def en_parsers_speed(self): file_path = os.path.join(lexnlp_test_path, 'long_parsed_text.txt') with codecs.open(file_path, 'r', encoding='utf-8') as fr: text = fr.read() ge_path = os.path.join(lexnlp_test_path, 'lexnlp/extract/en/tests/test_geoentities/') entities_fn = ge_path + 'geoentities.csv' aliases_fn = ge_path + 'geoaliases.csv' geo_config = list(DictionaryEntry.load_entities_from_files(entities_fn, aliases_fn)) times = {} # type: Dict[str, float] self.check_time(text, lambda s: list(get_amounts(s)), 'get_amounts', times) self.check_time(text, lambda s: list(get_acts(s)), 'get_acts', times) self.check_time(text, lambda s: list(get_citations(s)), 'get_citations', times) self.check_time(text, lambda s: list(get_conditions(s)), 'get_conditions', times) self.check_time(text, lambda s: list(get_constraints(s)), 'get_constraints', times) self.check_time(text, lambda s: list(get_copyright(s)), 'get_copyright', times) self.check_time(text, lambda s: list(_get_courts(s)), 'get_courts', times) self.check_time(text, lambda s: list(get_cusip(s)), 'get_cusip', times) self.check_time(text, lambda s: list(get_dates(s)), 'get_dates', times) self.check_time(text, lambda s: list(get_definitions(s)), 'get_definitions', times) self.check_time(text, lambda s: list(get_distances(s)), 'get_distances', times) self.check_time(text, lambda s: list(get_durations(s)), 'get_durations', times) self.check_time(text, lambda s: list(get_geoentities(s, geo_config)), 'get_geoentities', times) self.check_time(text, lambda s: list(get_money(s)), 'get_money', times) self.check_time(text, lambda s: list(get_percents(s)), 'get_percents', times) self.check_time(text, lambda s: list(get_pii(s)), 'get_pii', times) self.check_time(text, lambda s: list(get_ratios(s)), 'get_ratios', times) self.check_time(text, lambda s: list(get_regulations(s)), 'get_regulations', times) self.check_time(text, lambda s: list(get_trademarks(s)), 'get_trademarks', times) self.check_time(text, lambda s: list(get_urls(s)), 'get_urls', times) self.assertTrue('get_amounts' in times)
def test_distances_words(self): text = 'Today I ran eight kilometers.' ds = list(get_distances(text)) self.assertEqual(1, len(ds)) ant = list(get_distance_annotations(text))[0] self.assertEqual((11, 29), ant.coords) cite = ant.get_cite() self.assertEqual('/en/distance/8/kilometer', cite)
def test_distances_digits(self): text = 'Today I ran 8 miles.' ds = list(get_distances(text)) self.assertEqual(1, len(ds)) ant = list(get_distance_annotations(text))[0] self.assertEqual((12, 20), ant.coords) cite = ant.get_cite() self.assertEqual('/en/distance/8.0/mile', cite)
def parse(self, text, text_unit_id, _text_unit_lang, **kwargs) -> ParseResults: found = list(distances.get_distances(text, return_sources=True)) if found: unique = set(found) return ParseResults({ DistanceUsage: [ DistanceUsage(text_unit_id=text_unit_id, amount=item[0], amount_str=item[2], distance_type=item[1], count=found.count(item)) for item in unique ] })