#include "utils.metal"
template <typename T, typename U, int N = WorkPerThread<T>::n>
[[kernel]] void copy_s(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]], constant uint &size,
uint index [[thread_position_in_grid]]) {
index *= N;
for (int i = 0; i < N && (index + i) < size; ++i) {
dst[index + i] = static_cast<U>(src[0]);
}
}
template <typename T, typename U, int N = WorkPerThread<T>::n>
[[kernel]] void copy_v(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]], constant uint &size,
uint index [[thread_position_in_grid]]) {
index *= N;
for (int i = 0; i < N && (index + i) < size; ++i) {
dst[index + i] = static_cast<U>(src[index + i]);
}
}
template <typename T, typename U, int N = WorkPerThread<T>::n>
[[kernel]] void copy_s2(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]], constant int64_t &size,
uint2 index [[thread_position_in_grid]],
uint2 grid_dim [[threads_per_grid]]) {
auto offset = N * (index.x + grid_dim.x * int64_t(index.y));
for (int i = 0; i < N && (offset + i) < size; ++i) {
dst[offset + i] = static_cast<U>(src[0]);
}
}
template <typename T, typename U, int N = WorkPerThread<T>::n>
[[kernel]] void copy_v2(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]], constant int64_t &size,
uint2 index [[thread_position_in_grid]],
uint2 grid_dim [[threads_per_grid]]) {
auto offset = N * (index.x + grid_dim.x * int64_t(index.y));
for (int i = 0; i < N && (offset + i) < size; ++i) {
dst[offset + i] = static_cast<U>(src[offset + i]);
}
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void copy_g_nd1(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t &src_stride [[buffer(3)]],
uint index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_1<IdxT>(index, src_stride);
dst[index] = static_cast<U>(src[src_idx]);
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void copy_g_nd2(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t *src_strides [[buffer(3)]],
uint2 index [[thread_position_in_grid]],
uint2 grid_dim [[threads_per_grid]]) {
auto src_idx = elem_to_loc_2<IdxT>(index, src_strides);
IdxT dst_idx = index.x + IdxT(grid_dim.x) * index.y;
dst[dst_idx] = static_cast<U>(src[src_idx]);
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void copy_g_nd3(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t *src_strides [[buffer(3)]],
uint3 index [[thread_position_in_grid]],
uint3 grid_dim [[threads_per_grid]]) {
auto src_idx = elem_to_loc_3<IdxT>(index, src_strides);
IdxT dst_idx =
index.x + IdxT(grid_dim.x) * (index.y + IdxT(grid_dim.y) * index.z);
dst[dst_idx] = static_cast<U>(src[src_idx]);
}
template <typename T, typename U, int N = 1, typename IdxT = int64_t>
[[kernel]] void copy_g(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int *src_shape [[buffer(2)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int &ndim [[buffer(5)]],
uint3 index [[thread_position_in_grid]],
uint3 grid_dim [[threads_per_grid]]) {
auto src_idx = elem_to_loc<IdxT>({N * index.x, index.y, index.z}, src_shape,
src_strides, ndim);
if (N == 1) {
IdxT dst_idx =
index.x + grid_dim.x * (index.y + IdxT(grid_dim.y) * index.z);
dst[dst_idx] = static_cast<U>(src[src_idx]);
return;
}
auto xshape = src_shape[ndim - 1];
IdxT dst_idx = N * index.x + xshape * (index.y + IdxT(grid_dim.y) * index.z);
auto src_xstride = src_strides[ndim - 1];
for (int i = 0; i < N && (int(N * index.x) + i) < xshape; ++i) {
dst[dst_idx + i] = static_cast<U>(src[src_idx]);
src_idx += src_xstride;
}
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void copy_gg_nd1(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t &src_stride [[buffer(3)]],
constant const int64_t &dst_stride [[buffer(4)]],
uint index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_1<IdxT>(index, src_stride);
auto dst_idx = elem_to_loc_1<IdxT>(index, dst_stride);
dst[dst_idx] = static_cast<U>(src[src_idx]);
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void copy_gg_nd2(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int64_t *dst_strides [[buffer(4)]],
uint2 index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_2<IdxT>(index, src_strides);
auto dst_idx = elem_to_loc_2<IdxT>(index, dst_strides);
dst[dst_idx] = static_cast<U>(src[src_idx]);
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void copy_gg_nd3(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int64_t *dst_strides [[buffer(4)]],
uint3 index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_3<IdxT>(index, src_strides);
auto dst_idx = elem_to_loc_3<IdxT>(index, dst_strides);
dst[dst_idx] = static_cast<U>(src[src_idx]);
}
template <typename T, typename U, int N = 1, typename IdxT = int64_t>
[[kernel]] void copy_gg(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int *src_shape [[buffer(2)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int64_t *dst_strides [[buffer(4)]],
constant const int &ndim [[buffer(5)]],
uint3 index [[thread_position_in_grid]]) {
auto idx = elem_to_loc_2_nd<IdxT>({N * index.x, index.y, index.z}, src_shape,
src_strides, dst_strides, ndim);
if (N == 1) {
dst[idx.y] = static_cast<U>(src[idx.x]);
return;
}
IdxT src_xstride = src_strides[ndim - 1];
IdxT dst_xstride = dst_strides[ndim - 1];
auto xshape = src_shape[ndim - 1];
for (int i = 0; i < N && (int(N * index.x) + i) < xshape; ++i) {
dst[idx.y] = static_cast<U>(src[idx.x]);
idx.x += src_xstride;
idx.y += dst_xstride;
}
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void
copy_gg_dynamic_nd1(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t &src_stride [[buffer(3)]],
constant const int64_t &dst_stride [[buffer(4)]],
constant const int64_t &src_offset [[buffer(6)]],
constant const int64_t &dst_offset [[buffer(7)]],
uint index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_1<IdxT>(index, src_stride);
auto dst_idx = elem_to_loc_1<IdxT>(index, dst_stride);
dst[dst_idx + dst_offset] = src[src_idx + src_offset];
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void
copy_gg_dynamic_nd2(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int64_t *dst_strides [[buffer(4)]],
constant const int64_t &src_offset [[buffer(6)]],
constant const int64_t &dst_offset [[buffer(7)]],
uint2 index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_2<IdxT>(index, src_strides);
auto dst_idx = elem_to_loc_2<IdxT>(index, dst_strides);
dst[dst_idx + dst_offset] = src[src_idx + src_offset];
}
template <typename T, typename U, typename IdxT = int64_t>
[[kernel]] void
copy_gg_dynamic_nd3(device const T *src [[buffer(0)]],
device U *dst [[buffer(1)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int64_t *dst_strides [[buffer(4)]],
constant const int64_t &src_offset [[buffer(6)]],
constant const int64_t &dst_offset [[buffer(7)]],
uint3 index [[thread_position_in_grid]]) {
auto src_idx = elem_to_loc_3<IdxT>(index, src_strides);
auto dst_idx = elem_to_loc_3<IdxT>(index, dst_strides);
dst[dst_idx + dst_offset] = src[src_idx + src_offset];
}
template <typename T, typename U, int N = 1, typename IdxT = int64_t>
[[kernel]] void
copy_gg_dynamic(device const T *src [[buffer(0)]], device U *dst [[buffer(1)]],
constant const int *src_shape [[buffer(2)]],
constant const int64_t *src_strides [[buffer(3)]],
constant const int64_t *dst_strides [[buffer(4)]],
constant const int &ndim [[buffer(5)]],
constant const int64_t &src_offset [[buffer(6)]],
constant const int64_t &dst_offset [[buffer(7)]],
uint3 index [[thread_position_in_grid]]) {
src += src_offset;
dst += dst_offset;
auto idx = elem_to_loc_2_nd<IdxT>({N * index.x, index.y, index.z}, src_shape,
src_strides, dst_strides, ndim);
if (N == 1) {
dst[idx.y] = src[idx.x];
return;
}
IdxT src_xstride = src_strides[ndim - 1];
IdxT dst_xstride = dst_strides[ndim - 1];
auto xshape = src_shape[ndim - 1];
for (int i = 0; i < N && (int(N * index.x) + i) < xshape; ++i) {
dst[idx.y] = src[idx.x];
idx.x += src_xstride;
idx.y += dst_xstride;
}
}