/* * Copyright (c) 2019-2021 Arm Limited. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "arm_compute/core/Types.h" #include "arm_compute/runtime/NEON/functions/NEFFT1D.h" #include "arm_compute/runtime/NEON/functions/NEFFT2D.h" #include "arm_compute/runtime/NEON/functions/NEFFTConvolutionLayer.h" #include "arm_compute/runtime/Tensor.h" #include "tests/NEON/Accessor.h" #include "tests/datasets/SmallConvolutionLayerDataset.h" #include "tests/framework/Asserts.h" #include "tests/framework/Macros.h" #include "tests/framework/datasets/Datasets.h" #include "tests/validation/Validation.h" #include "tests/validation/fixtures/FFTFixture.h" namespace arm_compute { namespace test { namespace validation { namespace { const auto data_types = framework::dataset::make("DataType", { DataType::F32 }); const auto shapes_1d = framework::dataset::make("TensorShape", { TensorShape(2U, 2U, 3U), TensorShape(3U, 2U, 3U), TensorShape(4U, 2U, 3U), TensorShape(5U, 2U, 3U), TensorShape(7U, 2U, 3U), TensorShape(8U, 2U, 3U), TensorShape(9U, 2U, 3U), TensorShape(25U, 2U, 3U), TensorShape(49U, 2U, 3U), TensorShape(64U, 2U, 3U), TensorShape(16U, 2U, 3U), TensorShape(32U, 2U, 3U), TensorShape(96U, 2U, 2U) }); const auto shapes_2d = framework::dataset::make("TensorShape", { TensorShape(2U, 2U, 3U), TensorShape(3U, 6U, 3U), TensorShape(4U, 5U, 3U), TensorShape(5U, 7U, 3U), TensorShape(7U, 25U, 3U), TensorShape(8U, 2U, 3U), TensorShape(9U, 16U, 3U), TensorShape(25U, 32U, 3U), TensorShape(192U, 128U, 2U) }); const auto ActivationFunctionsSmallDataset = framework::dataset::make("ActivationInfo", { ActivationLayerInfo(), ActivationLayerInfo(ActivationLayerInfo::ActivationFunction::LU_BOUNDED_RELU, 0.5f) }); RelativeTolerance tolerance_f32(0.1f); /**< Relative tolerance value for FP32 */ constexpr float tolerance_num = 0.07f; /**< Tolerance number */ } // namespace TEST_SUITE(NEON) TEST_SUITE(FFT1D) // *INDENT-OFF* // clang-format off DATA_TEST_CASE(Validate, framework::DatasetMode::ALL, zip(zip(zip( framework::dataset::make("InputInfo", { TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), // Mismatching data types TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), // Mismatching shapes TensorInfo(TensorShape(32U, 13U, 2U), 3, DataType::F32), // Invalid channels TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), // Unsupported axis TensorInfo(TensorShape(11U, 13U, 2U), 2, DataType::F32), // Undecomposable FFT TensorInfo(TensorShape(25U, 13U, 2U), 2, DataType::F32), }), framework::dataset::make("OutputInfo",{ TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F16), TensorInfo(TensorShape(16U, 13U, 2U), 2, DataType::F32), TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), TensorInfo(TensorShape(11U, 13U, 2U), 2, DataType::F32), TensorInfo(TensorShape(25U, 13U, 2U), 2, DataType::F32), })), framework::dataset::make("Axis", { 0, 0, 0, 2, 0, 0 })), framework::dataset::make("Expected", { false, false, false, false, false, true })), input_info, output_info, axis, expected) { FFT1DInfo desc; desc.axis = axis; const Status s = NEFFT1D::validate(&input_info.clone()->set_is_resizable(false), &output_info.clone()->set_is_resizable(false), desc); ARM_COMPUTE_EXPECT(bool(s) == expected, framework::LogLevel::ERRORS); } // clang-format on // *INDENT-ON* template using NEFFT1DFixture = FFTValidationFixture; TEST_SUITE(Float) TEST_SUITE(FP32) FIXTURE_DATA_TEST_CASE(RunSmall, NEFFT1DFixture, framework::DatasetMode::ALL, combine(shapes_1d, framework::dataset::make("DataType", DataType::F32))) { // Validate output validate(Accessor(_target), _reference, tolerance_f32, tolerance_num); } TEST_SUITE_END() // FP32 TEST_SUITE_END() // Float TEST_SUITE_END() // FFT1D TEST_SUITE(FFT2D) // *INDENT-OFF* // clang-format off DATA_TEST_CASE(Validate, framework::DatasetMode::ALL, zip(zip( framework::dataset::make("InputInfo", { TensorInfo(TensorShape(32U, 25U, 2U), 2, DataType::F32), // Mismatching data types TensorInfo(TensorShape(32U, 25U, 2U), 2, DataType::F32), // Mismatching shapes TensorInfo(TensorShape(32U, 25U, 2U), 3, DataType::F32), // Invalid channels TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), // Undecomposable FFT TensorInfo(TensorShape(32U, 25U, 2U), 2, DataType::F32), }), framework::dataset::make("OutputInfo",{ TensorInfo(TensorShape(32U, 25U, 2U), 2, DataType::F16), TensorInfo(TensorShape(16U, 25U, 2U), 2, DataType::F32), TensorInfo(TensorShape(32U, 25U, 2U), 1, DataType::F32), TensorInfo(TensorShape(32U, 13U, 2U), 2, DataType::F32), TensorInfo(TensorShape(32U, 25U, 2U), 2, DataType::F32), })), framework::dataset::make("Expected", { false, false, false, false, true })), input_info, output_info, expected) { const Status s = NEFFT2D::validate(&input_info.clone()->set_is_resizable(false), &output_info.clone()->set_is_resizable(false), FFT2DInfo()); ARM_COMPUTE_EXPECT(bool(s) == expected, framework::LogLevel::ERRORS); } // clang-format on // *INDENT-ON* template using NEFFT2DFixture = FFTValidationFixture; TEST_SUITE(Float) TEST_SUITE(FP32) FIXTURE_DATA_TEST_CASE(RunSmall, NEFFT2DFixture, framework::DatasetMode::ALL, combine(shapes_2d, framework::dataset::make("DataType", DataType::F32))) { // Validate output validate(Accessor(_target), _reference, tolerance_f32, tolerance_num); } TEST_SUITE_END() // FP32 TEST_SUITE_END() // Float TEST_SUITE_END() // FFT2D TEST_SUITE(FFTConvolutionLayer) template using NEFFTConvolutionLayerFixture = FFTConvolutionValidationFixture; template using NEFFTConvolutionLayerMixedDataLayoutFixture = FFTConvolutionValidationFixture; TEST_SUITE(Float) TEST_SUITE(FP32) FIXTURE_DATA_TEST_CASE(RunSmall, NEFFTConvolutionLayerFixture, framework::DatasetMode::PRECOMMIT, combine(combine(combine(datasets::SmallFFTConvolutionLayerDataset(), framework::dataset::make("DataType", DataType::F32)), framework::dataset::make("DataLayout", { DataLayout::NCHW, DataLayout::NHWC })), ActivationFunctionsSmallDataset)) { // Validate output validate(Accessor(_target), _reference, tolerance_f32, tolerance_num); } FIXTURE_DATA_TEST_CASE(RunMixedDataLayout, NEFFTConvolutionLayerMixedDataLayoutFixture, framework::DatasetMode::PRECOMMIT, combine(combine(combine(datasets::SmallFFTConvolutionLayerDataset(), framework::dataset::make("DataType", DataType::F32)), framework::dataset::make("DataLayout", { DataLayout::NCHW, DataLayout::NHWC })), ActivationFunctionsSmallDataset)) { // Validate output validate(Accessor(_target), _reference, tolerance_f32, tolerance_num); } TEST_SUITE_END() // FP32 TEST_SUITE_END() // Float TEST_SUITE_END() // FFTConvolutionLayer TEST_SUITE_END() // Neon } // namespace validation } // namespace test } // namespace arm_compute