#ifndef GPU_AMD_MIOPEN_BINARY_HPP
#define GPU_AMD_MIOPEN_BINARY_HPP
#include "common/binary_pd.hpp"
#include "common/c_types_map.hpp"
#include "gpu/amd/engine.hpp"
#include "gpu/amd/miopen_binary_impl.hpp"
#include "gpu/amd/sycl_hip_utils.hpp"
#include "gpu/gpu_primitive.hpp"
#include <miopen/miopen.h>
namespace dnnl {
namespace impl {
namespace gpu {
namespace amd {
struct miopen_binary_t : public gpu::primitive_t {
using gpu::primitive_t::primitive_t;
struct pd_t : public binary_pd_t {
using binary_pd_t::binary_pd_t;
DECLARE_COMMON_PD_T("hip:miopen:any", miopen_binary_t);
status_t init(impl::engine_t *) {
using namespace data_type;
bool ok = (set_default_params() == status::success)
&& check_data_types() && check_no_blocking()
&& check_broadcast()
&& attr()->has_default_values(
primitive_attr_t::skip_mask_t::scales)
&& IMPLICATION(!attr()->scales_.has_default_values(),
check_scales_mask())
&& check_format();
if (!ok) return status::unimplemented;
if (check_for_zero_dims()) return status::success;
binary_impl_.reset(new miopen_binary_impl_t());
return binary_impl_->init(this);
}
bool check_for_zero_dims() const {
return has_zero_dims(src_md(0)->dims, src_md(0)->ndims)
|| has_zero_dims(src_md(1)->dims, src_md(1)->ndims)
|| has_zero_dims(dst_md()->dims, dst_md()->ndims);
}
bool check_scales_mask() const { return attr_scales_ok(); }
bool check_no_blocking() const {
return src_md(0)->format_desc.blocking.inner_nblks
+ src_md(1)->format_desc.blocking.inner_nblks
+ dst_md()->format_desc.blocking.inner_nblks
== 0;
}
bool check_broadcast() const {
const int ndims = nstl::min(src_md(0)->ndims, src_md(1)->ndims);
for (int dim_idx = 0; dim_idx < ndims; dim_idx++) {
if (src_md(0)->dims[dim_idx] == 1
&& src_md(0)->dims[dim_idx] != src_md(1)->dims[dim_idx])
return false;
}
return true;
}
bool check_format() const {
return (memory_desc_wrapper(src_md(0)).matches_one_of_tag(
format_tag::a, format_tag::ab, format_tag::abc,
format_tag::abcd, format_tag::abcde)
&& memory_desc_wrapper(src_md(1)).matches_one_of_tag(
format_tag::a, format_tag::ab, format_tag::abc,
format_tag::abcd, format_tag::abcde)
&& memory_desc_wrapper(dst_md()).matches_one_of_tag(
format_tag::a, format_tag::ab, format_tag::abc,
format_tag::abcd, format_tag::abcde));
}
bool check_data_types() const {
using namespace data_type;
data_type_t input1_type = src_md(0)->data_type;
data_type_t input2_type = src_md(1)->data_type;
data_type_t input_type = input1_type;
data_type_t output_type = dst_md()->data_type;
bool inputs_same = (input1_type == input2_type);
switch (output_type) {
case f32: return inputs_same && (input_type == f32);
case f16: return inputs_same && (input_type == f16);
case s32: return inputs_same && (input_type == s32);
default: break;
}
return false;
}
std::shared_ptr<miopen_binary_impl_base_t> binary_impl_;
};
status_t execute(const exec_ctx_t &ctx) const override;
private:
const pd_t *pd() const { return (const pd_t *)primitive_t::pd().get(); }
};
} } } }
#endif