/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserve. 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. */ #pragma once #include "paddle/utils/Util.h" #include #include "hl_gpu.h" #include "paddle/gserver/dataproviders/DataProvider.h" #include "paddle/gserver/gradientmachines/GradientMachine.h" #include #include #include "ParamUtil.h" #include "ParameterUpdater.h" #include "Tester.h" #include "TrainerConfigHelper.h" #include "TrainerInternal.h" #ifdef PADDLE_METRIC_LEARNING #include "paddle/internals/metric_learning/MetricTrainer.h" #endif DECLARE_int32(num_passes); namespace paddle { /** * Trainer Class * * Trainer combines GradientMachine, ParameterUpdater, DataProvider together to * train/test a NeuralNetwork. */ class Trainer { public: /** * Ctor. * @return */ Trainer() : acceptedPassId_(0) {} virtual ~Trainer() {} /** * initialize a new trainer using config * * @param config TrainerConfig. * @param testing true if only for testing * @param gradientMachine GradientMachine that will be trained. * nullptr if create from config. * @param dataProvider Train Data Provider. null if create from config. * @param testDataProvider Test Data Provider. null if create from config. */ virtual void init( const std::shared_ptr& config, bool testing = false, const std::shared_ptr& gradientMachine = nullptr, const std::shared_ptr& dataProvider = nullptr, const std::shared_ptr& testDataProvider = nullptr); /** * Train until num_passes reached. * One pass means neural network train through all training data. * * @param numPasses the number of traning pass. * @note Durning neural network training, the num passes may set a very large * value, and kill training process when result is good enough. */ void train(size_t numPasses = (size_t)FLAGS_num_passes); /** * compare the gradient from bp with finite difference * @return the maximal difference */ real checkGradient(); void startTrain(); void finishTrain(); void startTrainPass(); void finishTrainPass(); void trainOneDataBatch(DataBatch& dataBatch); void time(); /** * given a dataBatch and the current parameter value * calculate its gradient and return the cost. * * TODO(yuyang18): I think this method is deprecated and buggy. Should it be * removed? */ real calcGradient(const DataBatch& dataBatch, const Vector& value, Vector& gradient); /** * Get Trainer Config. */ const TrainerConfig& getConfig() const { return config_->getConfig(); } /** * Get Train Data Provider */ const DataProviderPtr& getDataProvider() { return dataProvider_; } /** * Get Gradient Machine. */ const GradientMachinePtr& getGradientMachine() { return trainerInternal_.getGradientMachine(); } /** * Get batch size in optimization config. * @note This method didn't return the actual batch size. Just batch size * set in the optimization config. The actual batch size in one trainer may * less than batch size in config due to there are not enough data. */ int getBatchSize(); /** * Do test job */ void test(); /** * Get parameter util ptr * * TODO(yuyang18): Make it return a smart pointer. */ ParameterUtil* getParameterUtilPtr(); protected: /** * Train one pass of data. * * SGD Method. */ void trainOnePass(); /** * Train one pass in one batch. * */ void trainOnePassBatch(int passId); /** * set parameter gradient to zero */ void clearGradient(); void createTester(); private: std::unique_ptr createTesterConfig(); protected: std::shared_ptr config_; std::shared_ptr stats_; DataProviderPtr dataProvider_; DataProviderPtr testDataProvider_; MachineState trainState_; MachineState testState_; struct TrainPassContext { int64_t batchId; real avgTestCost; int64_t numAvgTests; int passId; int passInnerId; }; std::vector forwardOutput_; TrainPassContext trainPassContext_; std::unique_ptr evaluator_; std::unique_ptr currentEvaluator_; std::unique_ptr averageEvaluator_; // training mode // used to decide which GradientMachine and ParameterUpdater to create GradientMachine::CreateMode mode_; int testing_; int acceptedPassId_; // trainer tester std::unique_ptr tester_; // parameter util std::unique_ptr paramUtil_; #ifdef PADDLE_METRIC_LEARNING MetricTrainer trainerInternal_; #else // trainer Internal TrainerInternal trainerInternal_; #endif }; } // namespace paddle