ArmnnPreparedModel_1_3.hpp - platform/external/android-nn-driver - Git at Google

 //
 // Copyright © 2020 Arm Ltd. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #pragma once

 #include "ArmnnDriver.hpp"
 #include "ArmnnDriverImpl.hpp"
 #include "RequestThread.hpp"
 #include "ModelToINetworkConverter.hpp"

 #include <NeuralNetworks.h>
 #include <armnn/ArmNN.hpp>

 #include <string>
 #include <vector>

 namespace armnn_driver
 {
 using CallbackAsync_1_3 = std::function<
                                 void(V1_3::ErrorStatus errorStatus,
                                 std::vector<::android::hardware::neuralnetworks::V1_2::OutputShape> outputShapes,
                                 const ::android::hardware::neuralnetworks::V1_2::Timing& timing,
                                 std::string callingFunction)>;

 struct ExecutionContext_1_3
 {
     ::android::hardware::neuralnetworks::V1_2::MeasureTiming    measureTimings =
         ::android::hardware::neuralnetworks::V1_2::MeasureTiming::NO;
     TimePoint driverStart;
 };

 using CallbackContext_1_3 = CallbackContext<CallbackAsync_1_3, ExecutionContext_1_3>;

 using executeFenced_cb = std::function<void(::android::hardware::neuralnetworks::V1_3::ErrorStatus status,
     const ::android::hardware::hidl_handle& syncFence,
     const ::android::sp<::android::hardware::neuralnetworks::V1_3::IFencedExecutionCallback>& callback)>;

 template <typename HalVersion>
 class ArmnnPreparedModel_1_3 : public V1_3::IPreparedModel
 {
 public:
     using HalModel = typename V1_3::Model;

     ArmnnPreparedModel_1_3(armnn::NetworkId networkId,
                            armnn::IRuntime* runtime,
                            const HalModel& model,
                            const std::string& requestInputsAndOutputsDumpDir,
                            const bool gpuProfilingEnabled);

     virtual ~ArmnnPreparedModel_1_3();

     Return<V1_0::ErrorStatus> execute(const V1_0::Request& request,
                                       const sp<V1_0::IExecutionCallback>& callback) override;

     Return<V1_0::ErrorStatus> execute_1_2(const V1_0::Request& request, MeasureTiming measure,
                                           const sp<V1_2::IExecutionCallback>& callback) override;

     Return<V1_3::ErrorStatus> execute_1_3(const V1_3::Request& request,
                                           V1_2::MeasureTiming measure,
                                           const V1_3::OptionalTimePoint&,
                                           const V1_3::OptionalTimeoutDuration&,
                                           const sp<V1_3::IExecutionCallback>& callback) override;

     Return<void> executeSynchronously(const V1_0::Request &request,
                                       MeasureTiming measure,
                                       V1_3::IPreparedModel::executeSynchronously_cb cb) override;

     Return<void> executeSynchronously_1_3(const V1_3::Request &request,
                                           MeasureTiming measure,
                                           const V1_3::OptionalTimePoint& deadline,
                                           const V1_3::OptionalTimeoutDuration& loopTimeoutDuration,
                                           V1_3::IPreparedModel::executeSynchronously_1_3_cb cb) override;

     Return<void> executeFenced(const V1_3::Request& request,
                                const android::hardware::hidl_vec<android::hardware::hidl_handle>& wait_for,
                                MeasureTiming measure,
                                const V1_3::OptionalTimePoint& deadline,
                                const V1_3::OptionalTimeoutDuration& loopTimeoutDuration,
                                const V1_3::OptionalTimeoutDuration& duration,
                                executeFenced_cb callback) override;

     Return<void> configureExecutionBurst(
             const sp<V1_2::IBurstCallback>& callback,
             const android::hardware::MQDescriptorSync<V1_2::FmqRequestDatum>& requestChannel,
             const android::hardware::MQDescriptorSync<V1_2::FmqResultDatum>& resultChannel,
             configureExecutionBurst_cb cb) override;

     template<typename CallbackContext>
     Return<void> ExecuteSynchronously(const V1_3::Request& request, CallbackContext cbCtx);

     /// execute the graph prepared from the request
     template<typename CallbackContext>
     bool ExecuteGraph(std::shared_ptr<std::vector<::android::nn::RunTimePoolInfo>>& pMemPools,
                       armnn::InputTensors& inputTensors,
                       armnn::OutputTensors& outputTensors,
                       CallbackContext callback);

     /// Executes this model with dummy inputs (e.g. all zeroes).
     /// \return false on failure, otherwise true
     bool ExecuteWithDummyInputs();

 private:
     Return <V1_3::ErrorStatus> Execute(const V1_3::Request& request,
                                        MeasureTiming measureTiming,
                                        CallbackAsync_1_3 callback);

     Return<V1_3::ErrorStatus> PrepareMemoryForInputs(
         armnn::InputTensors& inputs,
         const V1_3::Request& request,
         const std::vector<android::nn::RunTimePoolInfo>& memPools);

     Return<V1_3::ErrorStatus> PrepareMemoryForOutputs(
         armnn::OutputTensors& outputs,
         std::vector<OutputShape> &outputShapes,
         const V1_3::Request& request,
         const std::vector<android::nn::RunTimePoolInfo>& memPools);

     std::tuple<V1_3::ErrorStatus, hidl_vec<OutputShape>, Timing, std::string> PrepareMemoryForIO(
         armnn::InputTensors& inputs,
         armnn::OutputTensors& outputs,
         std::vector<android::nn::RunTimePoolInfo>& memPools,
         const V1_3::Request& request);

     template <typename TensorBindingCollection>
     void DumpTensorsIfRequired(char const* tensorNamePrefix, const TensorBindingCollection& tensorBindings);

     armnn::NetworkId                                                            m_NetworkId;
     armnn::IRuntime*                                                            m_Runtime;
     V1_3::Model                                                                 m_Model;
     // There must be a single RequestThread for all ArmnnPreparedModel objects to ensure serial execution of workloads
     // It is specific to this class, so it is declared as static here
     static RequestThread<ArmnnPreparedModel_1_3, HalVersion, CallbackContext_1_3> m_RequestThread;
     uint32_t                                                                    m_RequestCount;
     const std::string&                                                          m_RequestInputsAndOutputsDumpDir;
     const bool                                                                  m_GpuProfilingEnabled;
 };

 }
	//
	// Copyright © 2020 Arm Ltd. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#pragma once

	#include "ArmnnDriver.hpp"
	#include "ArmnnDriverImpl.hpp"
	#include "RequestThread.hpp"
	#include "ModelToINetworkConverter.hpp"

	#include <NeuralNetworks.h>
	#include <armnn/ArmNN.hpp>

	#include <string>
	#include <vector>

	namespace armnn_driver
	{
	using CallbackAsync_1_3 = std::function<
	void(V1_3::ErrorStatus errorStatus,
	std::vector<::android::hardware::neuralnetworks::V1_2::OutputShape> outputShapes,
	const ::android::hardware::neuralnetworks::V1_2::Timing& timing,
	std::string callingFunction)>;

	struct ExecutionContext_1_3
	{
	::android::hardware::neuralnetworks::V1_2::MeasureTiming measureTimings =
	::android::hardware::neuralnetworks::V1_2::MeasureTiming::NO;
	TimePoint driverStart;
	};

	using CallbackContext_1_3 = CallbackContext<CallbackAsync_1_3, ExecutionContext_1_3>;

	using executeFenced_cb = std::function<void(::android::hardware::neuralnetworks::V1_3::ErrorStatus status,
	const ::android::hardware::hidl_handle& syncFence,
	const ::android::sp<::android::hardware::neuralnetworks::V1_3::IFencedExecutionCallback>& callback)>;

	template <typename HalVersion>
	class ArmnnPreparedModel_1_3 : public V1_3::IPreparedModel
	{
	public:
	using HalModel = typename V1_3::Model;

	ArmnnPreparedModel_1_3(armnn::NetworkId networkId,
	armnn::IRuntime* runtime,
	const HalModel& model,
	const std::string& requestInputsAndOutputsDumpDir,
	const bool gpuProfilingEnabled);

	virtual ~ArmnnPreparedModel_1_3();

	Return<V1_0::ErrorStatus> execute(const V1_0::Request& request,
	const sp<V1_0::IExecutionCallback>& callback) override;

	Return<V1_0::ErrorStatus> execute_1_2(const V1_0::Request& request, MeasureTiming measure,
	const sp<V1_2::IExecutionCallback>& callback) override;

	Return<V1_3::ErrorStatus> execute_1_3(const V1_3::Request& request,
	V1_2::MeasureTiming measure,
	const V1_3::OptionalTimePoint&,
	const V1_3::OptionalTimeoutDuration&,
	const sp<V1_3::IExecutionCallback>& callback) override;

	Return<void> executeSynchronously(const V1_0::Request &request,
	MeasureTiming measure,
	V1_3::IPreparedModel::executeSynchronously_cb cb) override;

	Return<void> executeSynchronously_1_3(const V1_3::Request &request,
	MeasureTiming measure,
	const V1_3::OptionalTimePoint& deadline,
	const V1_3::OptionalTimeoutDuration& loopTimeoutDuration,
	V1_3::IPreparedModel::executeSynchronously_1_3_cb cb) override;

	Return<void> executeFenced(const V1_3::Request& request,
	const android::hardware::hidl_vec<android::hardware::hidl_handle>& wait_for,
	MeasureTiming measure,
	const V1_3::OptionalTimePoint& deadline,
	const V1_3::OptionalTimeoutDuration& loopTimeoutDuration,
	const V1_3::OptionalTimeoutDuration& duration,
	executeFenced_cb callback) override;

	Return<void> configureExecutionBurst(
	const sp<V1_2::IBurstCallback>& callback,
	const android::hardware::MQDescriptorSync<V1_2::FmqRequestDatum>& requestChannel,
	const android::hardware::MQDescriptorSync<V1_2::FmqResultDatum>& resultChannel,
	configureExecutionBurst_cb cb) override;

	template<typename CallbackContext>
	Return<void> ExecuteSynchronously(const V1_3::Request& request, CallbackContext cbCtx);

	/// execute the graph prepared from the request
	template<typename CallbackContext>
	bool ExecuteGraph(std::shared_ptr<std::vector<::android::nn::RunTimePoolInfo>>& pMemPools,
	armnn::InputTensors& inputTensors,
	armnn::OutputTensors& outputTensors,
	CallbackContext callback);

	/// Executes this model with dummy inputs (e.g. all zeroes).
	/// \return false on failure, otherwise true
	bool ExecuteWithDummyInputs();

	private:
	Return <V1_3::ErrorStatus> Execute(const V1_3::Request& request,
	MeasureTiming measureTiming,
	CallbackAsync_1_3 callback);

	Return<V1_3::ErrorStatus> PrepareMemoryForInputs(
	armnn::InputTensors& inputs,
	const V1_3::Request& request,
	const std::vector<android::nn::RunTimePoolInfo>& memPools);

	Return<V1_3::ErrorStatus> PrepareMemoryForOutputs(
	armnn::OutputTensors& outputs,
	std::vector<OutputShape> &outputShapes,
	const V1_3::Request& request,
	const std::vector<android::nn::RunTimePoolInfo>& memPools);

	std::tuple<V1_3::ErrorStatus, hidl_vec<OutputShape>, Timing, std::string> PrepareMemoryForIO(
	armnn::InputTensors& inputs,
	armnn::OutputTensors& outputs,
	std::vector<android::nn::RunTimePoolInfo>& memPools,
	const V1_3::Request& request);

	template <typename TensorBindingCollection>
	void DumpTensorsIfRequired(char const* tensorNamePrefix, const TensorBindingCollection& tensorBindings);

	armnn::NetworkId m_NetworkId;
	armnn::IRuntime* m_Runtime;
	V1_3::Model m_Model;
	// There must be a single RequestThread for all ArmnnPreparedModel objects to ensure serial execution of workloads
	// It is specific to this class, so it is declared as static here
	static RequestThread<ArmnnPreparedModel_1_3, HalVersion, CallbackContext_1_3> m_RequestThread;
	uint32_t m_RequestCount;
	const std::string& m_RequestInputsAndOutputsDumpDir;
	const bool m_GpuProfilingEnabled;
	};

	}