def tagAnomalies(df):
    values = df.prediction.values.reshape(-1, 1)
    anomalyDetector = LOCI()
    anomalyDetector.fit(values)
    anomalyLabels = np.asarray(anomalyDetector.labels_)
    df['isAnomaly'] = anomalyLabels
    return df
def loci(X):
    alpha = 0.5
    k = 3
    clf = LOCI(alpha=alpha, k=k)
    clf.fit(X)
    label = clf.labels_
    #return label
    writeLabel(label)
    return
Ejemplo n.º 3
0
coef = (coef - coef.min()) / (coef.max() - coef.min())
fpr, tpr, _ = roc_curve(data[:, -1], coef)
roc_auc = auc(fpr, tpr)
file_result.append(roc_auc)

#kDIST
algorith = kdist.KDIST(k=60, t=0.1)
coef = algorith.fit_predict(data[:, :-1])
coef = (coef - coef.min()) / (coef.max() - coef.min())
fpr, tpr, _ = roc_curve(data[:, -1], coef)
roc_auc = auc(fpr, tpr)
file_result.append(roc_auc)

#LOCI
clf = LOCI()
clf.fit(data[:, :-1])
coef = clf.decision_scores_
coef = np.abs(coef)
coef = (coef - coef.min()) / (coef.max() - coef.min())
fpr, tpr, _ = roc_curve(data[:, -1], coef)
roc_auc = auc(fpr, tpr)
file_result.append(roc_auc)

result = np.array(file_result)
print('hi')
##############################################################################
## file1

data = load.load_data(files[1], sep=',')  # k = 20
file_result = []
Ejemplo n.º 4
0
class TestLOCI(unittest.TestCase):
    def setUp(self):
        self.n_train = 200
        self.n_test = 100
        self.contamination = 0.1
        self.roc_floor = 0.8
        self.X_train, self.y_train, self.X_test, self.y_test = generate_data(
            n_train=self.n_train,
            n_test=self.n_test,
            contamination=self.contamination,
            random_state=42)

        self.clf = LOCI(contamination=self.contamination)
        self.clf.fit(self.X_train)

    def test_sklearn_estimator(self):
        # TODO: sklearn check does not support Numba optimization
        #        check_estimator(self.clf)
        pass

    def test_parameters(self):
        assert_true(
            hasattr(self.clf, 'decision_scores_')
            and self.clf.decision_scores_ is not None)
        assert_true(
            hasattr(self.clf, 'labels_') and self.clf.labels_ is not None)
        assert_true(
            hasattr(self.clf, 'threshold_')
            and self.clf.threshold_ is not None)

    def test_train_scores(self):
        assert_equal(len(self.clf.decision_scores_), self.X_train.shape[0])

    def test_prediction_scores(self):
        pred_scores = self.clf.decision_function(self.X_test)

        # check score shapes
        assert_equal(pred_scores.shape[0], self.X_test.shape[0])

        # check performance
        assert_greater(roc_auc_score(self.y_test, pred_scores), self.roc_floor)

    def test_prediction_labels(self):
        pred_labels = self.clf.predict(self.X_test)
        assert_equal(pred_labels.shape, self.y_test.shape)

    def test_prediction_proba(self):
        pred_proba = self.clf.predict_proba(self.X_test)
        assert_greater_equal(pred_proba.min(), 0)
        assert_less_equal(pred_proba.max(), 1)

    def test_prediction_proba_linear(self):
        pred_proba = self.clf.predict_proba(self.X_test, method='linear')
        assert_greater_equal(pred_proba.min(), 0)
        assert_less_equal(pred_proba.max(), 1)

    def test_prediction_proba_unify(self):
        pred_proba = self.clf.predict_proba(self.X_test, method='unify')
        assert_greater_equal(pred_proba.min(), 0)
        assert_less_equal(pred_proba.max(), 1)

    def test_prediction_proba_parameter(self):
        with assert_raises(ValueError):
            self.clf.predict_proba(self.X_test, method='something')

    def test_fit_predict(self):
        pred_labels = self.clf.fit_predict(self.X_train)
        assert_equal(pred_labels.shape, self.y_train.shape)

    def test_fit_predict_score(self):
        self.clf.fit_predict_score(self.X_test, self.y_test)
        self.clf.fit_predict_score(self.X_test,
                                   self.y_test,
                                   scoring='roc_auc_score')
        self.clf.fit_predict_score(self.X_test,
                                   self.y_test,
                                   scoring='prc_n_score')
        with assert_raises(NotImplementedError):
            self.clf.fit_predict_score(self.X_test,
                                       self.y_test,
                                       scoring='something')

    def test_predict_rank(self):
        pred_socres = self.clf.decision_function(self.X_test)
        pred_ranks = self.clf._predict_rank(self.X_test)

        # assert the order is reserved
        assert_allclose(rankdata(pred_ranks), rankdata(pred_socres), atol=3)
        assert_array_less(pred_ranks, self.X_train.shape[0] + 1)
        assert_array_less(-0.1, pred_ranks)

    def test_predict_rank_normalized(self):
        pred_socres = self.clf.decision_function(self.X_test)
        pred_ranks = self.clf._predict_rank(self.X_test, normalized=True)

        # assert the order is reserved
        assert_allclose(rankdata(pred_ranks), rankdata(pred_socres), atol=3)
        assert_array_less(pred_ranks, 1.01)
        assert_array_less(-0.1, pred_ranks)

    def tearDown(self):
        pass
Ejemplo n.º 5
0
    contamination = 0.1  # percentage of outliers
    n_train = 200  # number of training points
    n_test = 100  # number of testing points

    # Generate sample data
    X_train, y_train, X_test, y_test = \
        generate_data(n_train=n_train,
                      n_test=n_test,
                      n_features=2,
                      contamination=contamination,
                      random_state=42)

    # train LOCI detector
    clf_name = 'LOCI'
    clf = LOCI()
    clf.fit(X_train)

    # get the prediction labels and outlier scores of the training data
    y_train_pred = clf.labels_  # binary labels (0: inliers, 1: outliers)
    y_train_scores = clf.decision_scores_  # raw outlier scores

    # get the prediction on the test data
    y_test_pred = clf.predict(X_test)  # outlier labels (0 or 1)
    y_test_scores = clf.decision_function(X_test)  # outlier scores

    # evaluate and print the results
    print("\nOn Training Data:")
    evaluate_print(clf_name, y_train, y_train_scores)
    print("\nOn Test Data:")
    evaluate_print(clf_name, y_test, y_test_scores)
Ejemplo n.º 6
0
class TestLOCI(unittest.TestCase):
    def setUp(self):
        self.n_train = 100
        self.n_test = 50
        self.contamination = 0.1
        self.roc_floor = 0.6
        self.X_train, self.y_train, self.X_test, self.y_test = generate_data(
            n_train=self.n_train, n_test=self.n_test,
            contamination=self.contamination, random_state=42)

        self.clf = LOCI(contamination=self.contamination)
        self.clf.fit(self.X_train)

    def test_sklearn_estimator(self):
        # TODO: sklearn check does not support Numba optimization
#        check_estimator(self.clf)
        pass

    def test_parameters(self):
        assert_true(hasattr(self.clf, 'decision_scores_') and
                    self.clf.decision_scores_ is not None)
        assert_true(hasattr(self.clf, 'labels_') and
                    self.clf.labels_ is not None)
        assert_true(hasattr(self.clf, 'threshold_') and
                    self.clf.threshold_ is not None)

    def test_train_scores(self):
        assert_equal(len(self.clf.decision_scores_), self.X_train.shape[0])

    def test_prediction_scores(self):
        pred_scores = self.clf.decision_function(self.X_test)

        # check score shapes
        assert_equal(pred_scores.shape[0], self.X_test.shape[0])

        # check performance
        assert_greater(roc_auc_score(self.y_test, pred_scores), self.roc_floor)

    def test_prediction_labels(self):
        pred_labels = self.clf.predict(self.X_test)
        assert_equal(pred_labels.shape, self.y_test.shape)

    def test_prediction_proba(self):
        pred_proba = self.clf.predict_proba(self.X_test)
        assert_greater_equal(pred_proba.min(), 0)
        assert_less_equal(pred_proba.max(), 1)

    def test_prediction_proba_linear(self):
        pred_proba = self.clf.predict_proba(self.X_test, method='linear')
        assert_greater_equal(pred_proba.min(), 0)
        assert_less_equal(pred_proba.max(), 1)

    def test_prediction_proba_unify(self):
        pred_proba = self.clf.predict_proba(self.X_test, method='unify')
        assert_greater_equal(pred_proba.min(), 0)
        assert_less_equal(pred_proba.max(), 1)

    def test_prediction_proba_parameter(self):
        with assert_raises(ValueError):
            self.clf.predict_proba(self.X_test, method='something')

    def test_fit_predict(self):
        pred_labels = self.clf.fit_predict(self.X_train)
        assert_equal(pred_labels.shape, self.y_train.shape)

    def test_fit_predict_score(self):
        self.clf.fit_predict_score(self.X_test, self.y_test)
        self.clf.fit_predict_score(self.X_test, self.y_test,
                                   scoring='roc_auc_score')
        self.clf.fit_predict_score(self.X_test, self.y_test,
                                   scoring='prc_n_score')
        with assert_raises(NotImplementedError):
            self.clf.fit_predict_score(self.X_test, self.y_test,
                                       scoring='something')

    def test_predict_rank(self):
        pred_socres = self.clf.decision_function(self.X_test)
        pred_ranks = self.clf._predict_rank(self.X_test)

        # assert the order is reserved
        assert_allclose(rankdata(pred_ranks), rankdata(pred_socres), atol=3)
        assert_array_less(pred_ranks, self.X_train.shape[0] + 1)
        assert_array_less(-0.1, pred_ranks)

    def test_predict_rank_normalized(self):
        pred_socres = self.clf.decision_function(self.X_test)
        pred_ranks = self.clf._predict_rank(self.X_test, normalized=True)

        # assert the order is reserved
        assert_allclose(rankdata(pred_ranks), rankdata(pred_socres), atol=3)
        assert_array_less(pred_ranks, 1.01)
        assert_array_less(-0.1, pred_ranks)

    def tearDown(self):
        pass