def test_Thresholds(self): r1_text = 'licensed under the GPL, licensed under the GPL' r1 = models.Rule(text_file='r1', license_expression='apache-1.1', stored_text=r1_text) r2_text = 'licensed under the GPL, licensed under the GPL' * 10 r2 = models.Rule(text_file='r1', license_expression='apache-1.1', stored_text=r2_text) _idx = index.LicenseIndex([r1, r2]) results = models.compute_thresholds_occurences(r1.minimum_coverage, r1.length, r1.high_length) expected_min_cov = 80 expected_min_matched_length = 8 expected_min_high_matched_length = 4 expected = expected_min_cov, expected_min_matched_length, expected_min_high_matched_length assert results == expected results = models.compute_thresholds_unique( r1.minimum_coverage, r1.length, r1.length_unique, r1.high_length_unique) expected_min_matched_length_unique = 3 expected_min_high_matched_length_unique = 2 expected = expected_min_matched_length_unique, expected_min_high_matched_length_unique assert results == expected results = models.compute_thresholds_occurences(r2.minimum_coverage, r2.length, r2.high_length) expected_min_cov = 0.0 expected_min_matched_length = 4 expected_min_high_matched_length = 3 expected = expected_min_cov, expected_min_matched_length, expected_min_high_matched_length assert results == expected results = models.compute_thresholds_unique( r2.minimum_coverage, r2.length, r2.length_unique, r2.high_length_unique) expected_min_matched_length_unique = 4 expected_min_high_matched_length_unique = 1 expected = expected_min_matched_length_unique, expected_min_high_matched_length_unique assert results == expected
def test_compute_thresholds_occurences(self): minimum_coverage = 0.0 length = 54 high_length = 11 results = models.compute_thresholds_occurences(minimum_coverage, length, high_length) expected_min_cov = 0.0 expected_min_matched_length = 4 expected_min_high_matched_length = 3 expected = expected_min_cov, expected_min_matched_length, expected_min_high_matched_length assert results == expected length_unique = 39 high_length_unique = 7 results = models.compute_thresholds_unique( minimum_coverage, length, length_unique, high_length_unique) expected_min_matched_length_unique = 4 expected_min_high_matched_length_unique = 3 expected = expected_min_matched_length_unique, expected_min_high_matched_length_unique assert results == expected