# SPDX-License-Identifier: GPL-3.0-or-later # # This file is part of Nominatim. (https://nominatim.org) # # Copyright (C) 2025 by the Nominatim developer community. # For a full list of authors see the git log. """ Tests for query analyzer for ICU tokenizer. """ import pytest import pytest_asyncio from nominatim_api import NominatimAPIAsync from nominatim_api.search.query import Phrase import nominatim_api.search.query as qmod import nominatim_api.search.icu_tokenizer as tok from nominatim_api.logging import set_log_output, get_and_disable async def add_word(conn, word_id, word_token, wtype, word, info=None): t = conn.t.meta.tables['word'] await conn.execute(t.insert(), {'word_id': word_id, 'word_token': word_token, 'type': wtype, 'word': word, 'info': info}) def make_phrase(query): return [Phrase(qmod.PHRASE_ANY, s) for s in query.split(',')] @pytest_asyncio.fixture async def conn(table_factory): """ Create an asynchronous SQLAlchemy engine for the test DB. """ table_factory('nominatim_properties', definition='property TEXT, value TEXT', content=(('tokenizer_import_normalisation', ':: lower();'), ('tokenizer_import_transliteration', "'1' > '/1/'; 'ä' > 'ä '"))) table_factory('word', definition='word_id INT, word_token TEXT, type TEXT, word TEXT, info JSONB') async with NominatimAPIAsync() as api: async with api.begin() as conn: yield conn @pytest.mark.asyncio async def test_empty_phrase(conn): ana = await tok.create_query_analyzer(conn) query = await ana.analyze_query([]) assert len(query.source) == 0 assert query.num_token_slots() == 0 @pytest.mark.asyncio async def test_single_phrase_with_unknown_terms(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'foo', 'w', 'FOO') query = await ana.analyze_query(make_phrase('foo BAR')) assert len(query.source) == 1 assert query.source[0].ptype == qmod.PHRASE_ANY assert query.source[0].text == 'foo bar' assert query.num_token_slots() == 2 assert query.nodes[0].partial.token == 1 assert query.nodes[1].partial is None @pytest.mark.asyncio async def test_multiple_phrases(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'one', 'w', 'one') await add_word(conn, 2, 'two', 'w', 'two') await add_word(conn, 100, 'one two', 'W', 'one two') await add_word(conn, 3, 'three', 'w', 'three') query = await ana.analyze_query(make_phrase('one two,three')) assert len(query.source) == 2 @pytest.mark.asyncio async def test_splitting_in_transliteration(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'mä', 'W', 'ma') await add_word(conn, 2, 'fo', 'W', 'fo') query = await ana.analyze_query(make_phrase('mäfo')) assert query.num_token_slots() == 2 assert query.nodes[0].starting assert query.nodes[1].starting assert query.nodes[1].btype == qmod.BREAK_TOKEN @pytest.mark.asyncio @pytest.mark.parametrize('term,order', [('23456', ['P', 'H', 'W']), ('3', ['H', 'W'])]) async def test_penalty_postcodes_and_housenumbers(conn, term, order): ana = await tok.create_query_analyzer(conn) await add_word(conn, 2, term, 'H', term) await add_word(conn, 3, term, 'w', term) await add_word(conn, 4, term, 'W', term) query = await ana.analyze_query(make_phrase(term)) assert query.num_token_slots() == 1 torder = [(min(t.penalty for t in tl.tokens), tl.ttype) for tl in query.nodes[0].starting] torder.sort() print(torder) assert [t[1] for t in torder] == order @pytest.mark.asyncio async def test_category_words_only_at_beginning(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'foo', 'S', 'FOO', {'op': 'in'}) await add_word(conn, 2, 'bar', 'w', 'BAR') query = await ana.analyze_query(make_phrase('foo BAR foo')) assert query.num_token_slots() == 3 assert len(query.nodes[0].starting) == 1 assert query.nodes[0].starting[0].ttype == qmod.TOKEN_NEAR_ITEM assert not query.nodes[2].starting @pytest.mark.asyncio async def test_freestanding_qualifier_words_become_category(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'foo', 'S', 'FOO', {'op': '-'}) query = await ana.analyze_query(make_phrase('foo')) assert query.num_token_slots() == 1 assert len(query.nodes[0].starting) == 1 assert query.nodes[0].starting[0].ttype == qmod.TOKEN_NEAR_ITEM @pytest.mark.asyncio async def test_qualifier_words(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'foo', 'S', None, {'op': '-'}) await add_word(conn, 2, 'bar', 'w', None) query = await ana.analyze_query(make_phrase('foo BAR foo BAR foo')) assert query.num_token_slots() == 5 assert set(t.ttype for t in query.nodes[0].starting) == {qmod.TOKEN_QUALIFIER} assert set(t.ttype for t in query.nodes[2].starting) == {qmod.TOKEN_QUALIFIER} assert set(t.ttype for t in query.nodes[4].starting) == {qmod.TOKEN_QUALIFIER} @pytest.mark.asyncio async def test_add_unknown_housenumbers(conn): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, '23', 'H', '23') query = await ana.analyze_query(make_phrase('466 23 99834 34a')) assert query.num_token_slots() == 4 assert query.nodes[0].starting[0].ttype == qmod.TOKEN_HOUSENUMBER assert len(query.nodes[0].starting[0].tokens) == 1 assert query.nodes[0].starting[0].tokens[0].token == 0 assert query.nodes[1].starting[0].ttype == qmod.TOKEN_HOUSENUMBER assert len(query.nodes[1].starting[0].tokens) == 1 assert query.nodes[1].starting[0].tokens[0].token == 1 assert query.nodes[2].has_tokens(3, qmod.TOKEN_POSTCODE) assert not query.nodes[2].has_tokens(3, qmod.TOKEN_HOUSENUMBER) assert not query.nodes[2].has_tokens(4, qmod.TOKEN_HOUSENUMBER) assert not query.nodes[3].has_tokens(4, qmod.TOKEN_HOUSENUMBER) @pytest.mark.asyncio @pytest.mark.parametrize('logtype', ['text', 'html']) async def test_log_output(conn, logtype): ana = await tok.create_query_analyzer(conn) await add_word(conn, 1, 'foo', 'w', 'FOO') set_log_output(logtype) await ana.analyze_query(make_phrase('foo')) assert get_and_disable()