Exemplo n.º 1
0
def test_pipeline_methods_preprocessing_svm():
    # Test the various methods of the pipeline (preprocessing + svm).
    X = iris.data
    y = iris.target
    n_samples = X.shape[0]
    n_classes = len(np.unique(y))
    scaler = StandardScaler()
    pca = PCA(n_components=2, svd_solver='randomized', whiten=True)
    clf = SVC(probability=True, random_state=0, decision_function_shape='ovr')

    for preprocessing in [scaler, pca]:
        pipe = Pipeline([('preprocess', preprocessing), ('svc', clf)])
        pipe.fit(X, y)

        # check shapes of various prediction functions
        predict = pipe.predict(X)
        assert predict.shape == (n_samples, )

        proba = pipe.predict_proba(X)
        assert proba.shape == (n_samples, n_classes)

        log_proba = pipe.predict_log_proba(X)
        assert log_proba.shape == (n_samples, n_classes)

        decision_function = pipe.decision_function(X)
        assert decision_function.shape == (n_samples, n_classes)

        pipe.score(X, y)
Exemplo n.º 2
0
def test_pipeline_sample_weight_supported():
    # Pipeline should pass sample_weight
    X = np.array([[1, 2]])
    pipe = Pipeline([('transf', Transf()), ('clf', FitParamT())])
    pipe.fit(X, y=None)
    assert pipe.score(X) == 3
    assert pipe.score(X, y=None) == 3
    assert pipe.score(X, y=None, sample_weight=None) == 3
    assert pipe.score(X, sample_weight=np.array([2, 3])) == 8
Exemplo n.º 3
0
def test_pipeline_init_tuple():
    # Pipeline accepts steps as tuple
    X = np.array([[1, 2]])
    pipe = Pipeline((('transf', Transf()), ('clf', FitParamT())))
    pipe.fit(X, y=None)
    pipe.score(X)

    pipe.set_params(transf='passthrough')
    pipe.fit(X, y=None)
    pipe.score(X)
Exemplo n.º 4
0
def test_pipeline_methods_pca_svm():
    # Test the various methods of the pipeline (pca + svm).
    X = iris.data
    y = iris.target
    # Test with PCA + SVC
    clf = SVC(probability=True, random_state=0)
    pca = PCA(svd_solver='full', n_components='mle', whiten=True)
    pipe = Pipeline([('pca', pca), ('svc', clf)])
    pipe.fit(X, y)
    pipe.predict(X)
    pipe.predict_proba(X)
    pipe.predict_log_proba(X)
    pipe.score(X, y)
Exemplo n.º 5
0
def test_pipeline_sample_weight_unsupported():
    # When sample_weight is None it shouldn't be passed
    X = np.array([[1, 2]])
    pipe = Pipeline([('transf', Transf()), ('clf', Mult())])
    pipe.fit(X, y=None)
    assert pipe.score(X) == 3
    assert pipe.score(X, sample_weight=None) == 3
    assert_raise_message(
        TypeError,
        "score() got an unexpected keyword argument 'sample_weight'",
        pipe.score,
        X,
        sample_weight=np.array([2, 3]))
Exemplo n.º 6
0
def test_pipeline_methods_anova():
    # Test the various methods of the pipeline (anova).
    X = iris.data
    y = iris.target
    # Test with Anova + LogisticRegression
    clf = LogisticRegression()
    filter1 = SelectKBest(f_classif, k=2)
    pipe = Pipeline([('anova', filter1), ('logistic', clf)])
    pipe.fit(X, y)
    pipe.predict(X)
    pipe.predict_proba(X)
    pipe.predict_log_proba(X)
    pipe.score(X, y)
Exemplo n.º 7
0
def test_pipeline_memory():
    X = iris.data
    y = iris.target
    cachedir = mkdtemp()
    try:
        if LooseVersion(joblib.__version__) < LooseVersion('0.12'):
            # Deal with change of API in joblib
            memory = joblib.Memory(cachedir=cachedir, verbose=10)
        else:
            memory = joblib.Memory(location=cachedir, verbose=10)
        # Test with Transformer + SVC
        clf = SVC(probability=True, random_state=0)
        transf = DummyTransf()
        pipe = Pipeline([('transf', clone(transf)), ('svc', clf)])
        cached_pipe = Pipeline([('transf', transf), ('svc', clf)],
                               memory=memory)

        # Memoize the transformer at the first fit
        cached_pipe.fit(X, y)
        pipe.fit(X, y)
        # Get the time stamp of the transformer in the cached pipeline
        ts = cached_pipe.named_steps['transf'].timestamp_
        # Check that cached_pipe and pipe yield identical results
        assert_array_equal(pipe.predict(X), cached_pipe.predict(X))
        assert_array_equal(pipe.predict_proba(X), cached_pipe.predict_proba(X))
        assert_array_equal(pipe.predict_log_proba(X),
                           cached_pipe.predict_log_proba(X))
        assert_array_equal(pipe.score(X, y), cached_pipe.score(X, y))
        assert_array_equal(pipe.named_steps['transf'].means_,
                           cached_pipe.named_steps['transf'].means_)
        assert not hasattr(transf, 'means_')
        # Check that we are reading the cache while fitting
        # a second time
        cached_pipe.fit(X, y)
        # Check that cached_pipe and pipe yield identical results
        assert_array_equal(pipe.predict(X), cached_pipe.predict(X))
        assert_array_equal(pipe.predict_proba(X), cached_pipe.predict_proba(X))
        assert_array_equal(pipe.predict_log_proba(X),
                           cached_pipe.predict_log_proba(X))
        assert_array_equal(pipe.score(X, y), cached_pipe.score(X, y))
        assert_array_equal(pipe.named_steps['transf'].means_,
                           cached_pipe.named_steps['transf'].means_)
        assert ts == cached_pipe.named_steps['transf'].timestamp_
        # Create a new pipeline with cloned estimators
        # Check that even changing the name step does not affect the cache hit
        clf_2 = SVC(probability=True, random_state=0)
        transf_2 = DummyTransf()
        cached_pipe_2 = Pipeline([('transf_2', transf_2), ('svc', clf_2)],
                                 memory=memory)
        cached_pipe_2.fit(X, y)

        # Check that cached_pipe and pipe yield identical results
        assert_array_equal(pipe.predict(X), cached_pipe_2.predict(X))
        assert_array_equal(pipe.predict_proba(X),
                           cached_pipe_2.predict_proba(X))
        assert_array_equal(pipe.predict_log_proba(X),
                           cached_pipe_2.predict_log_proba(X))
        assert_array_equal(pipe.score(X, y), cached_pipe_2.score(X, y))
        assert_array_equal(pipe.named_steps['transf'].means_,
                           cached_pipe_2.named_steps['transf_2'].means_)
        assert ts == cached_pipe_2.named_steps['transf_2'].timestamp_
    finally:
        shutil.rmtree(cachedir)