plain/20.02/_prelu_test_impl_8hpp_source.xhtml

 //
 // Copyright © 2017 Arm Ltd. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #pragma once

 #include "LayerTestResult.hpp"

 #include <QuantizeHelper.hpp>
 #include <ResolveType.hpp>


 #include <armnn/backends/IBackendInternal.hpp>
 #include <backendsCommon/WorkloadFactory.hpp>

 #include <backendsCommon/test/TensorCopyUtils.hpp>
 #include <backendsCommon/test/WorkloadTestUtils.hpp>

 #include <test/TensorHelpers.hpp>

 template<armnn::DataType ArmnnType, typename T = armnn::ResolveType<ArmnnType>>
 LayerTestResult<T, 4> PreluTest(
         armnn::IWorkloadFactory& workloadFactory,
         const armnn::IBackendInternal::IMemoryManagerSharedPtr& memoryManager)
 {
     IgnoreUnused(memoryManager);

     armnn::TensorInfo inputTensorInfo ({ 1, 2, 2, 3 }, ArmnnType);
     armnn::TensorInfo alphaTensorInfo ({ 1, 1, 1, 3 }, ArmnnType);
     armnn::TensorInfo outputTensorInfo({ 1, 2, 2, 3 }, ArmnnType);

     if (armnn::IsQuantizedType<T>())
     {
         inputTensorInfo.SetQuantizationScale(0.25f);
         inputTensorInfo.SetQuantizationOffset(128);
         alphaTensorInfo.SetQuantizationScale(0.25f);
         alphaTensorInfo.SetQuantizationOffset(50);
         outputTensorInfo.SetQuantizationScale(0.5f);
         outputTensorInfo.SetQuantizationOffset(120);
     }

     std::vector<float> inputData
     {
         // Expected quantized values:
         // 128, 128, 128, 132, 132, 132, 124, 124, 124, 120, 120, 120
         0.0f, 0.0f, 0.0f, 1.0f, 1.0f, 1.0f, -1.0f, -1.0f, -1.0f, -2.0f, -2.0f, -2.0f
     };
     std::vector<float> alphaData
     {
         // Expected quantized values:
         // 50, 54, 58
         0.0f, 1.0f, 2.0f
     };
     std::vector<float> outputExpectedData =
     {
         // Expected quantized values:
         // 20, 120, 120, 122, 122, 122, 120, 118, 116, 120, 116, 112
        0.0f, 0.0f, 0.0f, 1.0f, 1.0f, 1.0f, 0.0f, -1.0f, -2.0f, 0.0f, -2.0f, -4.0f
     };

     auto input = MakeTensor<T, 4>(inputTensorInfo,
                                   armnnUtils::QuantizedVector<T>(inputData,
                                                                  inputTensorInfo.GetQuantizationScale(),
                                                                  inputTensorInfo.GetQuantizationOffset()));

     auto alpha = MakeTensor<T, 4>(alphaTensorInfo,
                                   armnnUtils::QuantizedVector<T>(alphaData,
                                                                  alphaTensorInfo.GetQuantizationScale(),
                                                                  alphaTensorInfo.GetQuantizationOffset()));

     LayerTestResult<T, 4> result(outputTensorInfo);
     result.outputExpected =
         MakeTensor<T, 4>(outputTensorInfo,
                          armnnUtils::QuantizedVector<T>(outputExpectedData,
                                                         outputTensorInfo.GetQuantizationScale(),
                                                         outputTensorInfo.GetQuantizationOffset()));

     std::unique_ptr <armnn::ITensorHandle> inputHandle  = workloadFactory.CreateTensorHandle(inputTensorInfo);
     std::unique_ptr <armnn::ITensorHandle> alphaHandle  = workloadFactory.CreateTensorHandle(alphaTensorInfo);
     std::unique_ptr <armnn::ITensorHandle> outputHandle = workloadFactory.CreateTensorHandle(outputTensorInfo);

     armnn::PreluQueueDescriptor descriptor;
     armnn::WorkloadInfo info;
     AddInputToWorkload (descriptor, info, inputTensorInfo,  inputHandle.get());
     AddInputToWorkload (descriptor, info, alphaTensorInfo,  alphaHandle.get());
     AddOutputToWorkload(descriptor, info, outputTensorInfo, outputHandle.get());

     std::unique_ptr<armnn::IWorkload> workload = workloadFactory.CreatePrelu(descriptor, info);

     inputHandle->Allocate();
     alphaHandle->Allocate();
     outputHandle->Allocate();

     CopyDataToITensorHandle(inputHandle.get(), &input[0][0][0][0]);
     CopyDataToITensorHandle(alphaHandle.get(), &alpha[0][0][0][0]);

     workload->Execute();

     CopyDataFromITensorHandle(&result.output[0][0][0][0], outputHandle.get());

     return result;
 }
TensorCopyUtils.hpp

WorkloadFactory.hpp

armnn::TensorInfo
Definition: Tensor.hpp:53

QuantizeHelper.hpp

armnn::IWorkloadFactory
Definition: WorkloadFactory.hpp:21

WorkloadTestUtils.hpp

LayerTestResult::outputExpected
boost::multi_array< T, n > outputExpected
Definition: LayerTestResult.hpp:41

ResolveType.hpp

armnn::IgnoreUnused
void IgnoreUnused(Ts &&...)
Definition: IgnoreUnused.hpp:14

armnn::PreluQueueDescriptor
Definition: WorkloadData.hpp:489

LayerTestResult.hpp

TensorHelpers.hpp

IBackendInternal.hpp

armnn::IBackendInternal::IMemoryManagerSharedPtr
std::shared_ptr< IMemoryManager > IMemoryManagerSharedPtr
Definition: IBackendInternal.hpp:90

armnn::TensorInfo::SetQuantizationScale
void SetQuantizationScale(float scale)
Definition: Tensor.cpp:259

CopyDataFromITensorHandle
void CopyDataFromITensorHandle(void *memory, const armnn::ITensorHandle *tensorHandle)
Definition: TensorCopyUtils.cpp:14

armnn::IWorkloadFactory::CreateTensorHandle
virtual std::unique_ptr< ITensorHandle > CreateTensorHandle(const TensorInfo &tensorInfo, const bool IsMemoryManaged=true) const =0

LayerTestResult::output
boost::multi_array< T, n > output
Definition: LayerTestResult.hpp:40

PreluTest
LayerTestResult< T, 4 > PreluTest(armnn::IWorkloadFactory &workloadFactory, const armnn::IBackendInternal::IMemoryManagerSharedPtr &memoryManager)
Definition: PreluTestImpl.hpp:23

armnn::WorkloadInfo
Contains information about inputs and outputs to a layer.
Definition: WorkloadInfo.hpp:16

LayerTestResult
Definition: LayerTestResult.hpp:29

CopyDataToITensorHandle
void CopyDataToITensorHandle(armnn::ITensorHandle *tensorHandle, const void *memory)
Definition: TensorCopyUtils.cpp:9

armnn::IWorkloadFactory::CreatePrelu
virtual std::unique_ptr< IWorkload > CreatePrelu(const PreluQueueDescriptor &descriptor, const WorkloadInfo &info) const
Definition: WorkloadFactory.cpp:1352