From 43095f31edf103d71a8e2420b549d21fd349b49e Mon Sep 17 00:00:00 2001
From: arovir01 <Aron.Virginas-Tar@arm.com>
Date: Tue, 9 Oct 2018 18:04:24 +0100
Subject: IVGCVSW-1988: Refactor backend-specific unit tests

Change-Id: I8eca81d2e0780390eaa837c186ffe1c7d41fdebe
---
 src/backends/test/CreateWorkloadNeon.cpp | 530 -------------------------------
 1 file changed, 530 deletions(-)
 delete mode 100644 src/backends/test/CreateWorkloadNeon.cpp

(limited to 'src/backends/test/CreateWorkloadNeon.cpp')

diff --git a/src/backends/test/CreateWorkloadNeon.cpp b/src/backends/test/CreateWorkloadNeon.cpp
deleted file mode 100644
index b2ec563a69..0000000000
--- a/src/backends/test/CreateWorkloadNeon.cpp
+++ /dev/null
@@ -1,530 +0,0 @@
-//
-// Copyright © 2017 Arm Ltd. All rights reserved.
-// SPDX-License-Identifier: MIT
-//
-#include <backends/neon/NeonWorkloadFactory.hpp>
-#include <backends/neon/NeonTensorHandle.hpp>
-#include <backends/neon/workloads/NeonWorkloadUtils.hpp>
-#include <backends/neon/workloads/NeonWorkloads.hpp>
-#include <backends/MemCopyWorkload.hpp>
-
-#include "test/CreateWorkloadClNeon.hpp"
-
-BOOST_AUTO_TEST_SUITE(CreateWorkloadNeon)
-
-namespace
-{
-
-bool TestNeonTensorHandleInfo(armnn::INeonTensorHandle* handle, const armnn::TensorInfo& expectedInfo)
-{
-    using namespace armnn::armcomputetensorutils;
-
-    const arm_compute::ITensorInfo* handleInfo = handle->GetTensor().info();
-    const arm_compute::TensorInfo expectedAclInfo = BuildArmComputeTensorInfo(expectedInfo);
-
-    if (handleInfo->data_type() != expectedAclInfo.data_type())
-    {
-        return false;
-    }
-
-    if (handleInfo->num_dimensions() != expectedAclInfo.num_dimensions())
-    {
-        return false;
-    }
-
-    if (handleInfo->quantization_info() != expectedAclInfo.quantization_info())
-    {
-        return false;
-    }
-
-    for (std::size_t d = 0; d < expectedAclInfo.num_dimensions(); ++d)
-    {
-        if (handleInfo->dimension(d) != expectedAclInfo.dimension(d))
-        {
-            return false;
-        }
-    }
-
-    return true;
-}
-
-} // namespace
-
-template <typename ActivationWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateActivationWorkloadTest()
-{
-    Graph graph;
-    NeonWorkloadFactory factory;
-    auto workload = CreateActivationWorkloadTest<ActivationWorkloadType, DataType>
-            (factory, graph);
-
-    // Checks that inputs/outputs are as we expect them (see definition of CreateActivationWorkloadTest).
-    ActivationQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({1, 1}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({1, 1}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateActivationFloat16Workload)
-{
-    NeonCreateActivationWorkloadTest<NeonActivationFloatWorkload, DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateActivationFloatWorkload)
-{
-    NeonCreateActivationWorkloadTest<NeonActivationFloatWorkload, DataType::Float32>();
-}
-
-template <typename WorkloadType,
-          typename DescriptorType,
-          typename LayerType,
-          armnn::DataType DataType>
-static void NeonCreateArithmethicWorkloadTest()
-{
-    Graph graph;
-    NeonWorkloadFactory factory;
-    auto workload = CreateArithmeticWorkloadTest<WorkloadType, DescriptorType, LayerType, DataType>(factory, graph);
-
-    DescriptorType queueDescriptor = workload->GetData();
-    auto inputHandle1 = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto inputHandle2 = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[1]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle1, TensorInfo({2, 3}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle2, TensorInfo({2, 3}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({2, 3}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateAdditionFloat16Workload)
-{
-    NeonCreateArithmethicWorkloadTest<NeonAdditionFloatWorkload,
-                                      AdditionQueueDescriptor,
-                                      AdditionLayer,
-                                      DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateAdditionFloatWorkload)
-{
-    NeonCreateArithmethicWorkloadTest<NeonAdditionFloatWorkload,
-                                      AdditionQueueDescriptor,
-                                      AdditionLayer,
-                                      DataType::Float32>();
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateSubtractionFloat16Workload)
-{
-    NeonCreateArithmethicWorkloadTest<NeonSubtractionFloatWorkload,
-                                      SubtractionQueueDescriptor,
-                                      SubtractionLayer,
-                                      DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateSubtractionFloatWorkload)
-{
-    NeonCreateArithmethicWorkloadTest<NeonSubtractionFloatWorkload,
-                                      SubtractionQueueDescriptor,
-                                      SubtractionLayer,
-                                      DataType::Float32>();
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateMultiplicationFloat16Workload)
-{
-    NeonCreateArithmethicWorkloadTest<NeonMultiplicationFloatWorkload,
-                                      MultiplicationQueueDescriptor,
-                                      MultiplicationLayer,
-                                      DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateMultiplicationFloatWorkload)
-{
-    NeonCreateArithmethicWorkloadTest<NeonMultiplicationFloatWorkload,
-                                      MultiplicationQueueDescriptor,
-                                      MultiplicationLayer,
-                                      DataType::Float32>();
-}
-
-template <typename BatchNormalizationWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateBatchNormalizationWorkloadTest()
-{
-    Graph                graph;
-    NeonWorkloadFactory  factory;
-    auto workload = CreateBatchNormalizationWorkloadTest<BatchNormalizationWorkloadType, DataType>(factory, graph);
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreateBatchNormalizationWorkloadTest).
-    BatchNormalizationQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({2, 3, 1, 1}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({2, 3, 1, 1}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateBatchNormalizationFloat16Workload)
-{
-    NeonCreateBatchNormalizationWorkloadTest<NeonBatchNormalizationFloatWorkload, DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateBatchNormalizationFloatWorkload)
-{
-    NeonCreateBatchNormalizationWorkloadTest<NeonBatchNormalizationFloatWorkload, DataType::Float32>();
-}
-
-template <typename Convolution2dWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateConvolution2dWorkloadTest(DataLayout dataLayout = DataLayout::NCHW)
-{
-    Graph                graph;
-    NeonWorkloadFactory  factory;
-    auto                 workload = CreateConvolution2dWorkloadTest<Convolution2dWorkloadType,
-                                    DataType>(factory, graph, dataLayout);
-
-    TensorShape inputShape  = (dataLayout == DataLayout::NCHW) ? TensorShape{2, 3, 8, 16} : TensorShape{2, 8, 16, 3};
-    TensorShape outputShape = (dataLayout == DataLayout::NCHW) ? TensorShape{2, 2, 2, 10} : TensorShape{2, 2, 10, 2};
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreateConvolution2dWorkloadTest).
-    Convolution2dQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo(inputShape, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle,  TensorInfo(outputShape, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateConvolution2dFloat16NchwWorkload)
-{
-    NeonCreateConvolution2dWorkloadTest<NeonConvolution2dFloatWorkload, DataType::Float16>();
-}
-
-BOOST_AUTO_TEST_CASE(CreateConvolution2dFloat16NhwcWorkload)
-{
-    NeonCreateConvolution2dWorkloadTest<NeonConvolution2dFloatWorkload, DataType::Float16>(DataLayout::NHWC);
-}
-
-#endif
-BOOST_AUTO_TEST_CASE(CreateConvolution2dFloatNchwWorkload)
-{
-    NeonCreateConvolution2dWorkloadTest<NeonConvolution2dFloatWorkload, DataType::Float32>();
-}
-
-BOOST_AUTO_TEST_CASE(CreateConvolution2dFloatNhwcWorkload)
-{
-    NeonCreateConvolution2dWorkloadTest<NeonConvolution2dFloatWorkload, DataType::Float32>(DataLayout::NHWC);
-}
-
-template <typename FullyConnectedWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateFullyConnectedWorkloadTest()
-{
-    Graph               graph;
-    NeonWorkloadFactory factory;
-    auto                workload = CreateFullyConnectedWorkloadTest<FullyConnectedWorkloadType,
-                                   DataType>(factory, graph);
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreateFullyConnectedWorkloadTest).
-    FullyConnectedQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({3, 1, 4, 5}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({3, 7}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateFullyConnectedFloat16Workload)
-{
-    NeonCreateFullyConnectedWorkloadTest<NeonFullyConnectedWorkload, DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateFullyConnectedFloatWorkload)
-{
-    NeonCreateFullyConnectedWorkloadTest<NeonFullyConnectedWorkload, DataType::Float32>();
-}
-
-template <typename NormalizationWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateNormalizationWorkloadTest(DataLayout dataLayout)
-{
-    Graph graph;
-    NeonWorkloadFactory factory;
-    auto workload = CreateNormalizationWorkloadTest<NormalizationWorkloadType, DataType>(factory, graph, dataLayout);
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreateNormalizationWorkloadTest).
-    NormalizationQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({3, 5, 5, 1}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({3, 5, 5, 1}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateNormalizationFloat16NchwWorkload)
-{
-    NeonCreateNormalizationWorkloadTest<NeonNormalizationFloatWorkload, DataType::Float16>(DataLayout::NCHW);
-}
-
-BOOST_AUTO_TEST_CASE(CreateNormalizationFloat16NhwcWorkload)
-{
-    NeonCreateNormalizationWorkloadTest<NeonNormalizationFloatWorkload, DataType::Float16>(DataLayout::NHWC);
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateNormalizationFloatNchwWorkload)
-{
-    NeonCreateNormalizationWorkloadTest<NeonNormalizationFloatWorkload, DataType::Float32>(DataLayout::NCHW);
-}
-
-BOOST_AUTO_TEST_CASE(CreateNormalizationFloatNhwcWorkload)
-{
-    NeonCreateNormalizationWorkloadTest<NeonNormalizationFloatWorkload, DataType::Float32>(DataLayout::NHWC);
-}
-
-
-template <typename Pooling2dWorkloadType, typename armnn::DataType DataType>
-static void NeonCreatePooling2dWorkloadTest(DataLayout dataLayout = DataLayout::NCHW)
-{
-    Graph               graph;
-    NeonWorkloadFactory factory;
-    auto                workload = CreatePooling2dWorkloadTest<Pooling2dWorkloadType, DataType>
-                                   (factory, graph, dataLayout);
-
-    TensorShape inputShape  = (dataLayout == DataLayout::NCHW) ? TensorShape{3, 2, 5, 5} : TensorShape{3, 5, 5, 2};
-    TensorShape outputShape = (dataLayout == DataLayout::NCHW) ? TensorShape{3, 2, 2, 4} : TensorShape{3, 2, 4, 2};
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreatePooling2dWorkloadTest).
-    Pooling2dQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo(inputShape, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo(outputShape, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreatePooling2dFloat16Workload)
-{
-    NeonCreatePooling2dWorkloadTest<NeonPooling2dFloatWorkload, DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreatePooling2dFloatNchwWorkload)
-{
-    NeonCreatePooling2dWorkloadTest<NeonPooling2dFloatWorkload, DataType::Float32>(DataLayout::NCHW);
-}
-
-BOOST_AUTO_TEST_CASE(CreatePooling2dFloatNhwcWorkload)
-{
-    NeonCreatePooling2dWorkloadTest<NeonPooling2dFloatWorkload, DataType::Float32>(DataLayout::NHWC);
-}
-
-BOOST_AUTO_TEST_CASE(CreatePooling2dUint8NchwWorkload)
-{
-    NeonCreatePooling2dWorkloadTest<NeonPooling2dUint8Workload, DataType::QuantisedAsymm8>(DataLayout::NCHW);
-}
-
-BOOST_AUTO_TEST_CASE(CreatePooling2dUint8NhwcWorkload)
-{
-    NeonCreatePooling2dWorkloadTest<NeonPooling2dUint8Workload, DataType::QuantisedAsymm8>(DataLayout::NHWC);
-}
-
-template <typename ReshapeWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateReshapeWorkloadTest()
-{
-    Graph               graph;
-    NeonWorkloadFactory factory;
-    auto                workload = CreateReshapeWorkloadTest<ReshapeWorkloadType, DataType>(factory, graph);
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreateReshapeWorkloadTest).
-    ReshapeQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({4, 1}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({1, 4}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateReshapeFloat16Workload)
-{
-    NeonCreateReshapeWorkloadTest<NeonReshapeFloatWorkload, DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateReshapeFloatWorkload)
-{
-    NeonCreateReshapeWorkloadTest<NeonReshapeFloatWorkload, DataType::Float32>();
-}
-
-BOOST_AUTO_TEST_CASE(CreateReshapeUint8Workload)
-{
-    NeonCreateReshapeWorkloadTest<NeonReshapeUint8Workload, DataType::QuantisedAsymm8>();
-}
-
-template <typename SoftmaxWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateSoftmaxWorkloadTest()
-{
-    Graph               graph;
-    NeonWorkloadFactory factory;
-    auto workload = CreateSoftmaxWorkloadTest<SoftmaxWorkloadType, DataType>(factory, graph);
-
-    // Checks that outputs and inputs are as we expect them (see definition of CreateSoftmaxWorkloadTest).
-    SoftmaxQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle  = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({4, 1}, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({4, 1}, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateSoftmaxFloat16Workload)
-{
-    NeonCreateSoftmaxWorkloadTest<NeonSoftmaxFloatWorkload, DataType::Float16>();
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateSoftmaxFloatWorkload)
-{
-    NeonCreateSoftmaxWorkloadTest<NeonSoftmaxFloatWorkload, DataType::Float32>();
-}
-
-BOOST_AUTO_TEST_CASE(CreateSplitterWorkload)
-{
-    Graph graph;
-    NeonWorkloadFactory factory;
-    auto workload = CreateSplitterWorkloadTest<NeonSplitterFloatWorkload, DataType::Float32>(factory, graph);
-
-    // Checks that outputs are as we expect them (see definition of CreateSplitterWorkloadTest).
-    SplitterQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({5, 7, 7}, DataType::Float32)));
-
-    auto outputHandle0 = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle0, TensorInfo({1, 7, 7}, DataType::Float32)));
-
-    auto outputHandle1 = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[1]);
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle1, TensorInfo({2, 7, 7}, DataType::Float32)));
-
-    auto outputHandle2 = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[2]);
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle2, TensorInfo({2, 7, 7}, DataType::Float32)));
-}
-
-BOOST_AUTO_TEST_CASE(CreateSplitterMerger)
-{
-    // Tests that it is possible to decide which output of the splitter layer
-    // should be lined to which input of the merger layer.
-    // We tested that is is possible to specify 0th output
-    // of the splitter to be the 1st input to the merger, and the 1st output of the splitter to be 0th input
-    // of the merger.
-
-    Graph graph;
-    NeonWorkloadFactory factory;
-
-    auto workloads =
-        CreateSplitterMergerWorkloadTest<NeonSplitterFloatWorkload, NeonMergerFloatWorkload,
-            DataType::Float32>(factory, graph);
-
-    auto wlSplitter = std::move(workloads.first);
-    auto wlMerger = std::move(workloads.second);
-
-    //Checks that the index of inputs/outputs matches what we declared on InputDescriptor construction.
-    armnn::INeonTensorHandle* sOut0 = dynamic_cast<armnn::INeonTensorHandle*>(wlSplitter->GetData().m_Outputs[0]);
-    armnn::INeonTensorHandle* sOut1 = dynamic_cast<armnn::INeonTensorHandle*>(wlSplitter->GetData().m_Outputs[1]);
-    armnn::INeonTensorHandle* mIn0 = dynamic_cast<armnn::INeonTensorHandle*>(wlMerger->GetData().m_Inputs[0]);
-    armnn::INeonTensorHandle* mIn1 = dynamic_cast<armnn::INeonTensorHandle*>(wlMerger->GetData().m_Inputs[1]);
-
-    BOOST_TEST(sOut0);
-    BOOST_TEST(sOut1);
-    BOOST_TEST(mIn0);
-    BOOST_TEST(mIn1);
-
-    bool validDataPointers = (sOut0 == mIn1) && (sOut1 == mIn0);
-
-    BOOST_TEST(validDataPointers);
-}
-
-BOOST_AUTO_TEST_CASE(CreateSingleOutputMultipleInputs)
-{
-    // Tests that it is possible to assign multiple (two) different layers to each of the outputs of a splitter layer.
-    // We created a splitter with two outputs. That each of those outputs is used by two different activation layers
-
-    Graph graph;
-    NeonWorkloadFactory factory;
-    std::unique_ptr<NeonSplitterFloatWorkload> wlSplitter;
-    std::unique_ptr<NeonActivationFloatWorkload> wlActiv0_0;
-    std::unique_ptr<NeonActivationFloatWorkload> wlActiv0_1;
-    std::unique_ptr<NeonActivationFloatWorkload> wlActiv1_0;
-    std::unique_ptr<NeonActivationFloatWorkload> wlActiv1_1;
-
-    CreateSplitterMultipleInputsOneOutputWorkloadTest<NeonSplitterFloatWorkload,
-        NeonActivationFloatWorkload, DataType::Float32>(factory, graph, wlSplitter, wlActiv0_0, wlActiv0_1,
-                                                                 wlActiv1_0, wlActiv1_1);
-
-    armnn::INeonTensorHandle* sOut0 = dynamic_cast<armnn::INeonTensorHandle*>(wlSplitter->GetData().m_Outputs[0]);
-    armnn::INeonTensorHandle* sOut1 = dynamic_cast<armnn::INeonTensorHandle*>(wlSplitter->GetData().m_Outputs[1]);
-    armnn::INeonTensorHandle* activ0_0Im = dynamic_cast<armnn::INeonTensorHandle*>(wlActiv0_0->GetData().m_Inputs[0]);
-    armnn::INeonTensorHandle* activ0_1Im = dynamic_cast<armnn::INeonTensorHandle*>(wlActiv0_1->GetData().m_Inputs[0]);
-    armnn::INeonTensorHandle* activ1_0Im = dynamic_cast<armnn::INeonTensorHandle*>(wlActiv1_0->GetData().m_Inputs[0]);
-    armnn::INeonTensorHandle* activ1_1Im = dynamic_cast<armnn::INeonTensorHandle*>(wlActiv1_1->GetData().m_Inputs[0]);
-
-
-    BOOST_TEST(sOut0);
-    BOOST_TEST(sOut1);
-    BOOST_TEST(activ0_0Im);
-    BOOST_TEST(activ0_1Im);
-    BOOST_TEST(activ1_0Im);
-    BOOST_TEST(activ1_1Im);
-
-    bool validDataPointers = (sOut0 == activ0_0Im) && (sOut0 == activ0_1Im) &&
-                             (sOut1 == activ1_0Im) && (sOut1 == activ1_1Im);
-
-    BOOST_TEST(validDataPointers);
-}
-
-BOOST_AUTO_TEST_CASE(CreateMemCopyWorkloadsNeon)
-{
-    NeonWorkloadFactory    factory;
-    CreateMemCopyWorkloads<INeonTensorHandle>(factory);
-}
-
-template <typename L2NormalizationWorkloadType, typename armnn::DataType DataType>
-static void NeonCreateL2NormalizationWorkloadTest(DataLayout dataLayout)
-{
-    Graph                graph;
-    NeonWorkloadFactory  factory;
-    auto                 workload = CreateL2NormalizationWorkloadTest<L2NormalizationWorkloadType,
-                                    DataType>(factory, graph, dataLayout);
-
-    // Checks that inputs/outputs are as we expect them (see definition of CreateNormalizationWorkloadTest).
-    L2NormalizationQueueDescriptor queueDescriptor = workload->GetData();
-    auto inputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Inputs[0]);
-    auto outputHandle = boost::polymorphic_downcast<INeonTensorHandle*>(queueDescriptor.m_Outputs[0]);
-    BOOST_TEST(TestNeonTensorHandleInfo(inputHandle, TensorInfo({ 5, 20, 50, 67 }, DataType)));
-    BOOST_TEST(TestNeonTensorHandleInfo(outputHandle, TensorInfo({ 5, 20, 50, 67 }, DataType)));
-}
-
-#ifdef __ARM_FEATURE_FP16_VECTOR_ARITHMETIC
-BOOST_AUTO_TEST_CASE(CreateL2NormalizationFloat16NchwWorkload)
-{
-    NeonCreateL2NormalizationWorkloadTest<NeonL2NormalizationFloatWorkload, DataType::Float16>(DataLayout::NCHW);
-}
-
-BOOST_AUTO_TEST_CASE(CreateL2NormalizationFloat16NhwcWorkload)
-{
-    NeonCreateL2NormalizationWorkloadTest<NeonL2NormalizationFloatWorkload, DataType::Float16>(DataLayout::NHWC);
-}
-#endif
-
-BOOST_AUTO_TEST_CASE(CreateL2NormalizationNchwWorkload)
-{
-    NeonCreateL2NormalizationWorkloadTest<NeonL2NormalizationFloatWorkload, DataType::Float32>(DataLayout::NCHW);
-}
-
-BOOST_AUTO_TEST_CASE(CreateL2NormalizationNhwcWorkload)
-{
-    NeonCreateL2NormalizationWorkloadTest<NeonL2NormalizationFloatWorkload, DataType::Float32>(DataLayout::NHWC);
-}
-
-BOOST_AUTO_TEST_SUITE_END()
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