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//*****************************************************************************
// Copyright 2017-2018 Intel Corporation
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//*****************************************************************************
#include <memory>
#include "gtest/gtest.h"
#include "hybrid_utils.hpp"
#include "ngraph/log.hpp"
#include "ngraph/ngraph.hpp"
#include "ngraph/runtime/backend.hpp"
#include "ngraph/runtime/backend_manager.hpp"
#include "ngraph/runtime/hybrid/hybrid_backend.hpp"
#include "util/all_close.hpp"
#include "util/all_close_f.hpp"
#include "util/ndarray.hpp"
#include "util/test_control.hpp"
#include "util/test_tools.hpp"
using namespace std;
using namespace ngraph;
static runtime::Backend* hybrid1_creator(const char* config)
{
vector<shared_ptr<runtime::Backend>> backend_list;
set<string> s0 = {"Add"};
auto b0 = make_shared<BackendWrapper>("INTERPRETER", s0, "AddOnly");
backend_list.push_back(b0);
#define NGRAPH_OP(a, b) #a,
set<string> s1 = {
#include "ngraph/op/op_tbl.hpp"
};
auto b1 = make_shared<BackendWrapper>("INTERPRETER", s1, "AllOps");
backend_list.push_back(b1);
return new TestBackend(backend_list);
}
TEST(HYBRID, abc)
{
const string backend_name = "HYBRID1";
runtime::BackendManager::register_backend(backend_name, hybrid1_creator);
Shape shape{2, 2};
auto A = make_shared<op::Parameter>(element::f32, shape);
auto B = make_shared<op::Parameter>(element::f32, shape);
auto C = make_shared<op::Parameter>(element::f32, shape);
auto f = make_shared<Function>((A + B) * C, ParameterVector{A, B, C});
auto backend = runtime::Backend::create(backend_name);
// Create some tensors for input/output
shared_ptr<runtime::Tensor> a = backend->create_tensor(element::f32, shape);
shared_ptr<runtime::Tensor> b = backend->create_tensor(element::f32, shape);
shared_ptr<runtime::Tensor> c = backend->create_tensor(element::f32, shape);
shared_ptr<runtime::Tensor> result = backend->create_tensor(element::f32, shape);
copy_data(a, test::NDArray<float, 2>({{1, 2}, {3, 4}}).get_vector());
copy_data(b, test::NDArray<float, 2>({{5, 6}, {7, 8}}).get_vector());
copy_data(c, test::NDArray<float, 2>({{9, 10}, {11, 12}}).get_vector());
backend->call_with_validate(f, {result}, {a, b, c});
EXPECT_EQ(read_vector<float>(result),
(test::NDArray<float, 2>({{54, 80}, {110, 144}})).get_vector());
backend->call_with_validate(f, {result}, {b, a, c});
EXPECT_EQ(read_vector<float>(result),
(test::NDArray<float, 2>({{54, 80}, {110, 144}})).get_vector());
backend->call_with_validate(f, {result}, {a, c, b});
EXPECT_EQ(read_vector<float>(result),
(test::NDArray<float, 2>({{50, 72}, {98, 128}})).get_vector());
}