예제 #1
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def test_dummy_regressor_on_3D_array():
    X = np.array([[['foo']], [['bar']], [['baz']]])
    y = np.array([2, 2, 2])
    y_expected = np.array([2, 2, 2])
    cls = DummyRegressor()
    cls.fit(X, y)
    y_pred = cls.predict(X)
    assert_array_equal(y_pred, y_expected)
예제 #2
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def test_y_mean_attribute_regressor():
    X = [[0]] * 5
    y = [1, 2, 4, 6, 8]
    # when strategy = 'mean'
    est = DummyRegressor(strategy='mean')
    est.fit(X, y)

    assert est.constant_ == np.mean(y)
예제 #3
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def test_median_strategy_regressor():

    random_state = np.random.RandomState(seed=1)

    X = [[0]] * 5  # ignored
    y = random_state.randn(5)

    reg = DummyRegressor(strategy="median")
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [np.median(y)] * len(X))
예제 #4
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def test_weights_regressor():
    """Check weighted average regression prediction on boston dataset."""
    reg1 = DummyRegressor(strategy='mean')
    reg2 = DummyRegressor(strategy='median')
    reg3 = DummyRegressor(strategy='quantile', quantile=.2)
    ereg = VotingRegressor([('mean', reg1), ('median', reg2),
                            ('quantile', reg3)], weights=[1, 2, 10])

    X_r_train, X_r_test, y_r_train, y_r_test = \
        train_test_split(X_r, y_r, test_size=.25)

    reg1_pred = reg1.fit(X_r_train, y_r_train).predict(X_r_test)
    reg2_pred = reg2.fit(X_r_train, y_r_train).predict(X_r_test)
    reg3_pred = reg3.fit(X_r_train, y_r_train).predict(X_r_test)
    ereg_pred = ereg.fit(X_r_train, y_r_train).predict(X_r_test)

    avg = np.average(np.asarray([reg1_pred, reg2_pred, reg3_pred]), axis=0,
                     weights=[1, 2, 10])
    assert_almost_equal(ereg_pred, avg, decimal=2)

    ereg_weights_none = VotingRegressor([('mean', reg1), ('median', reg2),
                                         ('quantile', reg3)], weights=None)
    ereg_weights_equal = VotingRegressor([('mean', reg1), ('median', reg2),
                                          ('quantile', reg3)],
                                         weights=[1, 1, 1])
    ereg_weights_none.fit(X_r_train, y_r_train)
    ereg_weights_equal.fit(X_r_train, y_r_train)
    ereg_none_pred = ereg_weights_none.predict(X_r_test)
    ereg_equal_pred = ereg_weights_equal.predict(X_r_test)
    assert_almost_equal(ereg_none_pred, ereg_equal_pred, decimal=2)
예제 #5
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def test_dummy_regressor_return_std():
    X = [[0]] * 3  # ignored
    y = np.array([2, 2, 2])
    y_std_expected = np.array([0, 0, 0])
    cls = DummyRegressor()
    cls.fit(X, y)
    y_pred_list = cls.predict(X, return_std=True)
    # there should be two elements when return_std is True
    assert len(y_pred_list) == 2
    # the second element should be all zeros
    assert_array_equal(y_pred_list[1], y_std_expected)
예제 #6
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def test_regressor_prediction_independent_of_X(strategy):
    y = [0, 2, 1, 1]
    X1 = [[0]] * 4
    reg1 = DummyRegressor(strategy=strategy, constant=0, quantile=0.7)
    reg1.fit(X1, y)
    predictions1 = reg1.predict(X1)

    X2 = [[1]] * 4
    reg2 = DummyRegressor(strategy=strategy, constant=0, quantile=0.7)
    reg2.fit(X2, y)
    predictions2 = reg2.predict(X2)

    assert_array_equal(predictions1, predictions2)
예제 #7
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def test_constant_strategy_regressor():

    random_state = np.random.RandomState(seed=1)

    X = [[0]] * 5  # ignored
    y = random_state.randn(5)

    reg = DummyRegressor(strategy="constant", constant=[43])
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [43] * len(X))

    reg = DummyRegressor(strategy="constant", constant=43)
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [43] * len(X))
예제 #8
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def test_constant_size_multioutput_regressor():
    random_state = np.random.RandomState(seed=1)
    X = random_state.randn(10, 10)
    y = random_state.randn(10, 5)

    est = DummyRegressor(strategy='constant', constant=[1, 2, 3, 4])
    assert_raises(ValueError, est.fit, X, y)
예제 #9
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def test_dummy_regressor_sample_weight(n_samples=10):
    random_state = np.random.RandomState(seed=1)

    X = [[0]] * n_samples
    y = random_state.rand(n_samples)
    sample_weight = random_state.rand(n_samples)

    est = DummyRegressor(strategy="mean").fit(X, y, sample_weight)
    assert est.constant_ == np.average(y, weights=sample_weight)

    est = DummyRegressor(strategy="median").fit(X, y, sample_weight)
    assert est.constant_ == _weighted_percentile(y, sample_weight, 50.)

    est = DummyRegressor(strategy="quantile", quantile=.95).fit(X, y,
                                                                sample_weight)
    assert est.constant_ == _weighted_percentile(y, sample_weight, 95.)
예제 #10
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def test_set_params_nested_pipeline():
    estimator = Pipeline([
        ('a', Pipeline([
            ('b', DummyRegressor())
        ]))
    ])
    estimator.set_params(a__b__alpha=0.001, a__b=Lasso())
    estimator.set_params(a__steps=[('b', LogisticRegression())], a__b__C=5)
예제 #11
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def test_notfitted():
    eclf = VotingClassifier(estimators=[('lr1', LogisticRegression()),
                                        ('lr2', LogisticRegression())],
                            voting='soft')
    ereg = VotingRegressor([('dr', DummyRegressor())])
    msg = ("This %s instance is not fitted yet. Call \'fit\'"
           " with appropriate arguments before using this method.")
    assert_raise_message(NotFittedError, msg % 'VotingClassifier',
                         eclf.predict, X)
    assert_raise_message(NotFittedError, msg % 'VotingClassifier',
                         eclf.predict_proba, X)
    assert_raise_message(NotFittedError, msg % 'VotingClassifier',
                         eclf.transform, X)
    assert_raise_message(NotFittedError, msg % 'VotingRegressor',
                         ereg.predict, X_r)
    assert_raise_message(NotFittedError, msg % 'VotingRegressor',
                         ereg.transform, X_r)
예제 #12
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def test_multidimensional_X():
    """
    Check that the AdaBoost estimators can work with n-dimensional
    data matrix
    """

    from mrex.dummy import DummyClassifier, DummyRegressor

    rng = np.random.RandomState(0)

    X = rng.randn(50, 3, 3)
    yc = rng.choice([0, 1], 50)
    yr = rng.randn(50)

    boost = AdaBoostClassifier(DummyClassifier(strategy='most_frequent'))
    boost.fit(X, yc)
    boost.predict(X)
    boost.predict_proba(X)

    boost = AdaBoostRegressor(DummyRegressor())
    boost.fit(X, yr)
    boost.predict(X)
예제 #13
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def test_mean_strategy_multioutput_regressor():

    random_state = np.random.RandomState(seed=1)

    X_learn = random_state.randn(10, 10)
    y_learn = random_state.randn(10, 5)

    mean = np.mean(y_learn, axis=0).reshape((1, -1))

    X_test = random_state.randn(20, 10)
    y_test = random_state.randn(20, 5)

    # Correctness oracle
    est = DummyRegressor()
    est.fit(X_learn, y_learn)
    y_pred_learn = est.predict(X_learn)
    y_pred_test = est.predict(X_test)

    _check_equality_regressor(mean, y_learn, y_pred_learn, y_test, y_pred_test)
    _check_behavior_2d(est)
예제 #14
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def test_quantile_invalid():

    X = [[0]] * 5  # ignored
    y = [0] * 5  # ignored

    est = DummyRegressor(strategy="quantile")
    assert_raises(ValueError, est.fit, X, y)

    est = DummyRegressor(strategy="quantile", quantile=None)
    assert_raises(ValueError, est.fit, X, y)

    est = DummyRegressor(strategy="quantile", quantile=[0])
    assert_raises(ValueError, est.fit, X, y)

    est = DummyRegressor(strategy="quantile", quantile=-0.1)
    assert_raises(ValueError, est.fit, X, y)

    est = DummyRegressor(strategy="quantile", quantile=1.1)
    assert_raises(ValueError, est.fit, X, y)

    est = DummyRegressor(strategy="quantile", quantile='abc')
    assert_raises(TypeError, est.fit, X, y)
예제 #15
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def test_constant_strategy_multioutput_regressor():

    random_state = np.random.RandomState(seed=1)

    X_learn = random_state.randn(10, 10)
    y_learn = random_state.randn(10, 5)

    # test with 2d array
    constants = random_state.randn(5)

    X_test = random_state.randn(20, 10)
    y_test = random_state.randn(20, 5)

    # Correctness oracle
    est = DummyRegressor(strategy="constant", constant=constants)
    est.fit(X_learn, y_learn)
    y_pred_learn = est.predict(X_learn)
    y_pred_test = est.predict(X_test)

    _check_equality_regressor(
        constants, y_learn, y_pred_learn, y_test, y_pred_test)
    _check_behavior_2d_for_constant(est)
예제 #16
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    if imputation_order == 'roman':
        assert np.all(ordered_idx[:d - 1] == np.arange(1, d))
    elif imputation_order == 'arabic':
        assert np.all(ordered_idx[:d - 1] == np.arange(d - 1, 0, -1))
    elif imputation_order == 'random':
        ordered_idx_round_1 = ordered_idx[:d - 1]
        ordered_idx_round_2 = ordered_idx[d - 1:]
        assert ordered_idx_round_1 != ordered_idx_round_2
    elif 'ending' in imputation_order:
        assert len(ordered_idx) == max_iter * (d - 1)


@pytest.mark.parametrize(
    "estimator",
    [None, DummyRegressor(),
     BayesianRidge(),
     ARDRegression(),
     RidgeCV()])
def test_iterative_imputer_estimators(estimator):
    rng = np.random.RandomState(0)

    n = 100
    d = 10
    X = sparse_random_matrix(n, d, density=0.10, random_state=rng).toarray()

    imputer = IterativeImputer(missing_values=0,
                               max_iter=1,
                               estimator=estimator,
                               random_state=rng)
    imputer.fit_transform(X)
예제 #17
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def test_regressor_score_with_None(y, y_test):
    reg = DummyRegressor()
    reg.fit(None, y)
    assert reg.score(None, y_test) == 1.0
예제 #18
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def test_regressor_exceptions():
    reg = DummyRegressor()
    assert_raises(NotFittedError, reg.predict, [])
예제 #19
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def test_quantile_strategy_regressor():

    random_state = np.random.RandomState(seed=1)

    X = [[0]] * 5  # ignored
    y = random_state.randn(5)

    reg = DummyRegressor(strategy="quantile", quantile=0.5)
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [np.median(y)] * len(X))

    reg = DummyRegressor(strategy="quantile", quantile=0)
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [np.min(y)] * len(X))

    reg = DummyRegressor(strategy="quantile", quantile=1)
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [np.max(y)] * len(X))

    reg = DummyRegressor(strategy="quantile", quantile=0.3)
    reg.fit(X, y)
    assert_array_equal(reg.predict(X), [np.percentile(y, q=30)] * len(X))
예제 #20
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def test_quantile_strategy_multioutput_regressor():

    random_state = np.random.RandomState(seed=1)

    X_learn = random_state.randn(10, 10)
    y_learn = random_state.randn(10, 5)

    median = np.median(y_learn, axis=0).reshape((1, -1))
    quantile_values = np.percentile(y_learn, axis=0, q=80).reshape((1, -1))

    X_test = random_state.randn(20, 10)
    y_test = random_state.randn(20, 5)

    # Correctness oracle
    est = DummyRegressor(strategy="quantile", quantile=0.5)
    est.fit(X_learn, y_learn)
    y_pred_learn = est.predict(X_learn)
    y_pred_test = est.predict(X_test)

    _check_equality_regressor(
        median, y_learn, y_pred_learn, y_test, y_pred_test)
    _check_behavior_2d(est)

    # Correctness oracle
    est = DummyRegressor(strategy="quantile", quantile=0.8)
    est.fit(X_learn, y_learn)
    y_pred_learn = est.predict(X_learn)
    y_pred_test = est.predict(X_test)

    _check_equality_regressor(
        quantile_values, y_learn, y_pred_learn, y_test, y_pred_test)
    _check_behavior_2d(est)
예제 #21
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def test_constants_not_specified_regressor():
    X = [[0]] * 5
    y = [1, 2, 4, 6, 8]

    est = DummyRegressor(strategy='constant')
    assert_raises(TypeError, est.fit, X, y)
예제 #22
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def test_unknown_strategey_regressor():
    X = [[0]] * 5
    y = [1, 2, 4, 6, 8]

    est = DummyRegressor(strategy='gona')
    assert_raises(ValueError, est.fit, X, y)
예제 #23
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def test_quantile_strategy_empty_train():
    est = DummyRegressor(strategy="quantile", quantile=0.4)
    assert_raises(ValueError, est.fit, [], [])