X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/c8958a22d297afc2501619fe8d393cc186e1a79a..95d4061b2aa67d7fd3d29099cc1cfd9f2b4022c8:/test/python/tokenizer/test_legacy.py diff --git a/test/python/tokenizer/test_legacy.py b/test/python/tokenizer/test_legacy.py index f90fc494..57a82b8a 100644 --- a/test/python/tokenizer/test_legacy.py +++ b/test/python/tokenizer/test_legacy.py @@ -1,28 +1,58 @@ +# SPDX-License-Identifier: GPL-2.0-only +# +# This file is part of Nominatim. (https://nominatim.org) +# +# Copyright (C) 2022 by the Nominatim developer community. +# For a full list of authors see the git log. """ Test for legacy tokenizer. """ import shutil +import re import pytest -from nominatim.indexer.place_info import PlaceInfo +from nominatim.data.place_info import PlaceInfo from nominatim.tokenizer import legacy_tokenizer from nominatim.db import properties from nominatim.errors import UsageError +from mock_legacy_word_table import MockLegacyWordTable + +# Force use of legacy word table +@pytest.fixture +def word_table(temp_db_conn): + return MockLegacyWordTable(temp_db_conn) + + @pytest.fixture def test_config(project_env, tmp_path): module_dir = tmp_path / 'module_src' module_dir.mkdir() - (module_dir / 'nominatim.so').write_text('TEST nomiantim.so') + (module_dir / 'nominatim.so').write_text('TEST nominatim.so') project_env.lib_dir.module = module_dir sqldir = tmp_path / 'sql' sqldir.mkdir() (sqldir / 'tokenizer').mkdir() - (sqldir / 'tokenizer' / 'legacy_tokenizer.sql').write_text("SELECT 'a'") + + # Get the original SQL but replace make_standard_name to avoid module use. + init_sql = (project_env.lib_dir.sql / 'tokenizer' / 'legacy_tokenizer.sql').read_text() + for fn in ('transliteration', 'gettokenstring'): + init_sql = re.sub(f'CREATE OR REPLACE FUNCTION {fn}[^;]*;', + '', init_sql, re.DOTALL) + init_sql += """ + CREATE OR REPLACE FUNCTION make_standard_name(name TEXT) + RETURNS TEXT AS $$ SELECT lower(name); $$ LANGUAGE SQL; + + """ + # Also load util functions. Some are needed by the tokenizer. + init_sql += (project_env.lib_dir.sql / 'functions' / 'utils.sql').read_text() + (sqldir / 'tokenizer' / 'legacy_tokenizer.sql').write_text(init_sql) + (sqldir / 'words.sql').write_text("SELECT 'a'") + shutil.copy(str(project_env.lib_dir.sql / 'tokenizer' / 'legacy_tokenizer_tables.sql'), str(sqldir / 'tokenizer' / 'legacy_tokenizer_tables.sql')) @@ -52,12 +82,6 @@ def tokenizer_setup(tokenizer_factory, test_config, monkeypatch, sql_preprocesso @pytest.fixture def analyzer(tokenizer_factory, test_config, monkeypatch, sql_preprocessor, word_table, temp_db_with_extensions, tmp_path): - sql = tmp_path / 'sql' / 'tokenizer' / 'legacy_tokenizer.sql' - sql.write_text(""" - CREATE OR REPLACE FUNCTION getorcreate_housenumber_id(lookup_word TEXT) - RETURNS INTEGER AS $$ SELECT 342; $$ LANGUAGE SQL; - """) - monkeypatch.setattr(legacy_tokenizer, '_check_module', lambda m, c: None) monkeypatch.setenv('NOMINATIM_TERM_NORMALIZATION', ':: lower();') tok = tokenizer_factory() @@ -84,12 +108,6 @@ def create_postcode_id(temp_db_cursor): $$ LANGUAGE SQL""") -@pytest.fixture -def make_keywords(temp_db_cursor, temp_db_with_extensions): - temp_db_cursor.execute( - """CREATE OR REPLACE FUNCTION make_keywords(names HSTORE) - RETURNS INTEGER[] AS $$ SELECT ARRAY[1, 2, 3] $$ LANGUAGE SQL""") - def test_init_new(tokenizer_factory, test_config, monkeypatch, temp_db_conn, sql_preprocessor): monkeypatch.setenv('NOMINATIM_TERM_NORMALIZATION', 'xxvv') @@ -103,7 +121,7 @@ def test_init_new(tokenizer_factory, test_config, monkeypatch, outfile = test_config.project_dir / 'module' / 'nominatim.so' assert outfile.exists() - assert outfile.read_text() == 'TEST nomiantim.so' + assert outfile.read_text() == 'TEST nominatim.so' assert outfile.stat().st_mode == 33261 @@ -160,6 +178,23 @@ def test_update_sql_functions(sql_preprocessor, temp_db_conn, assert test_content == set((('1133', ), (str(test_config.project_dir / 'module'), ))) +def test_finalize_import(tokenizer_factory, temp_db_conn, + temp_db_cursor, test_config, monkeypatch, + sql_preprocessor_cfg): + monkeypatch.setattr(legacy_tokenizer, '_check_module', lambda m, c: None) + + func_file = test_config.lib_dir.sql / 'tokenizer' / 'legacy_tokenizer_indices.sql' + func_file.write_text("""CREATE FUNCTION test() RETURNS TEXT + AS $$ SELECT 'b'::text $$ LANGUAGE SQL""") + + tok = tokenizer_factory() + tok.init_new_db(test_config) + + tok.finalize_import(test_config) + + temp_db_cursor.scalar('SELECT test()') == 'b' + + def test_migrate_database(tokenizer_factory, test_config, temp_db_conn, monkeypatch): monkeypatch.setattr(legacy_tokenizer, '_check_module', lambda m, c: None) tok = tokenizer_factory() @@ -171,10 +206,64 @@ def test_migrate_database(tokenizer_factory, test_config, temp_db_conn, monkeypa outfile = test_config.project_dir / 'module' / 'nominatim.so' assert outfile.exists() - assert outfile.read_text() == 'TEST nomiantim.so' + assert outfile.read_text() == 'TEST nominatim.so' assert outfile.stat().st_mode == 33261 +def test_check_database(test_config, tokenizer_factory, monkeypatch, + temp_db_cursor, sql_preprocessor_cfg): + monkeypatch.setattr(legacy_tokenizer, '_check_module', lambda m, c: None) + tok = tokenizer_factory() + tok.init_new_db(test_config) + + assert tok.check_database(False) is None + + +def test_check_database_no_tokenizer(test_config, tokenizer_factory): + tok = tokenizer_factory() + + assert tok.check_database(False) is not None + + +def test_check_database_bad_setup(test_config, tokenizer_factory, monkeypatch, + temp_db_cursor, sql_preprocessor_cfg): + monkeypatch.setattr(legacy_tokenizer, '_check_module', lambda m, c: None) + tok = tokenizer_factory() + tok.init_new_db(test_config) + + # Inject a bad transliteration. + temp_db_cursor.execute("""CREATE OR REPLACE FUNCTION make_standard_name(name TEXT) + RETURNS TEXT AS $$ SELECT 'garbage'::text; $$ LANGUAGE SQL""") + + assert tok.check_database(False) is not None + + +def test_update_statistics_reverse_only(word_table, tokenizer_factory): + tok = tokenizer_factory() + tok.update_statistics() + + +def test_update_statistics(word_table, table_factory, temp_db_cursor, tokenizer_factory): + word_table.add_full_word(1000, 'hello') + table_factory('search_name', + 'place_id BIGINT, name_vector INT[]', + [(12, [1000])]) + tok = tokenizer_factory() + + tok.update_statistics() + + assert temp_db_cursor.scalar("""SELECT count(*) FROM word + WHERE word_token like ' %' and + search_name_count > 0""") > 0 + + +def test_update_word_tokens(tokenizer_factory): + tok = tokenizer_factory() + + # This is a noop and should just pass. + tok.update_word_tokens() + + def test_normalize(analyzer): assert analyzer.normalize('TEsT') == 'test' @@ -186,7 +275,6 @@ def test_update_postcodes_from_db_empty(analyzer, table_factory, word_table, analyzer.update_postcodes_from_db() - assert word_table.count() == 3 assert word_table.get_postcodes() == {'1234', '12 34', 'AB23'} @@ -199,7 +287,6 @@ def test_update_postcodes_from_db_add_and_remove(analyzer, table_factory, word_t analyzer.update_postcodes_from_db() - assert word_table.count() == 3 assert word_table.get_postcodes() == {'1234', '45BC', 'XX45'} @@ -281,12 +368,6 @@ def test_add_more_country_names(analyzer, word_table, make_standard_name): ('it', ' #it#')} -def test_process_place_names(analyzer, make_keywords): - info = analyzer.process_place(PlaceInfo({'name' : {'name' : 'Soft bAr', 'ref': '34'}})) - - assert info['names'] == '{1,2,3}' - - @pytest.mark.parametrize('pcode', ['12345', 'AB 123', '34-345']) def test_process_place_postcode(analyzer, create_postcode_id, word_table, pcode): analyzer.process_place(PlaceInfo({'address': {'postcode' : pcode}})) @@ -337,3 +418,174 @@ class TestHousenumberName: 'streetnumber' : '99a'}})) assert set(info['hnr'].split(';')) == set(('134', '99a')) + + +class TestPlaceNames: + + @pytest.fixture(autouse=True) + def setup(self, analyzer): + self.analyzer = analyzer + + + def expect_name_terms(self, info, *expected_terms): + tokens = self.analyzer.get_word_token_info(list(expected_terms)) + for token in tokens: + assert token[2] is not None, "No token for {0}".format(token) + + assert eval(info['names']) == set((t[2] for t in tokens)),\ + f"Expected: {tokens}\nGot: {info['names']}" + + + def process_named_place(self, names): + return self.analyzer.process_place(PlaceInfo({'name': names})) + + + def test_simple_names(self): + info = self.process_named_place({'name': 'Soft bAr', 'ref': '34'}) + + self.expect_name_terms(info, '#Soft bAr', '#34', 'Soft', 'bAr', '34') + + + @pytest.mark.parametrize('sep', [',' , ';']) + def test_names_with_separator(self, sep): + info = self.process_named_place({'name': sep.join(('New York', 'Big Apple'))}) + + self.expect_name_terms(info, '#New York', '#Big Apple', + 'new', 'york', 'big', 'apple') + + + def test_full_names_with_bracket(self): + info = self.process_named_place({'name': 'Houseboat (left)'}) + + self.expect_name_terms(info, '#Houseboat (left)', '#Houseboat', + 'houseboat', '(left)') + + + def test_country_name(self, word_table): + place = PlaceInfo({'name' : {'name': 'Norge'}, + 'country_code': 'no', + 'rank_address': 4, + 'class': 'boundary', + 'type': 'administrative'}) + + info = self.analyzer.process_place(place) + + self.expect_name_terms(info, '#norge', 'norge') + assert word_table.get_country() == {('no', ' norge')} + + +class TestPlaceAddress: + + @pytest.fixture(autouse=True) + def setup(self, analyzer): + self.analyzer = analyzer + + + @pytest.fixture + def getorcreate_hnr_id(self, temp_db_cursor): + temp_db_cursor.execute("""CREATE SEQUENCE seq_hnr start 1; + CREATE OR REPLACE FUNCTION getorcreate_housenumber_id(lookup_word TEXT) + RETURNS INTEGER AS $$ + SELECT -nextval('seq_hnr')::INTEGER; $$ LANGUAGE SQL""") + + def process_address(self, **kwargs): + return self.analyzer.process_place(PlaceInfo({'address': kwargs})) + + + def name_token_set(self, *expected_terms): + tokens = self.analyzer.get_word_token_info(list(expected_terms)) + for token in tokens: + assert token[2] is not None, "No token for {0}".format(token) + + return set((t[2] for t in tokens)) + + + @pytest.mark.parametrize('pcode', ['12345', 'AB 123', '34-345']) + def test_process_place_postcode(self, word_table, pcode): + self.process_address(postcode=pcode) + + assert word_table.get_postcodes() == {pcode, } + + + @pytest.mark.parametrize('pcode', ['12:23', 'ab;cd;f', '123;836']) + def test_process_place_bad_postcode(self, word_table, pcode): + self.process_address(postcode=pcode) + + assert not word_table.get_postcodes() + + + @pytest.mark.parametrize('hnr', ['123a', '0', '101']) + def test_process_place_housenumbers_simple(self, hnr, getorcreate_hnr_id): + info = self.process_address(housenumber=hnr) + + assert info['hnr'] == hnr.lower() + assert info['hnr_tokens'] == "{-1}" + + + def test_process_place_housenumbers_lists(self, getorcreate_hnr_id): + info = self.process_address(conscriptionnumber='1; 2;3') + + assert set(info['hnr'].split(';')) == set(('1', '2', '3')) + assert info['hnr_tokens'] == "{-1,-2,-3}" + + + def test_process_place_housenumbers_duplicates(self, getorcreate_hnr_id): + info = self.process_address(housenumber='134', + conscriptionnumber='134', + streetnumber='99A') + + assert set(info['hnr'].split(';')) == set(('134', '99a')) + assert info['hnr_tokens'] == "{-1,-2}" + + + def test_process_place_street(self): + # legacy tokenizer only indexes known names + self.analyzer.process_place(PlaceInfo({'name': {'name' : 'Grand Road'}})) + info = self.process_address(street='Grand Road') + + assert eval(info['street']) == self.name_token_set('#Grand Road') + + + def test_process_place_street_empty(self): + info = self.process_address(street='🜵') + + assert 'street' not in info + + + def test_process_place_place(self): + self.analyzer.process_place(PlaceInfo({'name': {'name' : 'Honu Lulu'}})) + info = self.process_address(place='Honu Lulu') + + assert eval(info['place_search']) == self.name_token_set('#Honu Lulu', + 'Honu', 'Lulu') + assert eval(info['place_match']) == self.name_token_set('#Honu Lulu') + + + def test_process_place_place_empty(self): + info = self.process_address(place='🜵') + + assert 'place' not in info + + + def test_process_place_address_terms(self): + for name in ('Zwickau', 'Haupstraße', 'Sachsen'): + self.analyzer.process_place(PlaceInfo({'name': {'name' : name}})) + info = self.process_address(country='de', city='Zwickau', state='Sachsen', + suburb='Zwickau', street='Hauptstr', + full='right behind the church') + + city = self.name_token_set('ZWICKAU') + state = self.name_token_set('SACHSEN') + + print(info) + result = {k: eval(v[0]) for k,v in info['addr'].items()} + + assert result == {'city': city, 'suburb': city, 'state': state} + + + def test_process_place_address_terms_empty(self): + info = self.process_address(country='de', city=' ', street='Hauptstr', + full='right behind the church') + + assert 'addr' not in info +