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176 lines
6.1 KiB
176 lines
6.1 KiB
import collections
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import py_paddle.swig_paddle as api
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from data_feeder import DataFeeder
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from topology import Topology
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from . import event as v2_event
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from . import optimizer as v2_optimizer
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from . import parameters as v2_parameters
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__all__ = ['ITrainer', 'SGD']
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def default_event_handler(event):
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"""
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Default event handler. It will print some log and save mode.
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TODO(yuyang18): Complete it!
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:param event:
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:return:
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"""
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pass
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class ITrainer(object):
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"""
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The interface of Trainer. The only exposed method is `train`.
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"""
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def train(self, reader, topology, parameters, event_handler=None):
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"""
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train method.
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:param reader:
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:param topology:
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:param parameters:
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:param event_handler:
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:return:
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"""
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raise NotImplementedError()
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class SGD(ITrainer):
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def __init__(self, cost, parameters, update_equation):
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"""
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Simple SGD Trainer.
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:param update_equation: The optimizer object.
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:type update_equation: v2_optimizer.Optimizer
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"""
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if not isinstance(parameters, v2_parameters.Parameters):
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raise TypeError('parameters should be parameters')
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if not isinstance(update_equation, v2_optimizer.Optimizer):
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raise TypeError("update equation parameter must be "
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"paddle.v2.optimizer.Optimizer")
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topology = Topology(cost)
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self.__optimizer__ = update_equation
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self.__topology__ = topology
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self.__parameters__ = parameters
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self.__topology_in_proto__ = topology.proto()
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self.__data_types__ = topology.data_type()
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gm = api.GradientMachine.createFromConfigProto(
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self.__topology_in_proto__, api.CREATE_MODE_NORMAL,
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self.__optimizer__.enable_types())
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assert isinstance(gm, api.GradientMachine)
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parameters.append_gradient_machine(gm)
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self.__gradient_machine__ = gm
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self.__gradient_machine__.randParameters()
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def train(self, reader, num_passes=1, event_handler=None, reader_dict=None):
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"""
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Training method. Will train num_passes of input data.
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:param reader:
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:param topology: Network Topology, use one or more Layers to represent it.
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:param parameters: The parameter pools.
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:param num_passes: The total train passes.
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:param event_handler: Event handler. A method will be invoked when event
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occurred.
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:type event_handler: (BaseEvent) => None
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:return:
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"""
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if event_handler is None:
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event_handler = default_event_handler
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if reader_dict is None:
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reader_dict = self.default_reader_dict()
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__check_train_args__(**locals())
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updater = self.__optimizer__.create_local_updater()
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updater.init(self.__gradient_machine__)
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self.__gradient_machine__.start()
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batch_evaluator = self.__gradient_machine__.makeEvaluator()
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assert isinstance(batch_evaluator, api.Evaluator)
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pass_evaluator = self.__gradient_machine__.makeEvaluator()
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assert isinstance(pass_evaluator, api.Evaluator)
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out_args = api.Arguments.createArguments(0)
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feeder = DataFeeder(self.__data_types__, reader_dict)
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for pass_id in xrange(num_passes):
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event_handler(v2_event.BeginPass(pass_id))
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pass_evaluator.start()
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updater.startPass()
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for batch_id, data_batch in enumerate(reader()):
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batch_evaluator.start()
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event_handler(
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v2_event.BeginIteration(
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pass_id=pass_id, batch_id=batch_id))
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pass_type = updater.startBatch(len(data_batch))
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self.__gradient_machine__.forwardBackward(
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feeder(data_batch), out_args, pass_type)
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self.__gradient_machine__.eval(pass_evaluator)
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self.__gradient_machine__.eval(batch_evaluator)
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for each_param in self.__gradient_machine__.getNonStaticParameters(
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):
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updater.update(each_param)
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cost_sum = out_args.sumCosts()
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cost = cost_sum / len(data_batch)
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updater.finishBatch(cost)
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batch_evaluator.finish()
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event_handler(
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v2_event.EndIteration(
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pass_id=pass_id,
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batch_id=batch_id,
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cost=cost,
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evaluator=batch_evaluator))
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updater.finishPass()
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pass_evaluator.finish()
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event_handler(v2_event.EndPass(pass_id, evaluator=pass_evaluator))
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self.__gradient_machine__.finish()
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def default_reader_dict(self):
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reader_dict = dict()
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for i, tp in enumerate(self.__data_types__):
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reader_dict[tp[0]] = i
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return reader_dict
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def test(self, reader, reader_dict=None):
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if reader_dict is None:
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reader_dict = self.default_reader_dict()
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feeder = DataFeeder(self.__data_types__, reader_dict)
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evaluator = self.__gradient_machine__.makeEvaluator()
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out_args = api.Arguments.createArguments(0)
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evaluator.start()
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total_cost = 0
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num_samples = 0.0
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for data_batch in reader():
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num_samples += len(data_batch)
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self.__gradient_machine__.forward(
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feeder(data_batch), out_args, api.PASS_TEST)
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total_cost += out_args.sumCosts()
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self.__gradient_machine__.eval(evaluator)
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evaluator.finish()
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return v2_event.TestResult(
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evaluator=evaluator, cost=total_cost / num_samples)
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def __check_train_args__(reader, event_handler, **kwargs):
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"""
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Check train function's argument types
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"""
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if not callable(reader) or not isinstance(reader(), collections.Iterator):
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raise TypeError('train_data_reader should be a function, '
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'which can return a iterator')
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if not callable(event_handler):
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raise TypeError('event handler should be a function')
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