Пример #1
0
def test_feature_union_weights():
    # test feature union with transformer weights
    iris = load_iris()
    X = iris.data
    y = iris.target
    pca = PCA(n_components=2, svd_solver='randomized', random_state=0)
    select = SelectKBest(k=1)
    # test using fit followed by transform
    fs = FeatureUnion([("pca", pca), ("select", select)],
                      transformer_weights={"pca": 10})
    fs.fit(X, y)
    X_transformed = fs.transform(X)
    # test using fit_transform
    fs = FeatureUnion([("pca", pca), ("select", select)],
                      transformer_weights={"pca": 10})
    X_fit_transformed = fs.fit_transform(X, y)
    # test it works with transformers missing fit_transform
    fs = FeatureUnion([("mock", Transf()), ("pca", pca), ("select", select)],
                      transformer_weights={"mock": 10})
    X_fit_transformed_wo_method = fs.fit_transform(X, y)
    # check against expected result

    # We use a different pca object to control the random_state stream
    assert_array_almost_equal(X_transformed[:, :-1], 10 * pca.fit_transform(X))
    assert_array_equal(X_transformed[:, -1],
                       select.fit_transform(X, y).ravel())
    assert_array_almost_equal(X_fit_transformed[:, :-1],
                              10 * pca.fit_transform(X))
    assert_array_equal(X_fit_transformed[:, -1],
                       select.fit_transform(X, y).ravel())
    assert X_fit_transformed_wo_method.shape == (X.shape[0], 7)
Пример #2
0
def test_feature_union():
    # basic sanity check for feature union
    iris = load_iris()
    X = iris.data
    X -= X.mean(axis=0)
    y = iris.target
    svd = TruncatedSVD(n_components=2, random_state=0)
    select = SelectKBest(k=1)
    fs = FeatureUnion([("svd", svd), ("select", select)])
    fs.fit(X, y)
    X_transformed = fs.transform(X)
    assert X_transformed.shape == (X.shape[0], 3)

    # check if it does the expected thing
    assert_array_almost_equal(X_transformed[:, :-1], svd.fit_transform(X))
    assert_array_equal(X_transformed[:, -1],
                       select.fit_transform(X, y).ravel())

    # test if it also works for sparse input
    # We use a different svd object to control the random_state stream
    fs = FeatureUnion([("svd", svd), ("select", select)])
    X_sp = sparse.csr_matrix(X)
    X_sp_transformed = fs.fit_transform(X_sp, y)
    assert_array_almost_equal(X_transformed, X_sp_transformed.toarray())

    # Test clone
    fs2 = assert_no_warnings(clone, fs)
    assert fs.transformer_list[0][1] is not fs2.transformer_list[0][1]

    # test setting parameters
    fs.set_params(select__k=2)
    assert fs.fit_transform(X, y).shape == (X.shape[0], 4)

    # test it works with transformers missing fit_transform
    fs = FeatureUnion([("mock", Transf()), ("svd", svd), ("select", select)])
    X_transformed = fs.fit_transform(X, y)
    assert X_transformed.shape == (X.shape[0], 8)

    # test error if some elements do not support transform
    assert_raises_regex(TypeError,
                        'All estimators should implement fit and '
                        'transform.*\\bNoTrans\\b',
                        FeatureUnion,
                        [("transform", Transf()), ("no_transform", NoTrans())])

    # test that init accepts tuples
    fs = FeatureUnion((("svd", svd), ("select", select)))
    fs.fit(X, y)