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//
// Copyright © 2022-2023 Arm Ltd and Contributors. All rights reserved.
// SPDX-License-Identifier: MIT
//
#pragma once
#include <armnn/Deprecated.hpp>
#include <armnn/Descriptors.hpp>
#include <armnn/Exceptions.hpp>
#include <armnn/IRuntime.hpp>
#include <armnn/Optional.hpp>
#include <armnn/Tensor.hpp>
#include <armnn/Types.hpp>
#include <armnn/backends/IBackendInternal.hpp>
#include <armnn/backends/MemCopyWorkload.hpp>
#include <armnn/backends/ITensorHandle.hpp>
#include <armnn/backends/IWorkload.hpp>
#include <armnn/backends/OptimizationViews.hpp>
#include <armnn/backends/SubgraphView.hpp>
#include <armnn/backends/WorkloadData.hpp>
#include <armnn/backends/WorkloadFactory.hpp>
#include <armnn/backends/WorkloadInfo.hpp>
#include <armnn/utility/IgnoreUnused.hpp>
#include <armnn/utility/PolymorphicDowncast.hpp>
#include <armnnTestUtils/MockTensorHandle.hpp>
#include <backendsCommon/LayerSupportBase.hpp>
#include <client/include/CounterValue.hpp>
#include <client/include/ISendTimelinePacket.hpp>
#include <client/include/Timestamp.hpp>
#include <client/include/backends/IBackendProfiling.hpp>
#include <client/include/backends/IBackendProfilingContext.hpp>
#include <common/include/Optional.hpp>
#include <atomic>
#include <cstdint>
#include <memory>
#include <string>
#include <utility>
#include <vector>
namespace armnn
{
class BackendId;
class ICustomAllocator;
class MockMemoryManager;
struct LstmInputParamsInfo;
struct QuantizedLstmInputParamsInfo;
// A bare bones Mock backend to enable unit testing of simple tensor manipulation features.
class MockBackend : public IBackendInternal
{
public:
MockBackend() = default;
~MockBackend() = default;
static const BackendId& GetIdStatic();
const BackendId& GetId() const override
{
return GetIdStatic();
}
IBackendInternal::IWorkloadFactoryPtr
CreateWorkloadFactory(const IBackendInternal::IMemoryManagerSharedPtr& memoryManager = nullptr) const override;
IBackendInternal::ILayerSupportSharedPtr GetLayerSupport() const override;
IBackendInternal::IMemoryManagerUniquePtr CreateMemoryManager() const override;
IBackendInternal::IBackendContextPtr CreateBackendContext(const IRuntime::CreationOptions&) const override;
IBackendInternal::IBackendProfilingContextPtr
CreateBackendProfilingContext(const IRuntime::CreationOptions& creationOptions,
IBackendProfilingPtr& backendProfiling) override;
OptimizationViews OptimizeSubgraphView(const SubgraphView& subgraph) const override;
std::unique_ptr<ICustomAllocator> GetDefaultAllocator() const override;
};
class MockWorkloadFactory : public IWorkloadFactory
{
public:
explicit MockWorkloadFactory(const std::shared_ptr<MockMemoryManager>& memoryManager);
MockWorkloadFactory();
~MockWorkloadFactory()
{}
const BackendId& GetBackendId() const override;
bool SupportsSubTensors() const override
{
return false;
}
ARMNN_DEPRECATED_MSG("Use ITensorHandleFactory::CreateSubTensorHandle instead")
std::unique_ptr<ITensorHandle> CreateSubTensorHandle(ITensorHandle&,
TensorShape const&,
unsigned int const*) const override
{
return nullptr;
}
ARMNN_DEPRECATED_MSG("Use ITensorHandleFactory::CreateTensorHandle instead")
std::unique_ptr<ITensorHandle> CreateTensorHandle(const TensorInfo& tensorInfo,
const bool IsMemoryManaged = true) const override
{
IgnoreUnused(IsMemoryManaged);
return std::make_unique<MockTensorHandle>(tensorInfo, m_MemoryManager);
};
ARMNN_DEPRECATED_MSG("Use ITensorHandleFactory::CreateTensorHandle instead")
std::unique_ptr<ITensorHandle> CreateTensorHandle(const TensorInfo& tensorInfo,
DataLayout dataLayout,
const bool IsMemoryManaged = true) const override
{
IgnoreUnused(dataLayout, IsMemoryManaged);
return std::make_unique<MockTensorHandle>(tensorInfo, static_cast<unsigned int>(MemorySource::Malloc));
};
std::unique_ptr<IWorkload>
CreateWorkload(LayerType type, const QueueDescriptor& descriptor, const WorkloadInfo& info) const override;
private:
mutable std::shared_ptr<MockMemoryManager> m_MemoryManager;
};
class MockBackendInitialiser
{
public:
MockBackendInitialiser();
~MockBackendInitialiser();
};
class MockBackendProfilingContext : public arm::pipe::IBackendProfilingContext
{
public:
MockBackendProfilingContext(IBackendInternal::IBackendProfilingPtr& backendProfiling)
: m_BackendProfiling(std::move(backendProfiling))
, m_CapturePeriod(0)
, m_IsTimelineEnabled(true)
{}
~MockBackendProfilingContext() = default;
IBackendInternal::IBackendProfilingPtr& GetBackendProfiling()
{
return m_BackendProfiling;
}
uint16_t RegisterCounters(uint16_t currentMaxGlobalCounterId)
{
std::unique_ptr<arm::pipe::IRegisterBackendCounters> counterRegistrar =
m_BackendProfiling->GetCounterRegistrationInterface(static_cast<uint16_t>(currentMaxGlobalCounterId));
std::string categoryName("MockCounters");
counterRegistrar->RegisterCategory(categoryName);
counterRegistrar->RegisterCounter(0, categoryName, 0, 0, 1.f, "Mock Counter One", "Some notional counter");
counterRegistrar->RegisterCounter(1, categoryName, 0, 0, 1.f, "Mock Counter Two",
"Another notional counter");
std::string units("microseconds");
uint16_t nextMaxGlobalCounterId =
counterRegistrar->RegisterCounter(2, categoryName, 0, 0, 1.f, "Mock MultiCore Counter",
"A dummy four core counter", units, 4);
return nextMaxGlobalCounterId;
}
arm::pipe::Optional<std::string> ActivateCounters(uint32_t capturePeriod, const std::vector<uint16_t>& counterIds)
{
if (capturePeriod == 0 || counterIds.size() == 0)
{
m_ActiveCounters.clear();
}
else if (capturePeriod == 15939u)
{
return arm::pipe::Optional<std::string>("ActivateCounters example test error");
}
m_CapturePeriod = capturePeriod;
m_ActiveCounters = counterIds;
return arm::pipe::Optional<std::string>();
}
std::vector<arm::pipe::Timestamp> ReportCounterValues()
{
std::vector<arm::pipe::CounterValue> counterValues;
for (auto counterId : m_ActiveCounters)
{
counterValues.emplace_back(arm::pipe::CounterValue{ counterId, counterId + 1u });
}
uint64_t timestamp = m_CapturePeriod;
return { arm::pipe::Timestamp{ timestamp, counterValues } };
}
bool EnableProfiling(bool)
{
auto sendTimelinePacket = m_BackendProfiling->GetSendTimelinePacket();
sendTimelinePacket->SendTimelineEntityBinaryPacket(4256);
sendTimelinePacket->Commit();
return true;
}
bool EnableTimelineReporting(bool isEnabled)
{
m_IsTimelineEnabled = isEnabled;
return isEnabled;
}
bool TimelineReportingEnabled()
{
return m_IsTimelineEnabled;
}
private:
IBackendInternal::IBackendProfilingPtr m_BackendProfiling;
uint32_t m_CapturePeriod;
std::vector<uint16_t> m_ActiveCounters;
std::atomic<bool> m_IsTimelineEnabled;
};
class MockBackendProfilingService
{
public:
// Getter for the singleton instance
static MockBackendProfilingService& Instance()
{
static MockBackendProfilingService instance;
return instance;
}
MockBackendProfilingContext* GetContext()
{
return m_sharedContext.get();
}
void SetProfilingContextPtr(std::shared_ptr<MockBackendProfilingContext> shared)
{
m_sharedContext = shared;
}
private:
std::shared_ptr<MockBackendProfilingContext> m_sharedContext;
};
class MockLayerSupport : public LayerSupportBase
{
public:
bool IsLayerSupported(const LayerType& type,
const std::vector<TensorInfo>& infos,
const BaseDescriptor& descriptor,
const Optional<LstmInputParamsInfo>& /*lstmParamsInfo*/,
const Optional<QuantizedLstmInputParamsInfo>& /*quantizedLstmParamsInfo*/,
Optional<std::string&> reasonIfUnsupported) const override
{
switch(type)
{
case LayerType::Input:
return IsInputSupported(infos[0], reasonIfUnsupported);
case LayerType::Output:
return IsOutputSupported(infos[0], reasonIfUnsupported);
case LayerType::Addition:
return IsAdditionSupported(infos[0], infos[1], infos[2], reasonIfUnsupported);
case LayerType::Convolution2d:
{
if (infos.size() != 4)
{
throw InvalidArgumentException("Invalid number of TransposeConvolution2d "
"TensorInfos. TensorInfos should be of format: "
"{input, output, weights, biases}.");
}
auto desc = *(PolymorphicDowncast<const Convolution2dDescriptor*>(&descriptor));
if (infos[3] == TensorInfo())
{
return IsConvolution2dSupported(infos[0],
infos[1],
desc,
infos[2],
EmptyOptional(),
reasonIfUnsupported);
}
else
{
return IsConvolution2dSupported(infos[0],
infos[1],
desc,
infos[2],
infos[3],
reasonIfUnsupported);
}
}
case LayerType::ElementwiseBinary:
{
auto elementwiseDesc = *(PolymorphicDowncast<const ElementwiseBinaryDescriptor*>(&descriptor));
return (elementwiseDesc.m_Operation == BinaryOperation::Add);
}
default:
return false;
}
}
bool IsInputSupported(const TensorInfo& /*input*/,
Optional<std::string&> /*reasonIfUnsupported = EmptyOptional()*/) const
{
return true;
}
bool IsOutputSupported(const TensorInfo& /*input*/,
Optional<std::string&> /*reasonIfUnsupported = EmptyOptional()*/) const
{
return true;
}
bool IsAdditionSupported(const TensorInfo& /*input0*/,
const TensorInfo& /*input1*/,
const TensorInfo& /*output*/,
Optional<std::string&> /*reasonIfUnsupported = EmptyOptional()*/) const
{
return true;
}
bool IsConvolution2dSupported(const TensorInfo& /*input*/,
const TensorInfo& /*output*/,
const Convolution2dDescriptor& /*descriptor*/,
const TensorInfo& /*weights*/,
const Optional<TensorInfo>& /*biases*/,
Optional<std::string&> /*reasonIfUnsupported = EmptyOptional()*/) const
{
return true;
}
};
} // namespace armnn
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