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QuaPy/quapy/model_selection.py

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import itertools
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import signal
from copy import deepcopy
from typing import Union, Callable
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import evaluation
import quapy as qp
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from protocol import AbstractProtocol, OnLabelledCollectionProtocol
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from quapy.data.base import LabelledCollection
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from quapy.method.aggregative import BaseQuantifier
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from time import time
class GridSearchQ(BaseQuantifier):
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"""Grid Search optimization targeting a quantification-oriented metric.
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Optimizes the hyperparameters of a quantification method, based on an evaluation method and on an evaluation
protocol for quantification.
:param model: the quantifier to optimize
:type model: BaseQuantifier
:param param_grid: a dictionary with keys the parameter names and values the list of values to explore
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:param protocol:
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:param error: an error function (callable) or a string indicating the name of an error function (valid ones
are those in qp.error.QUANTIFICATION_ERROR
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:param refit: whether or not to refit the model on the whole labelled collection (training+validation) with
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the best chosen hyperparameter combination. Ignored if protocol='gen'
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:param timeout: establishes a timer (in seconds) for each of the hyperparameters configurations being tested.
Whenever a run takes longer than this timer, that configuration will be ignored. If all configurations end up
being ignored, a TimeoutError exception is raised. If -1 (default) then no time bound is set.
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:param verbose: set to True to get information through the stdout
"""
def __init__(self,
model: BaseQuantifier,
param_grid: dict,
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protocol: AbstractProtocol,
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error: Union[Callable, str] = qp.error.mae,
refit=True,
timeout=-1,
n_jobs=None,
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verbose=False):
self.model = model
self.param_grid = param_grid
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self.protocol = protocol
self.refit = refit
self.timeout = timeout
self.n_jobs = qp.get_njobs(n_jobs)
self.verbose = verbose
self.__check_error(error)
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assert isinstance(protocol, AbstractProtocol), 'unknown protocol'
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def _sout(self, msg):
if self.verbose:
print(f'[{self.__class__.__name__}]: {msg}')
def __check_error(self, error):
if error in qp.error.QUANTIFICATION_ERROR:
self.error = error
elif isinstance(error, str):
self.error = qp.error.from_name(error)
elif hasattr(error, '__call__'):
self.error = error
else:
raise ValueError(f'unexpected error type; must either be a callable function or a str representing\n'
f'the name of an error function in {qp.error.QUANTIFICATION_ERROR_NAMES}')
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def fit(self, training: LabelledCollection):
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""" Learning routine. Fits methods with all combinations of hyperparameters and selects the one minimizing
the error metric.
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:param training: the training set on which to optimize the hyperparameters
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:return: self
"""
params_keys = list(self.param_grid.keys())
params_values = list(self.param_grid.values())
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protocol = self.protocol
self.param_scores_ = {}
self.best_score_ = None
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tinit = time()
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hyper = [dict({k: values[i] for i, k in enumerate(params_keys)}) for values in itertools.product(*params_values)]
scores = qp.util.parallel(self._delayed_eval, ((params, training) for params in hyper), n_jobs=self.n_jobs)
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for params, score, model in scores:
if score is not None:
if self.best_score_ is None or score < self.best_score_:
self.best_score_ = score
self.best_params_ = params
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self.best_model_ = model
self.param_scores_[str(params)] = score
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else:
self.param_scores_[str(params)] = 'timeout'
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tend = time()-tinit
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if self.best_score_ is None:
raise TimeoutError('all jobs took more than the timeout time to end')
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self._sout(f'optimization finished: best params {self.best_params_} (score={self.best_score_:.5f}) '
f'[took {tend:.4f}s]')
if self.refit:
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if isinstance(protocol, OnLabelledCollectionProtocol):
self._sout(f'refitting on the whole development set')
self.best_model_.fit(training + protocol.get_labelled_collection())
else:
raise RuntimeWarning(f'"refit" was requested, but the protocol does not '
f'implement the {OnLabelledCollectionProtocol.__name__} interface')
return self
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def _delayed_eval(self, args):
params, training = args
protocol = self.protocol
error = self.error
if self.timeout > 0:
def handler(signum, frame):
raise TimeoutError()
signal.signal(signal.SIGALRM, handler)
tinit = time()
if self.timeout > 0:
signal.alarm(self.timeout)
try:
model = deepcopy(self.model)
# overrides default parameters with the parameters being explored at this iteration
model.set_params(**params)
model.fit(training)
score = evaluation.evaluate(model, protocol=protocol, error_metric=error)
ttime = time()-tinit
self._sout(f'hyperparams={params}\t got {error.__name__} score {score:.5f} [took {ttime:.4f}s]')
if self.timeout > 0:
signal.alarm(0)
except TimeoutError:
self._sout(f'timeout ({self.timeout}s) reached for config {params}')
score = None
return params, score, model
def quantify(self, instances):
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"""Estimate class prevalence values using the best model found after calling the :meth:`fit` method.
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:param instances: sample contanining the instances
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:return: a ndarray of shape `(n_classes)` with class prevalence estimates as according to the best model found
by the model selection process.
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"""
assert hasattr(self, 'best_model_'), 'quantify called before fit'
return self.best_model().quantify(instances)
def set_params(self, **parameters):
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"""Sets the hyper-parameters to explore.
:param parameters: a dictionary with keys the parameter names and values the list of values to explore
"""
self.param_grid = parameters
def get_params(self, deep=True):
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"""Returns the dictionary of hyper-parameters to explore (`param_grid`)
:param deep: Unused
:return: the dictionary `param_grid`
"""
return self.param_grid
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def best_model(self):
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"""
Returns the best model found after calling the :meth:`fit` method, i.e., the one trained on the combination
of hyper-parameters that minimized the error function.
:return: a trained quantifier
"""
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if hasattr(self, 'best_model_'):
return self.best_model_
raise ValueError('best_model called before fit')
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