"""Common tests for metaestimators""" import functools import numpy as np from sklearn.base import BaseEstimator from sklearn.externals.six import iterkeys from sklearn.datasets import make_classification from sklearn.utils.testing import assert_true, assert_false, assert_raises from sklearn.pipeline import Pipeline from sklearn.model_selection import GridSearchCV, RandomizedSearchCV from sklearn.feature_selection import RFE, RFECV from sklearn.ensemble import BaggingClassifier class DelegatorData(object): def __init__(self, name, construct, skip_methods=(), fit_args=make_classification()): self.name = name self.construct = construct self.fit_args = fit_args self.skip_methods = skip_methods DELEGATING_METAESTIMATORS = [ DelegatorData('Pipeline', lambda est: Pipeline([('est', est)])), DelegatorData('GridSearchCV', lambda est: GridSearchCV( est, param_grid={'param': [5]}, cv=2), skip_methods=['score']), DelegatorData('RandomizedSearchCV', lambda est: RandomizedSearchCV( est, param_distributions={'param': [5]}, cv=2, n_iter=1), skip_methods=['score']), DelegatorData('RFE', RFE, skip_methods=['transform', 'inverse_transform', 'score']), DelegatorData('RFECV', RFECV, skip_methods=['transform', 'inverse_transform', 'score']), DelegatorData('BaggingClassifier', BaggingClassifier, skip_methods=['transform', 'inverse_transform', 'score', 'predict_proba', 'predict_log_proba', 'predict']) ] def test_metaestimator_delegation(): # Ensures specified metaestimators have methods iff subestimator does def hides(method): @property def wrapper(obj): if obj.hidden_method == method.__name__: raise AttributeError('%r is hidden' % obj.hidden_method) return functools.partial(method, obj) return wrapper class SubEstimator(BaseEstimator): def __init__(self, param=1, hidden_method=None): self.param = param self.hidden_method = hidden_method def fit(self, X, y=None, *args, **kwargs): self.coef_ = np.arange(X.shape[1]) return True def _check_fit(self): if not hasattr(self, 'coef_'): raise RuntimeError('Estimator is not fit') @hides def inverse_transform(self, X, *args, **kwargs): self._check_fit() return X @hides def transform(self, X, *args, **kwargs): self._check_fit() return X @hides def predict(self, X, *args, **kwargs): self._check_fit() return np.ones(X.shape[0]) @hides def predict_proba(self, X, *args, **kwargs): self._check_fit() return np.ones(X.shape[0]) @hides def predict_log_proba(self, X, *args, **kwargs): self._check_fit() return np.ones(X.shape[0]) @hides def decision_function(self, X, *args, **kwargs): self._check_fit() return np.ones(X.shape[0]) @hides def score(self, X, *args, **kwargs): self._check_fit() return 1.0 methods = [k for k in iterkeys(SubEstimator.__dict__) if not k.startswith('_') and not k.startswith('fit')] methods.sort() for delegator_data in DELEGATING_METAESTIMATORS: delegate = SubEstimator() delegator = delegator_data.construct(delegate) for method in methods: if method in delegator_data.skip_methods: continue assert_true(hasattr(delegate, method)) assert_true(hasattr(delegator, method), msg="%s does not have method %r when its delegate does" % (delegator_data.name, method)) # delegation before fit raises an exception assert_raises(Exception, getattr(delegator, method), delegator_data.fit_args[0]) delegator.fit(*delegator_data.fit_args) for method in methods: if method in delegator_data.skip_methods: continue # smoke test delegation getattr(delegator, method)(delegator_data.fit_args[0]) for method in methods: if method in delegator_data.skip_methods: continue delegate = SubEstimator(hidden_method=method) delegator = delegator_data.construct(delegate) assert_false(hasattr(delegate, method)) assert_false(hasattr(delegator, method), msg="%s has method %r when its delegate does not" % (delegator_data.name, method))