def test_read_asjp(): lex = LexStat(read_asjp( test_data('asjp_test_list.csv'), family="CELTIC", classification="wls_gen")) assert len(lex) == 249 evaluate = lambda x,y,z: x[y[1]].startswith(z) lex = LexStat(read_asjp( test_data('asjp_test_list.csv'), family='GERMANIC', classification='wls_fam,wls_gen', evaluate=evaluate)) assert len(lex) == 1429 # check if loans have been traced and if at least one word is represented # as expected entry = lex.get_dict(doculect="YIDDISH_EASTERN") idx = entry['person'][0] assert lex[idx,'known_borrowings'] == 1 assert lex[idx,'counterpart'] == "pErzon"
def test_read_asjp(): lex = LexStat( read_asjp(test_data('asjp_test_list.csv'), family="CELTIC", classification="wls_gen")) assert len(lex) == 249 evaluate = lambda x, y, z: x[y[1]].startswith(z) lex = LexStat( read_asjp(test_data('asjp_test_list.csv'), family='GERMANIC', classification='wls_fam,wls_gen', evaluate=evaluate)) assert len(lex) == 1429 # check if loans have been traced and if at least one word is represented # as expected entry = lex.get_dict(doculect="YIDDISH_EASTERN") idx = entry['person'][0] assert lex[idx, 'known_borrowings'] == 1 assert lex[idx, 'counterpart'] == "pErzon"
def test_read_asjp(): lex = LexStat( read_asjp(test_data('asjp_test_list.csv'), family="CELTIC", classification="wls_gen")) assert len(lex) == 249
def test_read_asjp(): lex = LexStat(read_asjp( test_data('asjp_test_list.csv'), family="CELTIC", classification="wls_gen")) assert len(lex) == 249