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const ray_data
{
return columns[idx];
}
ray_data vec<T, Rows>& operator[](size_t idx) ray_data
{
return columns[idx];
}
#endif
#ifdef __HAVE_MESH__
spvStorageMatrix() object_data = default;
object_data spvStorageMatrix& operator=(initializer_list<vec<T, Rows>> cols) object_data
{
size_t i;
thread vec<T, Rows>* col;
for (i = 0, col = cols.begin(); i < Cols; ++i, ++col)
columns[i] = *col;
return *this;
}
spvStorageMatrix(const thread matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const thread spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const thread matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const thread spvStorageMatrix& m) object_data = default;
spvStorageMatrix(const constant matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const constant spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const constant matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const constant spvStorageMatrix& m) object_data = default;
spvStorageMatrix(const device matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const device spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const device matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const device spvStorageMatrix& m) object_data = default;
spvStorageMatrix(const threadgroup matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const threadgroup matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const threadgroup spvStorageMatrix& m) object_data = default;
#ifdef __HAVE_IMAGEBLOCKS__
spvStorageMatrix(const threadgroup_imageblock matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const threadgroup_imageblock spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const threadgroup_imageblock matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const threadgroup_imageblock spvStorageMatrix& m) object_data = default;
#endif
#ifdef __HAVE_RAYTRACING__
spvStorageMatrix(const ray_data matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const ray_data spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const ray_data matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const ray_data spvStorageMatrix& m) object_data = default;
#endif
spvStorageMatrix(const object_data matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
}
spvStorageMatrix(const object_data spvStorageMatrix& m) object_data = default;
object_data spvStorageMatrix& operator=(const object_data matrix<T, Cols, Rows>& m) object_data
{
for (size_t i = 0; i < Cols; ++i)
columns[i] = m.columns[i];
return *this;
}
object_data spvStorageMatrix& operator=(const object_data spvStorageMatrix& m) object_data = default;
operator matrix<T, Cols, Rows>() const object_data
{
matrix<T, Cols, Rows> m;
for (int i = 0; i < Cols; ++i)
m.columns[i] = columns[i];
return m;
}
vec<T, Rows> operator[](size_t idx) const object_data
{
return columns[idx];
}
object_data vec<T, Rows>& operator[](size_t idx) object_data
{
return columns[idx];
}
#endif
};
template<typename T, int Cols, int Rows>
matrix<T, Rows, Cols> transpose(spvStorageMatrix<T, Cols, Rows> m)
{
return transpose(matrix<T, Cols, Rows>(m));
}
typedef spvStorageMatrix<half, 2, 2> spvStorage_half2x2;
typedef spvStorageMatrix<half, 2, 3> spvStorage_half2x3;
typedef spvStorageMatrix<half, 2, 4> spvStorage_half2x4;
typedef spvStorageMatrix<half, 3, 2> spvStorage_half3x2;
typedef spvStorageMatrix<half, 3, 3> spvStorage_half3x3;
typedef spvStorageMatrix<half, 3, 4> spvStorage_half3x4;
typedef spvStorageMatrix<half, 4, 2> spvStorage_half4x2;
typedef spvStorageMatrix<half, 4, 3> spvStorage_half4x3;
typedef spvStorageMatrix<half, 4, 4> spvStorage_half4x4;
typedef spvStorageMatrix<float, 2, 2> spvStorage_float2x2;
typedef spvStorageMatrix<float, 2, 3> spvStorage_float2x3;
typedef spvStorageMatrix<float, 2, 4> spvStorage_float2x4;
typedef spvStorageMatrix<float, 3, 2> spvStorage_float3x2;
typedef spvStorageMatrix<float, 3, 3> spvStorage_float3x3;
typedef spvStorageMatrix<float, 3, 4> spvStorage_float3x4;
typedef spvStorageMatrix<float, 4, 2> spvStorage_float4x2;
typedef spvStorageMatrix<float, 4, 3> spvStorage_float4x3;
typedef spvStorageMatrix<float, 4, 4> spvStorage_float4x4;
struct sA
{
spvStorage_float2x3 mA;
};
struct sB
{
spvStorage_float2x2 mA;
spvStorage_float3x2 mB;
uint3 mC;
};
struct sC
{
sA mA;
sB mB;
};
struct sD
{
sC mA;
};
struct sE
{
spvStorage_float3x2 mA;
spvStorage_float4x3 mB;
};
struct sF
{
sE mA;
};
struct sG
{
sF mA;
};
struct sH
{
spvUnsafeArray<short3, 2> mA;
};
struct S1
{
sD a;
sG b;
spvUnsafeArray<sH, 2> c;
};
struct block
{
uint passed;
};
constant uint3 gl_WorkGroupSize [[maybe_unused]] = uint3(1u);
static inline __attribute__((always_inline))
bool compare_float(thread const float& a, thread const float& b)
{
return abs(a - b) < 0.0500000007450580596923828125;
}
static inline __attribute__((always_inline))
bool compare_vec3(thread const float3& a, thread const float3& b)
{
float param = a.x;
float param_1 = b.x;
bool _106 = compare_float(param, param_1);
bool _116;
if (_106)
{
float param_2 = a.y;
float param_3 = b.y;
_116 = compare_float(param_2, param_3);
}
else
{
_116 = _106;
}
bool _127;
if (_116)
{
float param_4 = a.z;
float param_5 = b.z;
_127 = compare_float(param_4, param_5);
}
else
{
_127 = _116;
}
return _127;
}
static inline __attribute__((always_inline))
bool compare_mat2x3(thread const float2x3& a, thread const float2x3& b)
{
float3 param = a[0];
float3 param_1 = b[0];
bool _158 = compare_vec3(param, param_1);
bool _168;
if (_158)
{
float3 param_2 = a[1];
float3 param_3 = b[1];
_168 = compare_vec3(param_2, param_3);
}
else
{
_168 = _158;
}
return _168;
}
static inline __attribute__((always_inline))
bool compare_vec2(thread const float2& a, thread const float2& b)
{
float param = a.x;
float param_1 = b.x;
bool _86 = compare_float(param, param_1);
bool _97;
if (_86)
{
float param_2 = a.y;
float param_3 = b.y;
_97 = compare_float(param_2, param_3);
}
else
{
_97 = _86;
}
return _97;
}
static inline __attribute__((always_inline))
bool compare_mat2(thread const float2x2& a, thread const float2x2& b)
{
float2 param = a[0];
float2 param_1 = b[0];
bool _138 = compare_vec2(param, param_1);
bool _149;
if (_138)
{
float2 param_2 = a[1];
float2 param_3 = b[1];
_149 = compare_vec2(param_2, param_3);
}
else
{
_149 = _138;
}
return _149;
}
static inline __attribute__((always_inline))
bool compare_mat3x2(thread const float3x2& a, thread const float3x2& b)
{
float2 param = a[0];
float2 param_1 = b[0];
bool _177 = compare_vec2(param, param_1);
bool _187;
if (_177)
{
float2 param_2 = a[1];
float2 param_3 = b[1];
_187 = compare_vec2(param_2, param_3);
}
else
{
_187 = _177;
}
bool _198;
if (_187)
{
float2 param_4 = a[2];
float2 param_5 = b[2];
_198 = compare_vec2(param_4, param_5);
}
else
{
_198 = _187;
}
return _198;
}
static inline __attribute__((always_inline))
bool compare_uvec3(thread const uint3& a, thread const uint3& b)
{
return all(a == b);
}
static inline __attribute__((always_inline))
bool compare_mat4x3(thread const float4x3& a, thread const float4x3& b)
{
float3 param = a[0];
float3 param_1 = b[0];
bool _207 = compare_vec3(param, param_1);
bool _217;
if (_207)
{
float3 param_2 = a[1];
float3 param_3 = b[1];
_217 = compare_vec3(param_2, param_3);
}
else
{
_217 = _207;
}
bool _227;
if (_217)
{
float3 param_4 = a[2];
float3 param_5 = b[2];
_227 = compare_vec3(param_4, param_5);
}
else
{
_227 = _217;
}
bool _238;
if (_227)
{
float3 param_6 = a[3];
float3 param_7 = b[3];
_238 = compare_vec3(param_6, param_7);
}
else
{
_238 = _227;
}
return _238;
}
static inline __attribute__((always_inline))
bool compare_bvec3(thread const bool3& a, thread const bool3& b)
{
return all(a == b);
}
kernel void main0(device block& _424 [[buffer(0)]])
{
threadgroup S1 s1;
s1.a.mA.mA.mA = spvStorage_float2x3(float2x3(float3(6.0, 8.0, 8.0), float3(0.0, -4.0, -5.0)));
s1.a.mA.mB.mA = spvStorage_float2x2(float2x2(float2(9.0, -4.0), float2(-6.0, -1.0)));
s1.a.mA.mB.mB = spvStorage_float3x2(float3x2(float2(-1.0, -2.0), float2(1.0, 6.0), float2(5.0, 7.0)));
s1.a.mA.mB.mC = uint3(3u, 1u, 5u);
s1.b.mA.mA.mA = spvStorage_float3x2(float3x2(float2(8.0, 3.0), float2(0.0, 2.0), float2(1.0, 8.0)));
s1.b.mA.mA.mB = spvStorage_float4x3(float4x3(float3(0.0, 9.0, -1.0), float3(-1.0, -7.0, 7.0), float3(-4.0, -3.0, 1.0), float3(-4.0, -9.0, 1.0)));
s1.c[0].mA[0] = short3(bool3(true, false, false));
s1.c[0].mA[1] = short3(bool3(true, false, false));
s1.c[1].mA[0] = short3(bool3(false));
s1.c[1].mA[1] = short3(bool3(false));
threadgroup_barrier(mem_flags::mem_threadgroup);
threadgroup_barrier(mem_flags::mem_device | mem_flags::mem_threadgroup | mem_flags::mem_texture);
bool allOk = true;
bool _337;
if (allOk)
{
float2x3 param = float2x3(float3(6.0, 8.0, 8.0), float3(0.0, -4.0, -5.0));
float2x3 param_1 = float2x3(s1.a.mA.mA.mA);
_337 = compare_mat2x3(param, param_1);
}
else
{
_337 = allOk;
}
allOk = _337;
bool _346;
if (allOk)
{
float2x2 param_2 = float2x2(float2(9.0, -4.0), float2(-6.0, -1.0));
float2x2 param_3 = float2x2(s1.a.mA.mB.mA);
_346 = compare_mat2(param_2, param_3);
}
else
{
_346 = allOk;
}
allOk = _346;
bool _355;
if (allOk)
{
float3x2 param_4 = float3x2(float2(-1.0, -2.0), float2(1.0, 6.0), float2(5.0, 7.0));
float3x2 param_5 = float3x2(s1.a.mA.mB.mB);
_355 = compare_mat3x2(param_4, param_5);
}
else
{
_355 = allOk;
}
allOk = _355;
bool _364;
if (allOk)
{
uint3 param_6 = uint3(3u, 1u, 5u);
uint3 param_7 = s1.a.mA.mB.mC;
_364 = compare_uvec3(param_6, param_7);
}
else
{
_364 = allOk;
}
allOk = _364;
bool _373;
if (allOk)
{
float3x2 param_8 = float3x2(float2(8.0, 3.0), float2(0.0, 2.0), float2(1.0, 8.0));
float3x2 param_9 = float3x2(s1.b.mA.mA.mA);
_373 = compare_mat3x2(param_8, param_9);
}
else
{
_373 = allOk;
}
allOk = _373;
bool _382;
if (allOk)
{
float4x3 param_10 = float4x3(float3(0.0, 9.0, -1.0), float3(-1.0, -7.0, 7.0), float3(-4.0, -3.0, 1.0), float3(-4.0, -9.0, 1.0));
float4x3 param_11 = float4x3(s1.b.mA.mA.mB);
_382 = compare_mat4x3(param_10, param_11);
}
else
{
_382 = allOk;
}
allOk = _382;
bool _391;
if (allOk)
{
bool3 param_12 = bool3(true, false, false);
bool3 param_13 = bool3(s1.c[0].mA[0]);
_391 = compare_bvec3(param_12, param_13);
}
else
{
_391 = allOk;
}
allOk = _391;
bool _400;
if (allOk)
{
bool3 param_14 = bool3(true, false, false);
bool3 param_15 = bool3(s1.c[0].mA[1]);
_400 = compare_bvec3(param_14, param_15);
}
else
{
_400 = allOk;
}
allOk = _400;
bool _409;
if (allOk)
{
bool3 param_16 = bool3(false);
bool3 param_17 = bool3(s1.c[1].mA[0]);
_409 = compare_bvec3(param_16, param_17);
}
else
{
_409 = allOk;
}
allOk = _409;
bool _418;
if (allOk)
{
bool3 param_18 = bool3(false);
bool3 param_19 = bool3(s1.c[1].mA[1]);
_418 = compare_bvec3(param_18, param_19);
}
else
{
_418 = allOk;
}
allOk = _418;
if (allOk)
{
_424.passed++;
}
}
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