#include "graph/backend/dnnl/kernels/resampling.hpp"
#include "graph/backend/dnnl/patterns/fusions.hpp"
#include "graph/backend/dnnl/patterns/pattern_matcher_pass.hpp"
#include "graph/backend/dnnl/patterns/utils.hpp"
namespace dnnl {
namespace impl {
namespace graph {
namespace dnnl_impl {
namespace pattern {
namespace pm = graph::utils::pm;
using in_edges_t = pm::in_edges_t;
using pb_graph_t = pm::pb_graph_t;
using FCreatePattern = graph::pass::FCreatePattern;
namespace {
bool check_attributes(op_t *op) {
bool result
= op->get_attr<std::string>(op_attr::coordinate_transformation_mode)
== std::string("half_pixel");
VCHECK_PATTERN_UTILS(result, result,
"interpolate primitive doesn't support "
"other coordinate_transformation_mode except half_pixel");
return result;
}
}
DNNL_BACKEND_REGISTER_PATTERN_DEF_BEGIN(interpolate_fusion)
DNNL_BACKEND_REGISTER_PATTERN_MATCHER_PASS(dnnl, fp_interpolate_post_ops)
.set_priority(8.4f)
.set_kind(partition_kind_t::interpolate_post_ops)
.set_attr<FCreatePattern>("FCreatePattern",
[](const std::shared_ptr<pb_graph_t> &pgraph) -> void {
pm::pb_op_t *interpolate
= pgraph->append_op(graph::op_kind::Interpolate);
interpolate->append_decision_function(check_attributes);
auto postop_graph = std::make_shared<pb_graph_t>();
pm::pb_op_t *pop = postop_graph->append_alternation(
get_unary_binary_ops());
pop->allow_internal_inputs();
postop_graph->create_input_port(0, pop, 0);
postop_graph->create_input_port(1, pop, 1);
postop_graph->create_output_port(0, pop, 0);
pgraph->append_repetition(postop_graph, {0, 0}, 1,
MAX_REPETITION,
in_edges_t {in_edge(0, interpolate, 0)});
})
.set_attr<FCreateKernel>("FCreateKernel", []() -> kernel_ptr {
return std::make_shared<resampling_fwd_t>();
});
DNNL_BACKEND_REGISTER_PATTERN_DEF_END
} } } } }