/* * Copyright (c) 2018-2021 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. */ #ifndef ARM_COMPUTE_TEST_ELEMENTWISE_OPERATIONS_FIXTURE #define ARM_COMPUTE_TEST_ELEMENTWISE_OPERATIONS_FIXTURE #include "arm_compute/core/TensorShape.h" #include "arm_compute/core/Types.h" #include "arm_compute/core/Validate.h" #include "tests/AssetsLibrary.h" #include "tests/Globals.h" #include "tests/IAccessor.h" #include "tests/framework/Asserts.h" #include "tests/framework/Fixture.h" #include "tests/validation/Helpers.h" #include "tests/validation/reference/ActivationLayer.h" #include "tests/validation/reference/ElementwiseOperations.h" namespace arm_compute { namespace test { namespace validation { template class ArithmeticOperationsGenericFixture : public framework::Fixture { public: template void setup(ArithmeticOperation op, const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace = false, bool use_dynamic_shape = false) { _op = op; _use_dynamic_shape = use_dynamic_shape; _is_inplace = is_inplace; _target = compute_target(shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out); _reference = compute_reference(shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out); } protected: template void fill(U &&tensor, int i) { if(is_data_type_float(tensor.data_type())) { switch(_op) { case ArithmeticOperation::DIV: library->fill_tensor_uniform_ranged(tensor, i, { std::pair(-0.001f, 0.001f) }); break; case ArithmeticOperation::POWER: library->fill_tensor_uniform(tensor, i, 0.0f, 5.0f); break; default: library->fill_tensor_uniform(tensor, i); } } else { library->fill_tensor_uniform(tensor, i); } } TensorType compute_target(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out) { // Create tensors const TensorShape out_shape = TensorShape::broadcast_shape(shape0, shape1); TensorType ref_src1 = create_tensor(shape0, data_type0, 1, qinfo0); TensorType ref_src2 = create_tensor(shape1, data_type1, 1, qinfo1); TensorType dst = create_tensor(out_shape, output_data_type, 1, qinfo_out); // Check whether do in-place computation and whether inputs are broadcast compatible TensorType *actual_dst = &dst; if(_is_inplace) { bool src1_is_inplace = !arm_compute::detail::have_different_dimensions(out_shape, shape0, 0) && (qinfo0 == qinfo_out) && (data_type0 == output_data_type); bool src2_is_inplace = !arm_compute::detail::have_different_dimensions(out_shape, shape1, 0) && (qinfo1 == qinfo_out) && (data_type1 == output_data_type); bool do_in_place = out_shape.total_size() != 0 && (src1_is_inplace || src2_is_inplace); ARM_COMPUTE_ASSERT(do_in_place); if(src1_is_inplace) { actual_dst = &ref_src1; } else { actual_dst = &ref_src2; } } // if _use_dynamic_shape is true, this fixture will test scenario for dynamic shapes. // - At configure time, all input tensors are marked as dynamic using set_tensor_dynamic() // - After configure, tensors are marked as static for run using set_tensor_static() // - The tensors with static shape are given to run() if(_use_dynamic_shape) { set_tensor_dynamic(ref_src1); set_tensor_dynamic(ref_src2); } // Create and configure function FunctionType elem_op; elem_op.configure(&ref_src1, &ref_src2, actual_dst); if(_use_dynamic_shape) { set_tensor_static(ref_src1); set_tensor_static(ref_src2); } ARM_COMPUTE_ASSERT(ref_src1.info()->is_resizable()); ARM_COMPUTE_ASSERT(ref_src2.info()->is_resizable()); // Allocate tensors ref_src1.allocator()->allocate(); ref_src2.allocator()->allocate(); // If don't do in-place computation, still need to allocate original dst if(!_is_inplace) { ARM_COMPUTE_ASSERT(dst.info()->is_resizable()); dst.allocator()->allocate(); ARM_COMPUTE_ASSERT(!dst.info()->is_resizable()); } ARM_COMPUTE_ASSERT(!ref_src1.info()->is_resizable()); ARM_COMPUTE_ASSERT(!ref_src2.info()->is_resizable()); // Fill tensors fill(AccessorType(ref_src1), 0); fill(AccessorType(ref_src2), 1); // Compute function elem_op.run(); return std::move(*actual_dst); } SimpleTensor compute_reference(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out) { // Create reference SimpleTensor ref_src1{ shape0, data_type0, 1, qinfo0 }; SimpleTensor ref_src2{ shape1, data_type1, 1, qinfo1 }; SimpleTensor ref_dst{ TensorShape::broadcast_shape(shape0, shape1), output_data_type, 1, qinfo_out }; // Fill reference fill(ref_src1, 0); fill(ref_src2, 1); return reference::arithmetic_operation(_op, ref_src1, ref_src2, ref_dst); } TensorType _target{}; SimpleTensor _reference{}; ArithmeticOperation _op{ ArithmeticOperation::ADD }; bool _use_dynamic_shape{ false }; bool _is_inplace{ false }; }; // Arithmetic operation fused with activation function template class ArithmeticOperationsFuseActivationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(ArithmeticOperation op, const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, ActivationLayerInfo act_info, bool is_inplace = true) { ArithmeticOperationsGenericFixture::setup(op, shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); _act_info = act_info; _is_inplace = is_inplace; } protected: TensorType compute_target(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out) { // Create tensors const TensorShape out_shape = TensorShape::broadcast_shape(shape0, shape1); TensorType ref_src1 = create_tensor(shape0, data_type0, 1, qinfo0); TensorType ref_src2 = create_tensor(shape1, data_type1, 1, qinfo1); TensorType dst = create_tensor(out_shape, output_data_type, 1, qinfo_out); // Check whether do in-place computation and whether inputs are broadcast compatible TensorType *actual_dst = &dst; if(_is_inplace) { bool src1_is_inplace = !arm_compute::detail::have_different_dimensions(out_shape, shape0, 0) && (qinfo0 == qinfo_out) && (data_type0 == output_data_type); bool src2_is_inplace = !arm_compute::detail::have_different_dimensions(out_shape, shape1, 0) && (qinfo1 == qinfo_out) && (data_type1 == output_data_type); bool do_in_place = out_shape.total_size() != 0 && (src1_is_inplace || src2_is_inplace); ARM_COMPUTE_ASSERT(do_in_place); if(src1_is_inplace) { actual_dst = &ref_src1; } else { actual_dst = &ref_src2; } } // Create and configure function FunctionType elem_op; elem_op.configure(&ref_src1, &ref_src2, actual_dst, _act_info); ARM_COMPUTE_ASSERT(ref_src1.info()->is_resizable()); ARM_COMPUTE_ASSERT(ref_src2.info()->is_resizable()); // Allocate tensors ref_src1.allocator()->allocate(); ref_src2.allocator()->allocate(); // If don't do in-place computation, still need to allocate original dst if(!_is_inplace) { ARM_COMPUTE_ASSERT(dst.info()->is_resizable()); dst.allocator()->allocate(); ARM_COMPUTE_ASSERT(!dst.info()->is_resizable()); } ARM_COMPUTE_ASSERT(!ref_src1.info()->is_resizable()); ARM_COMPUTE_ASSERT(!ref_src2.info()->is_resizable()); // Fill tensors fill(AccessorType(ref_src1), 0); fill(AccessorType(ref_src2), 1); // Compute function elem_op.run(); return std::move(*actual_dst); } SimpleTensor compute_reference(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out) { auto result = ArithmeticOperationsGenericFixture::compute_reference(shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out); return _act_info.enabled() ? reference::activation_layer(result, _act_info, qinfo_out) : result; } ActivationLayerInfo _act_info{}; bool _is_inplace{ false }; }; template class ArithmeticDivisionBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::DIV, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ArithmeticDivisionValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::DIV, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ArithmeticDivisionBroadcastDynamicShapeValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::DIV, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace, true); } }; template class ArithmeticDivisionDynamicShapeValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::DIV, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ArithmeticDivisionBroadcastValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::DIV, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ArithmeticDivisionValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::DIV, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ArithmeticDivisionValidationIntegerFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::DIV, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ArithmeticDivisionValidationQuantizedFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::DIV, shape, shape, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class ElementwiseMaxBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MAX, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwiseMaxValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MAX, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwiseMaxBroadcastValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::MAX, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwiseMaxValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::MAX, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwiseMaxValidationQuantizedFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MAX, shape, shape, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class ElementwiseMaxQuantizedBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MAX, shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class ElementwiseMinBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MIN, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwiseMinValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MIN, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwiseMinBroadcastValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::MIN, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwiseMinValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::MIN, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwiseMinValidationQuantizedFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MIN, shape, shape, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class ElementwiseMinQuantizedBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::MIN, shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class ElementwiseSquaredDiffBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::SQUARED_DIFF, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwiseSquaredDiffValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::SQUARED_DIFF, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwiseSquaredDiffBroadcastValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::SQUARED_DIFF, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwiseSquaredDiffValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::SQUARED_DIFF, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwiseSquaredDiffValidationQuantizedFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::SQUARED_DIFF, shape, shape, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class ElementwiseSquaredDiffQuantizedBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::SQUARED_DIFF, shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out, is_inplace); } }; template class PReluLayerBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::PRELU, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo()); } }; template class PReluLayerValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::PRELU, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo()); } }; template class PReluLayerValidationQuantizedFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::PRELU, shape, shape, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out); } }; template class PReluLayerQuantizedBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, QuantizationInfo qinfo0, QuantizationInfo qinfo1, QuantizationInfo qinfo_out) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::PRELU, shape0, shape1, data_type0, data_type1, output_data_type, qinfo0, qinfo1, qinfo_out); } }; template class ElementwisePowerBroadcastValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::POWER, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwisePowerValidationFixture : public ArithmeticOperationsGenericFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, bool is_inplace) { ArithmeticOperationsGenericFixture::setup(ArithmeticOperation::POWER, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), is_inplace); } }; template class ElementwisePowerBroadcastValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape0, const TensorShape &shape1, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::POWER, shape0, shape1, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; template class ElementwisePowerValidationFloatFixture : public ArithmeticOperationsFuseActivationFixture { public: template void setup(const TensorShape &shape, DataType data_type0, DataType data_type1, DataType output_data_type, ActivationLayerInfo act_info, bool is_inplace) { ArithmeticOperationsFuseActivationFixture::setup(ArithmeticOperation::POWER, shape, shape, data_type0, data_type1, output_data_type, QuantizationInfo(), QuantizationInfo(), QuantizationInfo(), act_info, is_inplace); } }; } // namespace validation } // namespace test } // namespace arm_compute #endif /* ARM_COMPUTE_TEST_ARITHMETIC_OPERATIONS_FIXTURE */