build/html/metal_2kernels_2binary_8h_source.html

// Copyright © 2024 Apple Inc.


template <typename T, typename U, typename Op>


[[kernel]] void binary_ss(

    device const T* a,

    device const T* b,

    device U* c,

    uint index [[thread_position_in_grid]]) {

  c[index] = Op()(a[0], b[0]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_sv(

    device const T* a,

    device const T* b,

    device U* c,

    uint index [[thread_position_in_grid]]) {

  c[index] = Op()(a[0], b[index]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_vs(

    device const T* a,

    device const T* b,

    device U* c,

    uint index [[thread_position_in_grid]]) {

  c[index] = Op()(a[index], b[0]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_vv(

    device const T* a,

    device const T* b,

    device U* c,

    uint index [[thread_position_in_grid]]) {

  c[index] = Op()(a[index], b[index]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_sv2(

    device const T* a,

    device const T* b,

    device U* c,

    uint2 index [[thread_position_in_grid]],

    uint2 grid_dim [[threads_per_grid]]) {

  size_t offset = index.x + grid_dim.x * size_t(index.y);

  c[offset] = Op()(a[0], b[offset]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_vs2(

    device const T* a,

    device const T* b,

    device U* c,

    uint2 index [[thread_position_in_grid]],

    uint2 grid_dim [[threads_per_grid]]) {

  size_t offset = index.x + grid_dim.x * size_t(index.y);

  c[offset] = Op()(a[offset], b[0]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_vv2(

    device const T* a,

    device const T* b,

    device U* c,

    uint2 index [[thread_position_in_grid]],

    uint2 grid_dim [[threads_per_grid]]) {

  size_t offset = index.x + grid_dim.x * size_t(index.y);

  c[offset] = Op()(a[offset], b[offset]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_g_nd1(

    device const T* a,

    device const T* b,

    device U* c,

    constant const size_t& a_stride,

    constant const size_t& b_stride,

    uint index [[thread_position_in_grid]]) {

  auto a_idx = elem_to_loc_1(index, a_stride);

  auto b_idx = elem_to_loc_1(index, b_stride);

  c[index] = Op()(a[a_idx], b[b_idx]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_g_nd2(

    device const T* a,

    device const T* b,

    device U* c,

    constant const size_t a_strides[2],

    constant const size_t b_strides[2],

    uint2 index [[thread_position_in_grid]],

    uint2 grid_dim [[threads_per_grid]]) {

  auto a_idx = elem_to_loc_2(index, a_strides);

  auto b_idx = elem_to_loc_2(index, b_strides);

  size_t out_idx = index.x + size_t(grid_dim.x) * index.y;

  c[out_idx] = Op()(a[a_idx], b[b_idx]);

}


template <typename T, typename U, typename Op>


[[kernel]] void binary_g_nd3(

    device const T* a,

    device const T* b,

    device U* c,

    constant const size_t a_strides[3],

    constant const size_t b_strides[3],

    uint3 index [[thread_position_in_grid]],

    uint3 grid_dim [[threads_per_grid]]) {

  auto a_idx = elem_to_loc_3(index, a_strides);

  auto b_idx = elem_to_loc_3(index, b_strides);

  size_t out_idx =

      index.x + grid_dim.x * (index.y + size_t(grid_dim.y) * index.z);

  c[out_idx] = Op()(a[a_idx], b[b_idx]);

}


template <typename T, typename U, typename Op, int N = 1>


[[kernel]] void binary_g(

    device const T* a,

    device const T* b,

    device U* c,

    constant const int* shape,

    constant const size_t* a_strides,

    constant const size_t* b_strides,

    constant const int& ndim,

    uint3 index [[thread_position_in_grid]],

    uint3 grid_dim [[threads_per_grid]]) {

  auto idx = elem_to_loc_2_nd(

      {N * index.x, index.y, index.z}, shape, a_strides, b_strides, ndim);

  auto xshape = shape[ndim - 1];

  size_t out_idx =

      N * index.x + xshape * (index.y + size_t(grid_dim.y) * index.z);

  auto a_xstride = a_strides[ndim - 1];

  auto b_xstride = b_strides[ndim - 1];

  for (int i = 0; i < N && (int(N * index.x) + i) < xshape; ++i) {

    c[out_idx++] = Op()(a[idx.x], b[idx.y]);

    idx.x += a_xstride;

    idx.y += b_xstride;

  }

}


elem_to_loc_2_nd
METAL_FUNC ulong2 elem_to_loc_2_nd(uint3 elem, constant const int *shape, constant const stride_t *a_strides, constant const stride_t *b_strides, int ndim)
Definition utils.h:153

elem_to_loc_1
METAL_FUNC stride_t elem_to_loc_1(uint elem, constant const stride_t &stride)
Definition utils.h:133

elem_to_loc_3
METAL_FUNC stride_t elem_to_loc_3(uint3 elem, constant const stride_t strides[3])
Definition utils.h:145

elem_to_loc_2
METAL_FUNC stride_t elem_to_loc_2(uint2 elem, constant const stride_t strides[2])
Definition utils.h:139

binary_vv2
void binary_vv2(device const T *a, device const T *b, device U *c, uint2 index, uint2 grid_dim)
Definition binary.h:62

binary_g
void binary_g(device const T *a, device const T *b, device U *c, constant const int *shape, constant const size_t *a_strides, constant const size_t *b_strides, constant const int &ndim, uint3 index, uint3 grid_dim)
Definition binary.h:117

binary_ss
void binary_ss(device const T *a, device const T *b, device U *c, uint index)
Definition binary.h:4

binary_sv
void binary_sv(device const T *a, device const T *b, device U *c, uint index)
Definition binary.h:13

binary_vs2
void binary_vs2(device const T *a, device const T *b, device U *c, uint2 index, uint2 grid_dim)
Definition binary.h:51

binary_vs
void binary_vs(device const T *a, device const T *b, device U *c, uint index)
Definition binary.h:22

binary_g_nd1
void binary_g_nd1(device const T *a, device const T *b, device U *c, constant const size_t &a_stride, constant const size_t &b_stride, uint index)
Definition binary.h:73

binary_g_nd2
void binary_g_nd2(device const T *a, device const T *b, device U *c, constant const size_t a_strides[2], constant const size_t b_strides[2], uint2 index, uint2 grid_dim)
Definition binary.h:86

binary_sv2
void binary_sv2(device const T *a, device const T *b, device U *c, uint2 index, uint2 grid_dim)
Definition binary.h:40

binary_g_nd3
void binary_g_nd3(device const T *a, device const T *b, device U *c, constant const size_t a_strides[3], constant const size_t b_strides[3], uint3 index, uint3 grid_dim)
Definition binary.h:101

binary_vv
void binary_vv(device const T *a, device const T *b, device U *c, uint index)
Definition binary.h:31