/* * Copyright (c) 2024 Huawei Device Co., Ltd. * 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 "ops/leaky_relu_builder.h" #include "ops_test.h" using namespace testing; using namespace testing::ext; using namespace OHOS::NeuralNetworkRuntime::Ops; namespace OHOS { namespace NeuralNetworkRuntime { namespace UnitTest { class LeakyReluBuilderTest : public OpsTest { public: void SetUp() override; void TearDown() override; protected: void SaveNegativeSlope(OH_NN_DataType dataType, const std::vector &dim, const OH_NN_QuantParam* quantParam, OH_NN_TensorType type); protected: LeakyReluBuilder m_builder; std::vector m_inputs {0}; std::vector m_outputs {1}; std::vector m_params {2}; std::vector m_dim {1, 2, 2, 1}; std::vector m_paramDim {}; }; void LeakyReluBuilderTest::SetUp() {} void LeakyReluBuilderTest::TearDown() {} void LeakyReluBuilderTest::SaveNegativeSlope(OH_NN_DataType dataType, const std::vector &dim, const OH_NN_QuantParam* quantParam, OH_NN_TensorType type) { std::shared_ptr negativeSlopeTensor = TransToNNTensor(dataType, dim, quantParam, type); float* negativeSlopeValue = new (std::nothrow) float [1]{0.0f}; EXPECT_NE(nullptr, negativeSlopeValue); negativeSlopeTensor->SetBuffer(negativeSlopeValue, sizeof(float)); m_allTensors.emplace_back(negativeSlopeTensor); } /** * @tc.name: leaky_relu_build_001 * @tc.desc: Verify that the build function returns a successful message. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_001, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); SaveNegativeSlope(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_SUCCESS, ret); } /** * @tc.name: leaky_relu_build_002 * @tc.desc: Verify that the build function returns a failed message with true m_isBuild. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_002, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); SaveNegativeSlope(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); EXPECT_EQ(OH_NN_SUCCESS, m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors)); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_OPERATION_FORBIDDEN, ret); } /** * @tc.name: leaky_relu_build_003 * @tc.desc: Verify that the build function returns a failed message with invalided input. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_003, TestSize.Level1) { m_inputs = {0, 1}; m_outputs = {2}; m_params = {3}; SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); SaveNegativeSlope(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_build_004 * @tc.desc: Verify that the build function returns a failed message with invalided output. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_004, TestSize.Level1) { m_outputs = {1, 2}; m_params = {3}; SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); SaveNegativeSlope(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_build_005 * @tc.desc: Verify that the build function returns a failed message with empty allTensor. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_005, TestSize.Level1) { OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputs, m_outputs, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_build_006 * @tc.desc: Verify that the build function returns a failed message without output tensor. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_006, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputs, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_build_007 * @tc.desc: Verify that the build function returns a failed message with invalid negative_slope's dataType. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_007, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); std::shared_ptr negativeSlopeTensor = TransToNNTensor(OH_NN_INT64, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); int64_t* negativeSlopeValue = new (std::nothrow) int64_t [1]{0}; EXPECT_NE(nullptr, negativeSlopeValue); negativeSlopeTensor->SetBuffer(negativeSlopeValue, sizeof(int64_t)); m_allTensors.emplace_back(negativeSlopeTensor); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_build_008 * @tc.desc: Verify that the build function returns a failed message with passing invalid negative_slope param. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_008, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); SaveNegativeSlope(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_MUL_ACTIVATION_TYPE); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_build_009 * @tc.desc: Verify that the build function returns a failed message without set buffer for negative_slope. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_build_011, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); std::shared_ptr negativeSlopeTensor = TransToNNTensor(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); m_allTensors.emplace_back(negativeSlopeTensor); OH_NN_ReturnCode ret = m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors); EXPECT_EQ(OH_NN_INVALID_PARAMETER, ret); } /** * @tc.name: leaky_relu_getprimitive_001 * @tc.desc: Verify that the getPrimitive function returns a successful message. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_getprimitive_001, TestSize.Level1) { SaveInputTensor(m_inputs, OH_NN_INT32, m_dim, nullptr); SaveOutputTensor(m_outputs, OH_NN_INT32, m_dim, nullptr); SaveNegativeSlope(OH_NN_FLOAT32, m_paramDim, nullptr, OH_NN_LEAKY_RELU_NEGATIVE_SLOPE); float negativeSlopeValue = 0.0f; EXPECT_EQ(OH_NN_SUCCESS, m_builder.Build(m_params, m_inputsIndex, m_outputsIndex, m_allTensors)); LiteGraphPrimitvePtr primitive = m_builder.GetPrimitive(); LiteGraphPrimitvePtr expectPrimitive(nullptr, DestroyLiteGraphPrimitive); EXPECT_NE(expectPrimitive, primitive); auto returnNegativeSlopeValue = mindspore::lite::MindIR_LeakyRelu_GetNegativeSlope(primitive.get()); EXPECT_EQ(returnNegativeSlopeValue, negativeSlopeValue); } /** * @tc.name: leaky_relu_getprimitive_002 * @tc.desc: Verify that the getPrimitive function returns a failed message without build. * @tc.type: FUNC */ HWTEST_F(LeakyReluBuilderTest, leaky_relu_getprimitive_002, TestSize.Level1) { LiteGraphPrimitvePtr primitive = m_builder.GetPrimitive(); LiteGraphPrimitvePtr expectPrimitive(nullptr, DestroyLiteGraphPrimitive); EXPECT_EQ(expectPrimitive, primitive); } } } }