nn/common/include/CpuExecutor.h - platform/frameworks/ml - Git at Google

 /*
  * Copyright (C) 2017 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ANDROID_ML_NN_COMMON_CPU_EXECUTOR_H
 #define ANDROID_ML_NN_COMMON_CPU_EXECUTOR_H

 #include "HalInterfaces.h"
 #include "OperationsUtils.h"
 #include "Utils.h"

 #include <algorithm>
 #include <vector>

 namespace android {
 namespace nn {

 // Information we maintain about each operand during execution that
 // may change during execution.
 struct RunTimeOperandInfo {
     // TODO Storing the type here is redundant, as it won't change during execution.
     OperandType type;
     // The type and dimensions of the operand.  The dimensions can
     // change at runtime.  We include the type because it's useful
     // to pass together with the dimension to the functions implementing
     // the operators.
     std::vector<uint32_t> dimensions;

     float scale;
     int32_t zeroPoint;
     // Where the operand's data is stored.  Check the corresponding
     // location information in the model to figure out if this points
     // to memory we have allocated for an temporary operand.
     uint8_t* buffer;
     // The length of the buffer.
     uint32_t length;
     // Whether this is a temporary variable, a model input, a constant, etc.
     OperandLifeTime lifetime;
     // Keeps track of how many operations have yet to make use
     // of this temporary variable.  When the count is decremented to 0,
     // we free the buffer.  For non-temporary variables, this count is
     // always 0.
     uint32_t numberOfUsesLeft;

     Shape shape() const {
         return Shape{.type = type, .dimensions = dimensions, .scale = scale, .offset = zeroPoint};
     }
 };

 // Used to keep a pointer to each of the memory pools.
 struct RunTimePoolInfo {
     sp<IMemory> memory;
     hidl_memory hidlMemory;
     uint8_t* buffer;

     bool set(const hidl_memory& hidlMemory);
     bool update();
 };

 bool setRunTimePoolInfosFromHidlMemories(std::vector<RunTimePoolInfo>* poolInfos,
                                          const hidl_vec<hidl_memory>& pools);

 // This class is used to execute a model on the CPU.
 class CpuExecutor {
 public:
     // Executes the model. The results will be stored at the locations
     // specified in the constructor.
     // The model must outlive the executor.  We prevent it from being modified
     // while this is executing.
     int run(const Model& model, const Request& request,
             const std::vector<RunTimePoolInfo>& modelPoolInfos,
             const std::vector<RunTimePoolInfo>& requestPoolInfos);

 private:
     bool initializeRunTimeInfo(const std::vector<RunTimePoolInfo>& modelPoolInfos,
                                const std::vector<RunTimePoolInfo>& requestPoolInfos);
     // Runs one operation of the graph.
     int executeOperation(const Operation& entry);
     // Decrement the usage count for the operands listed.  Frees the memory
     // allocated for any temporary variable with a count of zero.
     void freeNoLongerUsedOperands(const std::vector<uint32_t>& inputs);

     // The model and the request that we'll execute. Only valid while run()
     // is being executed.
     const Model* mModel = nullptr;
     const Request* mRequest = nullptr;

     // We're copying the list of all the dimensions from the model, as
     // these may be modified when we run the operatins.  Since we're
     // making a full copy, the indexes used in the operand description
     // stay valid.
     //    std::vector<uint32_t> mDimensions;
     // Runtime information about all the operands.
     std::vector<RunTimeOperandInfo> mOperands;
 };

 namespace {

 template <typename T>
 T getScalarData(const RunTimeOperandInfo& info) {
   // TODO: Check buffer is at least as long as size of data.
   T* data = reinterpret_cast<T*>(info.buffer);
   return data[0];
 }

 inline bool IsNullInput(const RunTimeOperandInfo *input) {
     return input->lifetime == OperandLifeTime::NO_VALUE;
 }

 inline int NumInputsWithValues(const Operation &operation,
                                std::vector<RunTimeOperandInfo> &operands) {
   const std::vector<uint32_t> &inputs = operation.inputs;
   return std::count_if(inputs.begin(), inputs.end(),
                        [&operands](uint32_t i) {
                          return !IsNullInput(&operands[i]);
                        });
 }

 inline int NumOutputs(const Operation &operation) {
   return operation.outputs.size();
 }

 inline size_t NumDimensions(const RunTimeOperandInfo *operand) {
   return operand->shape().dimensions.size();
 }

 inline uint32_t SizeOfDimension(const RunTimeOperandInfo *operand, int i) {
   return operand->shape().dimensions[i];
 }

 inline RunTimeOperandInfo *GetInput(const Operation &operation,
                                     std::vector<RunTimeOperandInfo> &operands,
                                     int index) {
   return &operands[operation.inputs[index]];
 }

 inline RunTimeOperandInfo *GetOutput(const Operation &operation,
                                      std::vector<RunTimeOperandInfo> &operands,
                                      int index) {
   return &operands[operation.outputs[index]];
 }

 }  // anonymous namespace

 } // namespace nn
 } // namespace android

 #endif // ANDROID_ML_NN_COMMON_CPU_EXECUTOR_H
	/*
	* Copyright (C) 2017 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ANDROID_ML_NN_COMMON_CPU_EXECUTOR_H
	#define ANDROID_ML_NN_COMMON_CPU_EXECUTOR_H

	#include "HalInterfaces.h"
	#include "OperationsUtils.h"
	#include "Utils.h"

	#include <algorithm>
	#include <vector>

	namespace android {
	namespace nn {

	// Information we maintain about each operand during execution that
	// may change during execution.
	struct RunTimeOperandInfo {
	// TODO Storing the type here is redundant, as it won't change during execution.
	OperandType type;
	// The type and dimensions of the operand. The dimensions can
	// change at runtime. We include the type because it's useful
	// to pass together with the dimension to the functions implementing
	// the operators.
	std::vector<uint32_t> dimensions;

	float scale;
	int32_t zeroPoint;
	// Where the operand's data is stored. Check the corresponding
	// location information in the model to figure out if this points
	// to memory we have allocated for an temporary operand.
	uint8_t* buffer;
	// The length of the buffer.
	uint32_t length;
	// Whether this is a temporary variable, a model input, a constant, etc.
	OperandLifeTime lifetime;
	// Keeps track of how many operations have yet to make use
	// of this temporary variable. When the count is decremented to 0,
	// we free the buffer. For non-temporary variables, this count is
	// always 0.
	uint32_t numberOfUsesLeft;

	Shape shape() const {
	return Shape{.type = type, .dimensions = dimensions, .scale = scale, .offset = zeroPoint};
	}
	};

	// Used to keep a pointer to each of the memory pools.
	struct RunTimePoolInfo {
	sp<IMemory> memory;
	hidl_memory hidlMemory;
	uint8_t* buffer;

	bool set(const hidl_memory& hidlMemory);
	bool update();
	};

	bool setRunTimePoolInfosFromHidlMemories(std::vector<RunTimePoolInfo>* poolInfos,
	const hidl_vec<hidl_memory>& pools);

	// This class is used to execute a model on the CPU.
	class CpuExecutor {
	public:
	// Executes the model. The results will be stored at the locations
	// specified in the constructor.
	// The model must outlive the executor. We prevent it from being modified
	// while this is executing.
	int run(const Model& model, const Request& request,
	const std::vector<RunTimePoolInfo>& modelPoolInfos,
	const std::vector<RunTimePoolInfo>& requestPoolInfos);

	private:
	bool initializeRunTimeInfo(const std::vector<RunTimePoolInfo>& modelPoolInfos,
	const std::vector<RunTimePoolInfo>& requestPoolInfos);
	// Runs one operation of the graph.
	int executeOperation(const Operation& entry);
	// Decrement the usage count for the operands listed. Frees the memory
	// allocated for any temporary variable with a count of zero.
	void freeNoLongerUsedOperands(const std::vector<uint32_t>& inputs);

	// The model and the request that we'll execute. Only valid while run()
	// is being executed.
	const Model* mModel = nullptr;
	const Request* mRequest = nullptr;

	// We're copying the list of all the dimensions from the model, as
	// these may be modified when we run the operatins. Since we're
	// making a full copy, the indexes used in the operand description
	// stay valid.
	// std::vector<uint32_t> mDimensions;
	// Runtime information about all the operands.
	std::vector<RunTimeOperandInfo> mOperands;
	};

	namespace {

	template <typename T>
	T getScalarData(const RunTimeOperandInfo& info) {
	// TODO: Check buffer is at least as long as size of data.
	T* data = reinterpret_cast<T*>(info.buffer);
	return data[0];
	}

	inline bool IsNullInput(const RunTimeOperandInfo *input) {
	return input->lifetime == OperandLifeTime::NO_VALUE;
	}

	inline int NumInputsWithValues(const Operation &operation,
	std::vector<RunTimeOperandInfo> &operands) {
	const std::vector<uint32_t> &inputs = operation.inputs;
	return std::count_if(inputs.begin(), inputs.end(),
	[&operands](uint32_t i) {
	return !IsNullInput(&operands[i]);
	});
	}

	inline int NumOutputs(const Operation &operation) {
	return operation.outputs.size();
	}

	inline size_t NumDimensions(const RunTimeOperandInfo *operand) {
	return operand->shape().dimensions.size();
	}

	inline uint32_t SizeOfDimension(const RunTimeOperandInfo *operand, int i) {
	return operand->shape().dimensions[i];
	}

	inline RunTimeOperandInfo *GetInput(const Operation &operation,
	std::vector<RunTimeOperandInfo> &operands,
	int index) {
	return &operands[operation.inputs[index]];
	}

	inline RunTimeOperandInfo *GetOutput(const Operation &operation,
	std::vector<RunTimeOperandInfo> &operands,
	int index) {
	return &operands[operation.outputs[index]];
	}

	} // anonymous namespace

	} // namespace nn
	} // namespace android

	#endif // ANDROID_ML_NN_COMMON_CPU_EXECUTOR_H