コード例 #1
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_core_samples_toy(algorithm):
    X = [[0], [2], [3], [4], [6], [8], [10]]
    n_samples = len(X)

    # Degenerate case: every sample is a core sample, either with its own
    # cluster or including other close core samples.
    core_samples, labels = dbscan(X, algorithm=algorithm, eps=1, min_samples=1)
    assert_array_equal(core_samples, np.arange(n_samples))
    assert_array_equal(labels, [0, 1, 1, 1, 2, 3, 4])

    # With eps=1 and min_samples=2 only the 3 samples from the denser area
    # are core samples. All other points are isolated and considered noise.
    core_samples, labels = dbscan(X, algorithm=algorithm, eps=1, min_samples=2)
    assert_array_equal(core_samples, [1, 2, 3])
    assert_array_equal(labels, [-1, 0, 0, 0, -1, -1, -1])

    # Only the sample in the middle of the dense area is core. Its two
    # neighbors are edge samples. Remaining samples are noise.
    core_samples, labels = dbscan(X, algorithm=algorithm, eps=1, min_samples=3)
    assert_array_equal(core_samples, [2])
    assert_array_equal(labels, [-1, 0, 0, 0, -1, -1, -1])

    # It's no longer possible to extract core samples with eps=1:
    # everything is noise.
    core_samples, labels = dbscan(X, algorithm=algorithm, eps=1, min_samples=4)
    assert_array_equal(core_samples, [])
    assert_array_equal(labels, np.full(n_samples, -1.))
コード例 #2
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_sparse():
    core_sparse, labels_sparse = dbscan(sparse.lil_matrix(X),
                                        eps=.8,
                                        min_samples=10)
    core_dense, labels_dense = dbscan(X, eps=.8, min_samples=10)
    assert_array_equal(core_dense, core_sparse)
    assert_array_equal(labels_dense, labels_sparse)
コード例 #3
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_boundaries():
    # ensure min_samples is inclusive of core point
    core, _ = dbscan([[0], [1]], eps=2, min_samples=2)
    assert 0 in core
    # ensure eps is inclusive of circumference
    core, _ = dbscan([[0], [1], [1]], eps=1, min_samples=2)
    assert 0 in core
    core, _ = dbscan([[0], [1], [1]], eps=.99, min_samples=2)
    assert 0 not in core
コード例 #4
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_input_not_modified(use_sparse, metric):
    # test that the input is not modified by dbscan
    X = np.random.RandomState(0).rand(10, 10)
    X = sparse.csr_matrix(X) if use_sparse else X
    X_copy = X.copy()
    dbscan(X, metric=metric)

    if use_sparse:
        assert_array_equal(X.toarray(), X_copy.toarray())
    else:
        assert_array_equal(X, X_copy)
コード例 #5
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_sparse_precomputed_different_eps():
    # test that precomputed neighbors graph is filtered if computed with
    # a radius larger than DBSCAN's eps.
    lower_eps = 0.2
    nn = NearestNeighbors(radius=lower_eps).fit(X)
    D_sparse = nn.radius_neighbors_graph(X, mode='distance')
    dbscan_lower = dbscan(D_sparse, eps=lower_eps, metric='precomputed')

    higher_eps = lower_eps + 0.7
    nn = NearestNeighbors(radius=higher_eps).fit(X)
    D_sparse = nn.radius_neighbors_graph(X, mode='distance')
    dbscan_higher = dbscan(D_sparse, eps=lower_eps, metric='precomputed')

    assert_array_equal(dbscan_lower[0], dbscan_higher[0])
    assert_array_equal(dbscan_lower[1], dbscan_higher[1])
コード例 #6
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_callable():
    # Tests the DBSCAN algorithm with a callable metric.
    # Parameters chosen specifically for this task.
    # Different eps to other test, because distance is not normalised.
    eps = 0.8
    min_samples = 10
    # metric is the function reference, not the string key.
    metric = distance.euclidean
    # Compute DBSCAN
    # parameters chosen for task
    core_samples, labels = dbscan(X,
                                  metric=metric,
                                  eps=eps,
                                  min_samples=min_samples,
                                  algorithm='ball_tree')

    # number of clusters, ignoring noise if present
    n_clusters_1 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_1 == n_clusters

    db = DBSCAN(metric=metric,
                eps=eps,
                min_samples=min_samples,
                algorithm='ball_tree')
    labels = db.fit(X).labels_

    n_clusters_2 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_2 == n_clusters
コード例 #7
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_sparse_precomputed(include_self):
    D = pairwise_distances(X)
    nn = NearestNeighbors(radius=.9).fit(X)
    X_ = X if include_self else None
    D_sparse = nn.radius_neighbors_graph(X=X_, mode='distance')
    # Ensure it is sparse not merely on diagonals:
    assert D_sparse.nnz < D.shape[0] * (D.shape[0] - 1)
    core_sparse, labels_sparse = dbscan(D_sparse,
                                        eps=.8,
                                        min_samples=10,
                                        metric='precomputed')
    core_dense, labels_dense = dbscan(D,
                                      eps=.8,
                                      min_samples=10,
                                      metric='precomputed')
    assert_array_equal(core_dense, core_sparse)
    assert_array_equal(labels_dense, labels_sparse)
コード例 #8
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_balltree():
    # Tests the DBSCAN algorithm with balltree for neighbor calculation.
    eps = 0.8
    min_samples = 10

    D = pairwise_distances(X)
    core_samples, labels = dbscan(D,
                                  metric="precomputed",
                                  eps=eps,
                                  min_samples=min_samples)

    # number of clusters, ignoring noise if present
    n_clusters_1 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_1 == n_clusters

    db = DBSCAN(p=2.0, eps=eps, min_samples=min_samples, algorithm='ball_tree')
    labels = db.fit(X).labels_

    n_clusters_2 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_2 == n_clusters

    db = DBSCAN(p=2.0, eps=eps, min_samples=min_samples, algorithm='kd_tree')
    labels = db.fit(X).labels_

    n_clusters_3 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_3 == n_clusters

    db = DBSCAN(p=1.0, eps=eps, min_samples=min_samples, algorithm='ball_tree')
    labels = db.fit(X).labels_

    n_clusters_4 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_4 == n_clusters

    db = DBSCAN(leaf_size=20,
                eps=eps,
                min_samples=min_samples,
                algorithm='ball_tree')
    labels = db.fit(X).labels_

    n_clusters_5 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_5 == n_clusters
コード例 #9
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_feature():
    # Tests the DBSCAN algorithm with a feature vector array.
    # Parameters chosen specifically for this task.
    # Different eps to other test, because distance is not normalised.
    eps = 0.8
    min_samples = 10
    metric = 'euclidean'
    # Compute DBSCAN
    # parameters chosen for task
    core_samples, labels = dbscan(X,
                                  metric=metric,
                                  eps=eps,
                                  min_samples=min_samples)

    # number of clusters, ignoring noise if present
    n_clusters_1 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_1 == n_clusters

    db = DBSCAN(metric=metric, eps=eps, min_samples=min_samples)
    labels = db.fit(X).labels_

    n_clusters_2 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_2 == n_clusters
コード例 #10
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_similarity():
    # Tests the DBSCAN algorithm with a similarity array.
    # Parameters chosen specifically for this task.
    eps = 0.15
    min_samples = 10
    # Compute similarities
    D = distance.squareform(distance.pdist(X))
    D /= np.max(D)
    # Compute DBSCAN
    core_samples, labels = dbscan(D,
                                  metric="precomputed",
                                  eps=eps,
                                  min_samples=min_samples)
    # number of clusters, ignoring noise if present
    n_clusters_1 = len(set(labels)) - (1 if -1 in labels else 0)

    assert n_clusters_1 == n_clusters

    db = DBSCAN(metric="precomputed", eps=eps, min_samples=min_samples)
    labels = db.fit(D).labels_

    n_clusters_2 = len(set(labels)) - int(-1 in labels)
    assert n_clusters_2 == n_clusters
コード例 #11
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_weighted_dbscan():
    # ensure sample_weight is validated
    with pytest.raises(ValueError):
        dbscan([[0], [1]], sample_weight=[2])
    with pytest.raises(ValueError):
        dbscan([[0], [1]], sample_weight=[2, 3, 4])

    # ensure sample_weight has an effect
    assert_array_equal([],
                       dbscan([[0], [1]], sample_weight=None,
                              min_samples=6)[0])
    assert_array_equal([],
                       dbscan([[0], [1]], sample_weight=[5, 5],
                              min_samples=6)[0])
    assert_array_equal([0],
                       dbscan([[0], [1]], sample_weight=[6, 5],
                              min_samples=6)[0])
    assert_array_equal([0, 1],
                       dbscan([[0], [1]], sample_weight=[6, 6],
                              min_samples=6)[0])

    # points within eps of each other:
    assert_array_equal([0, 1],
                       dbscan([[0], [1]],
                              eps=1.5,
                              sample_weight=[5, 1],
                              min_samples=6)[0])
    # and effect of non-positive and non-integer sample_weight:
    assert_array_equal([],
                       dbscan([[0], [1]],
                              sample_weight=[5, 0],
                              eps=1.5,
                              min_samples=6)[0])
    assert_array_equal([0, 1],
                       dbscan([[0], [1]],
                              sample_weight=[5.9, 0.1],
                              eps=1.5,
                              min_samples=6)[0])
    assert_array_equal([0, 1],
                       dbscan([[0], [1]],
                              sample_weight=[6, 0],
                              eps=1.5,
                              min_samples=6)[0])
    assert_array_equal([],
                       dbscan([[0], [1]],
                              sample_weight=[6, -1],
                              eps=1.5,
                              min_samples=6)[0])

    # for non-negative sample_weight, cores should be identical to repetition
    rng = np.random.RandomState(42)
    sample_weight = rng.randint(0, 5, X.shape[0])
    core1, label1 = dbscan(X, sample_weight=sample_weight)
    assert len(label1) == len(X)

    X_repeated = np.repeat(X, sample_weight, axis=0)
    core_repeated, label_repeated = dbscan(X_repeated)
    core_repeated_mask = np.zeros(X_repeated.shape[0], dtype=bool)
    core_repeated_mask[core_repeated] = True
    core_mask = np.zeros(X.shape[0], dtype=bool)
    core_mask[core1] = True
    assert_array_equal(np.repeat(core_mask, sample_weight), core_repeated_mask)

    # sample_weight should work with precomputed distance matrix
    D = pairwise_distances(X)
    core3, label3 = dbscan(D,
                           sample_weight=sample_weight,
                           metric='precomputed')
    assert_array_equal(core1, core3)
    assert_array_equal(label1, label3)

    # sample_weight should work with estimator
    est = DBSCAN().fit(X, sample_weight=sample_weight)
    core4 = est.core_sample_indices_
    label4 = est.labels_
    assert_array_equal(core1, core4)
    assert_array_equal(label1, label4)

    est = DBSCAN()
    label5 = est.fit_predict(X, sample_weight=sample_weight)
    core5 = est.core_sample_indices_
    assert_array_equal(core1, core5)
    assert_array_equal(label1, label5)
    assert_array_equal(label1, est.labels_)
コード例 #12
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ファイル: test_dbscan.py プロジェクト: ivohashamov/hackaTUM
def test_dbscan_badargs(args):
    # Test bad argument values: these should all raise ValueErrors
    with pytest.raises(ValueError):
        dbscan(X, **args)