Mercurial > pylearn
view learner.py @ 404:8cc11ac97087
Debugging simple AA a bit
author | Joseph Turian <turian@gmail.com> |
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date | Thu, 10 Jul 2008 00:51:32 -0400 |
parents | fe57b96f33d4 |
children |
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from exceptions import * from dataset import AttributesHolder class OfflineLearningAlgorithm(object): """ Base class for offline learning algorithms, provides an interface that allows various algorithms to be applicable to generic learning algorithms. It is only given here to define the expected semantics. An offline learning algorithm can be seen as a function that when applied to training data returns a learned function (which is an object that can be applied to other data and return some output data). The offline learning scenario is the standard and most common one in machine learning: an offline learning algorithm is applied to a training dataset, model = learning_algorithm(training_set) resulting in a fully trained model that can be applied to another dataset in order to perform some desired computation: output_dataset = model(input_dataset) Note that the application of a dataset has no side-effect on the model. In that example, the training set may for example have 'input' and 'target' fields while the input dataset may have only 'input' (or both 'input' and 'target') and the output dataset would contain some default output fields defined by the learning algorithm (e.g. 'output' and 'error'). The user may specifiy what the output dataset should contain either by setting options in the model, by the presence of particular fields in the input dataset, or with keyword options of the __call__ method of the model (see LearnedModel.__call__). """ def __init__(self): pass def __call__(self, training_dataset): """ Return a fully trained TrainedModel. """ raise AbstractFunction() class TrainedModel(AttributesHolder): """ TrainedModel is a base class for models returned by instances of an OfflineLearningAlgorithm subclass. It is only given here to define the expected semantics. """ def __init__(self): pass def __call__(self,input_dataset,output_fieldnames=None, test_stats_collector=None,copy_inputs=False, put_stats_in_output_dataset=True, output_attributes=[]): """ A L{TrainedModel} can be used with with one or more calls to it. The main argument is an input L{DataSet} (possibly containing a single example) and the result is an output L{DataSet} of the same length. If output_fieldnames is specified, it may be use to indicate which fields should be constructed in the output L{DataSet} (for example ['output','classification_error']). Otherwise, some default output fields are produced (possibly depending on the input fields available in the input_dataset). Optionally, if copy_inputs, the input fields (of the input_dataset) can be made visible in the output L{DataSet} returned by this method. Optionally, attributes of the learner can be copied in the output dataset, and statistics computed by the stats collector also put in the output dataset. Note the distinction between fields (which are example-wise quantities, e.g. 'input') and attributes (which are not, e.g. 'regularization_term'). """ raise AbstractFunction() class OnlineLearningAlgorithm(object): """ Base class for online learning algorithms, provides an interface that allows various algorithms to be applicable to generic online learning algorithms. It is only given here to define the expected semantics. The basic setting is that the training data are only revealed in pieces (maybe one example or a batch of example at a time): model = learning_algorithm() results in a fresh model. The model can be adapted by presenting it with some training data, model.update(some_training_data) ... model.update(some_more_training_data) ... model.update(yet_more_training_data) and at any point one can use the model to perform some computation: output_dataset = model(input_dataset) The model should be a LearnerModel subclass instance, and LearnerModel is a subclass of LearnedModel. """ def __init__(self): pass def __call__(self, training_dataset=None): """ Return a LearnerModel, either fresh (if training_dataset is None) or fully trained (otherwise). """ raise AbstractFunction() class LearnerModel(TrainedModel): """ LearnerModel is a base class for models returned by instances of a LearningAlgorithm subclass. It is only given here to define the expected semantics. """ def __init__(self): pass def update(self,training_set,train_stats_collector=None): """ Continue training a learner model, with the evidence provided by the given training set. Hence update can be called multiple times. This is the main method used for training in the on-line setting or the sequential (Bayesian or not) settings. This function has as side effect that self(data) will behave differently, according to the adaptation achieved by update(). The user may optionally provide a training L{StatsCollector} that is used to record some statistics of the outputs computed during training. It is update(d) during training. """ raise AbstractFunction()