src/armnn/LoadedNetwork.hpp - ml/armnn - Gitiles

 //
 // Copyright © 2017 Arm Ltd and Contributors. All rights reserved.
 // SPDX-License-Identifier: MIT
 //
 #pragma once

 #include <armnn/Tensor.hpp>
 #include <armnn/Types.hpp>

 #include "Network.hpp"
 #include "LayerFwd.hpp"
 #include "Profiling.hpp"

 #include <armnn/backends/IBackendInternal.hpp>
 #include <backendsCommon/TensorHandleFactoryRegistry.hpp>
 #include <backendsCommon/Workload.hpp>
 #include <backendsCommon/WorkloadFactory.hpp>
 #include <ProfilingService.hpp>
 #include <TimelineUtilityMethods.hpp>

 #include <mutex>
 #include <unordered_map>

 namespace cl
 {
     class Context;
     class CommandQueue;
     class Device;
 }

 namespace armnn
 {

 class LoadedNetwork
 {
 public:
     using WorkloadQueue = std::vector< std::unique_ptr<IWorkload> >;
     ~LoadedNetwork(){ FreeWorkingMemory(); }

     /// Create a new unique WorkingMemHandle object. Create multiple handles if you wish to have
     /// overlapped Execution by calling this function from different threads.
     std::unique_ptr<IWorkingMemHandle> CreateWorkingMemHandle(NetworkId networkId);

     TensorInfo GetInputTensorInfo(LayerBindingId layerId) const;
     TensorInfo GetOutputTensorInfo(LayerBindingId layerId) const;

     Status EnqueueWorkload(const InputTensors& inputTensors, const OutputTensors& outputTensors);

     Status Execute(const InputTensors& inputTensors,
                    const OutputTensors& outputTensors,
                    IWorkingMemHandle& workingMemHandle);

     static std::unique_ptr<LoadedNetwork> MakeLoadedNetwork(std::unique_ptr<IOptimizedNetwork> net,
                                                             std::string & errorMessage,
                                                             const INetworkProperties& networkProperties,
                                                             profiling::ProfilingService& profilingService);

     // NOTE we return by reference as the purpose of this method is only to provide
     // access to the private m_Profiler and in theory we should not need to increment
     // the shared_ptr's reference counter
     const std::shared_ptr<IProfiler>& GetProfiler() const { return m_Profiler; }

     void FreeWorkingMemory();

     void RegisterDebugCallback(const DebugCallbackFunction& func);

     void SendNetworkStructure();

     bool IsAsyncEnabled()
     {
         return m_NetworkProperties.m_AsyncEnabled;
     }

     profiling::ProfilingGuid GetNetworkGuid();

 private:
     using WorkloadFactoryWithMemoryManager =
     std::pair<IBackendInternal::IWorkloadFactoryPtr, IBackendInternal::IMemoryManagerSharedPtr>;

     using WorkloadFactoryMap = std::unordered_map<BackendId, WorkloadFactoryWithMemoryManager>;

     void AllocateWorkingMemory(std::lock_guard<std::mutex>& lock);
     void AllocateAndExecuteConstantWorkloads();

     std::unordered_map<LayerGuid, ITensorHandle* > m_ConstantTensorHandles;
     std::unordered_map<LayerGuid, std::unique_ptr<IWorkload> > m_ConstantWorkloads;

     LoadedNetwork(std::unique_ptr<IOptimizedNetwork> net,
                   const INetworkProperties& networkProperties,
                   profiling::ProfilingService& profilingService);

     void EnqueueInput(const BindableLayer& layer, ITensorHandle* tensorHandle, const TensorInfo& tensorInfo);

     void EnqueueOutput(const BindableLayer& layer, ITensorHandle* tensorHandle, const TensorInfo& tensorInfo);

     void EnqueueInput(const BindableLayer& layer, const ConstTensor& inputTensor, WorkingMemHandle& handle);

     void EnqueueOutput(const BindableLayer& layer, const Tensor& outputTensor, WorkingMemHandle& handle);

     bool Execute(std::unique_ptr<profiling::TimelineUtilityMethods>& timelineUtils,
                  profiling::ProfilingGuid inferenceGuid);

     const IWorkloadFactory& GetWorkloadFactory(const Layer& layer) const;

     using BackendPtrMap = std::unordered_map<BackendId, IBackendInternalUniquePtr>;

     BackendPtrMap       m_Backends;
     WorkloadFactoryMap  m_WorkloadFactories;

     std::unique_ptr<IOptimizedNetwork> m_OptimizedNetwork;
     WorkloadQueue m_InputQueue;
     WorkloadQueue m_WorkloadQueue;
     WorkloadQueue m_OutputQueue;
     std::shared_ptr<IProfiler> m_Profiler;

     mutable std::mutex m_WorkingMemMutex;

     bool m_IsWorkingMemAllocated=false;
     INetworkProperties m_NetworkProperties;

     TensorHandleFactoryRegistry m_TensorHandleFactoryRegistry;

     profiling::ProfilingService&  m_ProfilingService;
 };

 }
	//
	// Copyright © 2017 Arm Ltd and Contributors. All rights reserved.
	// SPDX-License-Identifier: MIT
	//
	#pragma once

	#include <armnn/Tensor.hpp>
	#include <armnn/Types.hpp>

	#include "Network.hpp"
	#include "LayerFwd.hpp"
	#include "Profiling.hpp"

	#include <armnn/backends/IBackendInternal.hpp>
	#include <backendsCommon/TensorHandleFactoryRegistry.hpp>
	#include <backendsCommon/Workload.hpp>
	#include <backendsCommon/WorkloadFactory.hpp>
	#include <ProfilingService.hpp>
	#include <TimelineUtilityMethods.hpp>

	#include <mutex>
	#include <unordered_map>

	namespace cl
	{
	class Context;
	class CommandQueue;
	class Device;
	}

	namespace armnn
	{

	class LoadedNetwork
	{
	public:
	using WorkloadQueue = std::vector< std::unique_ptr<IWorkload> >;
	~LoadedNetwork(){ FreeWorkingMemory(); }

	/// Create a new unique WorkingMemHandle object. Create multiple handles if you wish to have
	/// overlapped Execution by calling this function from different threads.
	std::unique_ptr<IWorkingMemHandle> CreateWorkingMemHandle(NetworkId networkId);

	TensorInfo GetInputTensorInfo(LayerBindingId layerId) const;
	TensorInfo GetOutputTensorInfo(LayerBindingId layerId) const;

	Status EnqueueWorkload(const InputTensors& inputTensors, const OutputTensors& outputTensors);

	Status Execute(const InputTensors& inputTensors,
	const OutputTensors& outputTensors,
	IWorkingMemHandle& workingMemHandle);

	static std::unique_ptr<LoadedNetwork> MakeLoadedNetwork(std::unique_ptr<IOptimizedNetwork> net,
	std::string & errorMessage,
	const INetworkProperties& networkProperties,
	profiling::ProfilingService& profilingService);

	// NOTE we return by reference as the purpose of this method is only to provide
	// access to the private m_Profiler and in theory we should not need to increment
	// the shared_ptr's reference counter
	const std::shared_ptr<IProfiler>& GetProfiler() const { return m_Profiler; }

	void FreeWorkingMemory();

	void RegisterDebugCallback(const DebugCallbackFunction& func);

	void SendNetworkStructure();

	bool IsAsyncEnabled()
	{
	return m_NetworkProperties.m_AsyncEnabled;
	}

	profiling::ProfilingGuid GetNetworkGuid();

	private:
	using WorkloadFactoryWithMemoryManager =
	std::pair<IBackendInternal::IWorkloadFactoryPtr, IBackendInternal::IMemoryManagerSharedPtr>;

	using WorkloadFactoryMap = std::unordered_map<BackendId, WorkloadFactoryWithMemoryManager>;

	void AllocateWorkingMemory(std::lock_guard<std::mutex>& lock);
	void AllocateAndExecuteConstantWorkloads();

	std::unordered_map<LayerGuid, ITensorHandle* > m_ConstantTensorHandles;
	std::unordered_map<LayerGuid, std::unique_ptr<IWorkload> > m_ConstantWorkloads;

	LoadedNetwork(std::unique_ptr<IOptimizedNetwork> net,
	const INetworkProperties& networkProperties,
	profiling::ProfilingService& profilingService);

	void EnqueueInput(const BindableLayer& layer, ITensorHandle* tensorHandle, const TensorInfo& tensorInfo);

	void EnqueueOutput(const BindableLayer& layer, ITensorHandle* tensorHandle, const TensorInfo& tensorInfo);

	void EnqueueInput(const BindableLayer& layer, const ConstTensor& inputTensor, WorkingMemHandle& handle);

	void EnqueueOutput(const BindableLayer& layer, const Tensor& outputTensor, WorkingMemHandle& handle);

	bool Execute(std::unique_ptr<profiling::TimelineUtilityMethods>& timelineUtils,
	profiling::ProfilingGuid inferenceGuid);

	const IWorkloadFactory& GetWorkloadFactory(const Layer& layer) const;

	using BackendPtrMap = std::unordered_map<BackendId, IBackendInternalUniquePtr>;

	BackendPtrMap m_Backends;
	WorkloadFactoryMap m_WorkloadFactories;

	std::unique_ptr<IOptimizedNetwork> m_OptimizedNetwork;
	WorkloadQueue m_InputQueue;
	WorkloadQueue m_WorkloadQueue;
	WorkloadQueue m_OutputQueue;
	std::shared_ptr<IProfiler> m_Profiler;

	mutable std::mutex m_WorkingMemMutex;

	bool m_IsWorkingMemAllocated=false;
	INetworkProperties m_NetworkProperties;

	TensorHandleFactoryRegistry m_TensorHandleFactoryRegistry;

	profiling::ProfilingService& m_ProfilingService;
	};

	}