"""Test for score""" # Authors: Guillaume Lemaitre # Christos Aridas # License: MIT import pytest from sklearn.datasets import make_blobs from sklearn.linear_model import LogisticRegression from sklearn.metrics import make_scorer from sklearn.model_selection import GridSearchCV, train_test_split from imblearn.metrics import ( geometric_mean_score, make_index_balanced_accuracy, sensitivity_score, specificity_score, ) R_TOL = 1e-2 @pytest.fixture def data(): X, y = make_blobs(random_state=0, centers=2) return train_test_split(X, y, random_state=0) @pytest.mark.parametrize( "score, expected_score", [ (sensitivity_score, 0.90), (specificity_score, 0.90), (geometric_mean_score, 0.90), (make_index_balanced_accuracy()(geometric_mean_score), 0.82), ], ) @pytest.mark.parametrize("average", ["macro", "weighted", "micro"]) def test_scorer_common_average(data, score, expected_score, average): X_train, X_test, y_train, _ = data scorer = make_scorer(score, pos_label=None, average=average) grid = GridSearchCV( LogisticRegression(), param_grid={"C": [1, 10]}, scoring=scorer, cv=3, ) grid.fit(X_train, y_train).predict(X_test) assert grid.best_score_ >= expected_score @pytest.mark.parametrize( "score, average, expected_score", [ (sensitivity_score, "binary", 0.94), (specificity_score, "binary", 0.89), (geometric_mean_score, "multiclass", 0.90), ( make_index_balanced_accuracy()(geometric_mean_score), "multiclass", 0.82, ), ], ) def test_scorer_default_average(data, score, average, expected_score): X_train, X_test, y_train, _ = data scorer = make_scorer(score, pos_label=1, average=average) grid = GridSearchCV( LogisticRegression(), param_grid={"C": [1, 10]}, scoring=scorer, cv=3, ) grid.fit(X_train, y_train).predict(X_test) assert grid.best_score_ >= expected_score