Traktor/myenv/Lib/site-packages/sklearn/ensemble/tests/test_base.py

"""
Testing for the base module (sklearn.ensemble.base).
"""

# Authors: Gilles Louppe
# License: BSD 3 clause

from collections import OrderedDict

import numpy as np

from sklearn.datasets import load_iris
from sklearn.discriminant_analysis import LinearDiscriminantAnalysis
from sklearn.ensemble import BaggingClassifier
from sklearn.ensemble._base import _set_random_states
from sklearn.feature_selection import SelectFromModel
from sklearn.linear_model import Perceptron
from sklearn.pipeline import Pipeline


def test_base():
    # Check BaseEnsemble methods.
    ensemble = BaggingClassifier(
        estimator=Perceptron(random_state=None), n_estimators=3
    )

    iris = load_iris()
    ensemble.fit(iris.data, iris.target)
    ensemble.estimators_ = []  # empty the list and create estimators manually

    ensemble._make_estimator()
    random_state = np.random.RandomState(3)
    ensemble._make_estimator(random_state=random_state)
    ensemble._make_estimator(random_state=random_state)
    ensemble._make_estimator(append=False)

    assert 3 == len(ensemble)
    assert 3 == len(ensemble.estimators_)

    assert isinstance(ensemble[0], Perceptron)
    assert ensemble[0].random_state is None
    assert isinstance(ensemble[1].random_state, int)
    assert isinstance(ensemble[2].random_state, int)
    assert ensemble[1].random_state != ensemble[2].random_state

    np_int_ensemble = BaggingClassifier(
        estimator=Perceptron(), n_estimators=np.int32(3)
    )
    np_int_ensemble.fit(iris.data, iris.target)


def test_set_random_states():
    # Linear Discriminant Analysis doesn't have random state: smoke test
    _set_random_states(LinearDiscriminantAnalysis(), random_state=17)

    clf1 = Perceptron(random_state=None)
    assert clf1.random_state is None
    # check random_state is None still sets
    _set_random_states(clf1, None)
    assert isinstance(clf1.random_state, int)

    # check random_state fixes results in consistent initialisation
    _set_random_states(clf1, 3)
    assert isinstance(clf1.random_state, int)
    clf2 = Perceptron(random_state=None)
    _set_random_states(clf2, 3)
    assert clf1.random_state == clf2.random_state

    # nested random_state

    def make_steps():
        return [
            ("sel", SelectFromModel(Perceptron(random_state=None))),
            ("clf", Perceptron(random_state=None)),
        ]

    est1 = Pipeline(make_steps())
    _set_random_states(est1, 3)
    assert isinstance(est1.steps[0][1].estimator.random_state, int)
    assert isinstance(est1.steps[1][1].random_state, int)
    assert (
        est1.get_params()["sel__estimator__random_state"]
        != est1.get_params()["clf__random_state"]
    )

    # ensure multiple random_state parameters are invariant to get_params()
    # iteration order

    class AlphaParamPipeline(Pipeline):
        def get_params(self, *args, **kwargs):
            params = Pipeline.get_params(self, *args, **kwargs).items()
            return OrderedDict(sorted(params))

    class RevParamPipeline(Pipeline):
        def get_params(self, *args, **kwargs):
            params = Pipeline.get_params(self, *args, **kwargs).items()
            return OrderedDict(sorted(params, reverse=True))

    for cls in [AlphaParamPipeline, RevParamPipeline]:
        est2 = cls(make_steps())
        _set_random_states(est2, 3)
        assert (
            est1.get_params()["sel__estimator__random_state"]
            == est2.get_params()["sel__estimator__random_state"]
        )
        assert (
            est1.get_params()["clf__random_state"]
            == est2.get_params()["clf__random_state"]
        )
losowanie zdjec 2024-05-26 05:12:46 +02:00			`"""`
			`Testing for the base module (sklearn.ensemble.base).`
			`"""`

			`# Authors: Gilles Louppe`
			`# License: BSD 3 clause`

			`from collections import OrderedDict`

			`import numpy as np`

			`from sklearn.datasets import load_iris`
			`from sklearn.discriminant_analysis import LinearDiscriminantAnalysis`
			`from sklearn.ensemble import BaggingClassifier`
			`from sklearn.ensemble._base import _set_random_states`
			`from sklearn.feature_selection import SelectFromModel`
			`from sklearn.linear_model import Perceptron`
			`from sklearn.pipeline import Pipeline`


			`def test_base():`
			`# Check BaseEnsemble methods.`
			`ensemble = BaggingClassifier(`
			`estimator=Perceptron(random_state=None), n_estimators=3`
			`)`

			`iris = load_iris()`
			`ensemble.fit(iris.data, iris.target)`
			`ensemble.estimators_ = [] # empty the list and create estimators manually`

			`ensemble._make_estimator()`
			`random_state = np.random.RandomState(3)`
			`ensemble._make_estimator(random_state=random_state)`
			`ensemble._make_estimator(random_state=random_state)`
			`ensemble._make_estimator(append=False)`

			`assert 3 == len(ensemble)`
			`assert 3 == len(ensemble.estimators_)`

			`assert isinstance(ensemble[0], Perceptron)`
			`assert ensemble[0].random_state is None`
			`assert isinstance(ensemble[1].random_state, int)`
			`assert isinstance(ensemble[2].random_state, int)`
			`assert ensemble[1].random_state != ensemble[2].random_state`

			`np_int_ensemble = BaggingClassifier(`
			`estimator=Perceptron(), n_estimators=np.int32(3)`
			`)`
			`np_int_ensemble.fit(iris.data, iris.target)`


			`def test_set_random_states():`
			`# Linear Discriminant Analysis doesn't have random state: smoke test`
			`_set_random_states(LinearDiscriminantAnalysis(), random_state=17)`

			`clf1 = Perceptron(random_state=None)`
			`assert clf1.random_state is None`
			`# check random_state is None still sets`
			`_set_random_states(clf1, None)`
			`assert isinstance(clf1.random_state, int)`

			`# check random_state fixes results in consistent initialisation`
			`_set_random_states(clf1, 3)`
			`assert isinstance(clf1.random_state, int)`
			`clf2 = Perceptron(random_state=None)`
			`_set_random_states(clf2, 3)`
			`assert clf1.random_state == clf2.random_state`

			`# nested random_state`

			`def make_steps():`
			`return [`
			`("sel", SelectFromModel(Perceptron(random_state=None))),`
			`("clf", Perceptron(random_state=None)),`
			`]`

			`est1 = Pipeline(make_steps())`
			`_set_random_states(est1, 3)`
			`assert isinstance(est1.steps[0][1].estimator.random_state, int)`
			`assert isinstance(est1.steps[1][1].random_state, int)`
			`assert (`
			`est1.get_params()["sel__estimator__random_state"]`
			`!= est1.get_params()["clf__random_state"]`
			`)`

			`# ensure multiple random_state parameters are invariant to get_params()`
			`# iteration order`

			`class AlphaParamPipeline(Pipeline):`
			`def get_params(self, args, *kwargs):`
			`params = Pipeline.get_params(self, args, *kwargs).items()`
			`return OrderedDict(sorted(params))`

			`class RevParamPipeline(Pipeline):`
			`def get_params(self, args, *kwargs):`
			`params = Pipeline.get_params(self, args, *kwargs).items()`
			`return OrderedDict(sorted(params, reverse=True))`

			`for cls in [AlphaParamPipeline, RevParamPipeline]:`
			`est2 = cls(make_steps())`
			`_set_random_states(est2, 3)`
			`assert (`
			`est1.get_params()["sel__estimator__random_state"]`
			`== est2.get_params()["sel__estimator__random_state"]`
			`)`
			`assert (`
			`est1.get_params()["clf__random_state"]`
			`== est2.get_params()["clf__random_state"]`
			`)`