#ifndef COMMON_RESAMPLING_PD_HPP
#define COMMON_RESAMPLING_PD_HPP
#include <assert.h>
#include "oneapi/dnnl/dnnl.h"
#include "c_types_map.hpp"
#include "primitive_desc.hpp"
#include "utils.hpp"
#define VDISPATCH_RESAMPLING(cond, msg, ...) \
VCONDCHECK(primitive, create, dispatch, resampling, (cond), \
status::unimplemented, "%s," msg, this->info(engine), \
##__VA_ARGS__)
#define VDISPATCH_RESAMPLING_SC(f, msg, ...) \
VCHECK(primitive, create, dispatch, resampling, (f), "%s," msg, \
this->info(engine), ##__VA_ARGS__)
#define VDISPATCH_RESAMPLING_IC(cond, msg, ...) \
VCONDCHECK(primitive, create, dispatch, resampling, (cond), \
status::unimplemented, msg, ##__VA_ARGS__)
namespace dnnl {
namespace impl {
struct resampling_fwd_pd_t;
struct resampling_pd_t : public primitive_desc_t {
static constexpr auto base_pkind = primitive_kind::resampling;
const resampling_desc_t *desc() const { return &desc_; }
const op_desc_t *op_desc() const override {
return reinterpret_cast<const op_desc_t *>(this->desc());
}
status_t query(query_t what, int idx, void *result) const override {
switch (what) {
case query::prop_kind:
*(prop_kind_t *)result = desc()->prop_kind;
break;
case query::alg_kind:
*(alg_kind_t *)result = desc()->alg_kind;
break;
case query::factors:
*(const float **)result = desc()->factors;
break;
default: return primitive_desc_t::query(what, idx, result);
}
return status::success;
}
dim_t MB() const { return src_desc().dims[0]; }
dim_t C() const { return src_desc().dims[1]; }
dim_t ID() const { return ndims() >= 5 ? src_desc().dims[ndims() - 3] : 1; }
dim_t IH() const { return ndims() >= 4 ? src_desc().dims[ndims() - 2] : 1; }
dim_t IW() const { return ndims() >= 3 ? src_desc().dims[ndims() - 1] : 1; }
dim_t OD() const { return ndims() >= 5 ? dst_desc().dims[ndims() - 3] : 1; }
dim_t OH() const { return ndims() >= 4 ? dst_desc().dims[ndims() - 2] : 1; }
dim_t OW() const { return ndims() >= 3 ? dst_desc().dims[ndims() - 1] : 1; }
float FD() const { return ndims() >= 5 ? desc()->factors[ndims() - 5] : 1; }
float FH() const { return ndims() >= 4 ? desc()->factors[ndims() - 4] : 1; }
float FW() const { return ndims() >= 3 ? desc()->factors[ndims() - 3] : 1; }
int ndims() const { return src_desc().ndims; }
bool is_fwd() const {
return utils::one_of(desc_.prop_kind, prop_kind::forward_training,
prop_kind::forward_inference);
}
bool has_zero_dim_memory() const {
return memory_desc_wrapper(src_desc()).has_zero_dim();
}
int n_inputs() const override { return 1 + n_binary_po_inputs(); }
int n_outputs() const override { return 1; }
protected:
resampling_desc_t desc_;
const resampling_fwd_pd_t *hint_fwd_pd_;
resampling_pd_t(const op_desc_t *adesc, const primitive_attr_t *attr,
const resampling_fwd_pd_t *hint_fwd_pd)
: primitive_desc_t(attr, base_pkind)
, desc_(*op_desc_t::to_desc<resampling_desc_t>(adesc))
, hint_fwd_pd_(hint_fwd_pd) {}
private:
const memory_desc_t &src_desc() const {
return is_fwd() ? desc_.src_desc : desc_.diff_src_desc;
}
const memory_desc_t &dst_desc() const {
return is_fwd() ? desc_.dst_desc : desc_.diff_dst_desc;
}
};
struct resampling_fwd_pd_t : public resampling_pd_t {
using base_class = resampling_fwd_pd_t;
using hint_class = resampling_fwd_pd_t;
arg_usage_t arg_usage(int arg) const override {
if (arg == DNNL_ARG_SRC) return arg_usage_t::input;
if (arg == DNNL_ARG_DST) return arg_usage_t::output;
return primitive_desc_t::arg_usage(arg);
}
const memory_desc_t *arg_md(
int arg, bool user_input = false) const override {
switch (arg) {
case DNNL_ARG_SRC: return src_md(0);
case DNNL_ARG_DST: return dst_md(0, user_input);
default: return resampling_pd_t::arg_md(arg);
}
}
const memory_desc_t *src_md(
int index = 0, bool user_input = false) const override {
if (index == 0) return user_input ? &desc()->src_desc : &src_md_;
return &glob_zero_md;
}
const memory_desc_t *dst_md(
int index = 0, bool user_input = false) const override {
if (index == 0) return user_input ? &desc()->dst_desc : &dst_md_;
return &glob_zero_md;
}
protected:
memory_desc_t src_md_;
memory_desc_t dst_md_;
resampling_fwd_pd_t(const op_desc_t *adesc, const primitive_attr_t *attr,
const resampling_fwd_pd_t *hint_fwd_pd)
: resampling_pd_t(adesc, attr, hint_fwd_pd)
, src_md_(desc_.src_desc)
, dst_md_(desc_.dst_desc) {}
virtual status_t set_default_params(
format_tag_t src_tag_hint = format_tag::undef) {
if (dst_md()->format_kind != format_kind::any) return status::success;
if (src_md()->format_kind != format_kind::blocked)
return status::unimplemented;
if (src_tag_hint != format_tag::undef) {
return memory_desc_init_by_tag(dst_md_, src_tag_hint);
} else {
return memory_desc_init_by_blocking_desc(
dst_md_, src_md_.format_desc.blocking);
}
}
};
struct resampling_bwd_pd_t : public resampling_pd_t {
using base_class = resampling_bwd_pd_t;
using hint_class = resampling_fwd_pd_t;
arg_usage_t arg_usage(int arg) const override {
if (arg == DNNL_ARG_DIFF_DST) return arg_usage_t::input;
if (arg == DNNL_ARG_DIFF_SRC) return arg_usage_t::output;
return primitive_desc_t::arg_usage(arg);
}
const memory_desc_t *arg_md(
int arg, bool user_input = false) const override {
switch (arg) {
case DNNL_ARG_DIFF_SRC: return diff_src_md(0);
case DNNL_ARG_DIFF_DST: return diff_dst_md(0, user_input);
default: return resampling_pd_t::arg_md(arg);
}
}
const memory_desc_t *diff_src_md(
int index = 0, bool user_input = false) const override {
if (index == 0)
return user_input ? &desc()->diff_src_desc : &diff_src_md_;
return &glob_zero_md;
}
const memory_desc_t *diff_dst_md(
int index = 0, bool user_input = false) const override {
if (index == 0)
return user_input ? &desc()->diff_dst_desc : &diff_dst_md_;
return &glob_zero_md;
}
protected:
memory_desc_t diff_src_md_;
memory_desc_t diff_dst_md_;
resampling_bwd_pd_t(const op_desc_t *adesc, const primitive_attr_t *attr,
const resampling_fwd_pd_t *hint_fwd_pd)
: resampling_pd_t(adesc, attr, hint_fwd_pd)
, diff_src_md_(desc_.diff_src_desc)
, diff_dst_md_(desc_.diff_dst_desc) {}
virtual status_t set_default_params() {
if (diff_dst_md()->format_kind == format_kind::any && hint_fwd_pd_) {
status_t status = memory_desc_init_by_md_and_dt(diff_dst_md_,
*hint_fwd_pd_->dst_md(0), diff_dst_md_.data_type);
if (status != status::success) return status;
}
if (diff_src_md()->format_kind != format_kind::any)
return status::success;
if (diff_dst_md()->format_kind != format_kind::blocked)
return status::unimplemented;
return memory_desc_init_by_blocking_desc(
diff_src_md_, diff_dst_md_.format_desc.blocking);
}
};
} } #endif