X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/a413aae8a3962be4d623844d867604df68a9a211..31412e06740727695c5d9512e0cd59c0dd683322:/test/python/api/search/test_api_search_query.py?ds=inline diff --git a/test/python/api/search/test_api_search_query.py b/test/python/api/search/test_api_search_query.py index f8c9c2dc..50980a45 100644 --- a/test/python/api/search/test_api_search_query.py +++ b/test/python/api/search/test_api_search_query.py @@ -2,14 +2,14 @@ # # This file is part of Nominatim. (https://nominatim.org) # -# Copyright (C) 2023 by the Nominatim developer community. +# Copyright (C) 2024 by the Nominatim developer community. # For a full list of authors see the git log. """ Tests for tokenized query data structures. """ import pytest -from nominatim.api.search import query +from nominatim_api.search import query class MyToken(query.Token): @@ -18,45 +18,46 @@ class MyToken(query.Token): def mktoken(tid: int): - return MyToken(3.0, tid, 1, 'foo', True) + return MyToken(penalty=3.0, token=tid, count=1, addr_count=1, + lookup_word='foo') -@pytest.mark.parametrize('ptype,ttype', [('NONE', 'WORD'), - ('AMENITY', 'QUALIFIER'), - ('STREET', 'PARTIAL'), - ('CITY', 'WORD'), - ('COUNTRY', 'COUNTRY'), - ('POSTCODE', 'POSTCODE')]) +@pytest.mark.parametrize('ptype,ttype', [('NONE', 'W'), + ('AMENITY', 'Q'), + ('STREET', 'w'), + ('CITY', 'W'), + ('COUNTRY', 'C'), + ('POSTCODE', 'P')]) def test_phrase_compatible(ptype, ttype): - assert query.PhraseType[ptype].compatible_with(query.TokenType[ttype]) + assert query.PhraseType[ptype].compatible_with(ttype, False) @pytest.mark.parametrize('ptype', ['COUNTRY', 'POSTCODE']) def test_phrase_incompatible(ptype): - assert not query.PhraseType[ptype].compatible_with(query.TokenType.PARTIAL) + assert not query.PhraseType[ptype].compatible_with(query.TOKEN_PARTIAL, True) def test_query_node_empty(): - qn = query.QueryNode(query.BreakType.PHRASE, query.PhraseType.NONE) + qn = query.QueryNode(query.BREAK_PHRASE, query.PhraseType.NONE) - assert not qn.has_tokens(3, query.TokenType.PARTIAL) - assert qn.get_tokens(3, query.TokenType.WORD) is None + assert not qn.has_tokens(3, query.TOKEN_PARTIAL) + assert qn.get_tokens(3, query.TOKEN_WORD) is None def test_query_node_with_content(): - qn = query.QueryNode(query.BreakType.PHRASE, query.PhraseType.NONE) - qn.starting.append(query.TokenList(2, query.TokenType.PARTIAL, [mktoken(100), mktoken(101)])) - qn.starting.append(query.TokenList(2, query.TokenType.WORD, [mktoken(1000)])) + qn = query.QueryNode(query.BREAK_PHRASE, query.PhraseType.NONE) + qn.starting.append(query.TokenList(2, query.TOKEN_PARTIAL, [mktoken(100), mktoken(101)])) + qn.starting.append(query.TokenList(2, query.TOKEN_WORD, [mktoken(1000)])) - assert not qn.has_tokens(3, query.TokenType.PARTIAL) - assert not qn.has_tokens(2, query.TokenType.COUNTRY) - assert qn.has_tokens(2, query.TokenType.PARTIAL) - assert qn.has_tokens(2, query.TokenType.WORD) + assert not qn.has_tokens(3, query.TOKEN_PARTIAL) + assert not qn.has_tokens(2, query.TOKEN_COUNTRY) + assert qn.has_tokens(2, query.TOKEN_PARTIAL) + assert qn.has_tokens(2, query.TOKEN_WORD) - assert qn.get_tokens(3, query.TokenType.PARTIAL) is None - assert qn.get_tokens(2, query.TokenType.COUNTRY) is None - assert len(qn.get_tokens(2, query.TokenType.PARTIAL)) == 2 - assert len(qn.get_tokens(2, query.TokenType.WORD)) == 1 + assert qn.get_tokens(3, query.TOKEN_PARTIAL) is None + assert qn.get_tokens(2, query.TOKEN_COUNTRY) is None + assert len(qn.get_tokens(2, query.TOKEN_PARTIAL)) == 2 + assert len(qn.get_tokens(2, query.TOKEN_WORD)) == 1 def test_query_struct_empty(): @@ -67,18 +68,18 @@ def test_query_struct_empty(): def test_query_struct_with_tokens(): q = query.QueryStruct([query.Phrase(query.PhraseType.NONE, 'foo bar')]) - q.add_node(query.BreakType.WORD, query.PhraseType.NONE) - q.add_node(query.BreakType.END, query.PhraseType.NONE) + q.add_node(query.BREAK_WORD, query.PhraseType.NONE) + q.add_node(query.BREAK_END, query.PhraseType.NONE) assert q.num_token_slots() == 2 - q.add_token(query.TokenRange(0, 1), query.TokenType.PARTIAL, mktoken(1)) - q.add_token(query.TokenRange(1, 2), query.TokenType.PARTIAL, mktoken(2)) - q.add_token(query.TokenRange(1, 2), query.TokenType.WORD, mktoken(99)) - q.add_token(query.TokenRange(1, 2), query.TokenType.WORD, mktoken(98)) + q.add_token(query.TokenRange(0, 1), query.TOKEN_PARTIAL, mktoken(1)) + q.add_token(query.TokenRange(1, 2), query.TOKEN_PARTIAL, mktoken(2)) + q.add_token(query.TokenRange(1, 2), query.TOKEN_WORD, mktoken(99)) + q.add_token(query.TokenRange(1, 2), query.TOKEN_WORD, mktoken(98)) - assert q.get_tokens(query.TokenRange(0, 2), query.TokenType.WORD) == [] - assert len(q.get_tokens(query.TokenRange(1, 2), query.TokenType.WORD)) == 2 + assert q.get_tokens(query.TokenRange(0, 2), query.TOKEN_WORD) == [] + assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_WORD)) == 2 partials = q.get_partials_list(query.TokenRange(0, 2)) @@ -91,11 +92,44 @@ def test_query_struct_with_tokens(): def test_query_struct_incompatible_token(): q = query.QueryStruct([query.Phrase(query.PhraseType.COUNTRY, 'foo bar')]) - q.add_node(query.BreakType.WORD, query.PhraseType.COUNTRY) - q.add_node(query.BreakType.END, query.PhraseType.NONE) + q.add_node(query.BREAK_WORD, query.PhraseType.COUNTRY) + q.add_node(query.BREAK_END, query.PhraseType.NONE) - q.add_token(query.TokenRange(0, 1), query.TokenType.PARTIAL, mktoken(1)) - q.add_token(query.TokenRange(1, 2), query.TokenType.COUNTRY, mktoken(100)) + q.add_token(query.TokenRange(0, 1), query.TOKEN_PARTIAL, mktoken(1)) + q.add_token(query.TokenRange(1, 2), query.TOKEN_COUNTRY, mktoken(100)) + + assert q.get_tokens(query.TokenRange(0, 1), query.TOKEN_PARTIAL) == [] + assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_COUNTRY)) == 1 + + +def test_query_struct_amenity_single_word(): + q = query.QueryStruct([query.Phrase(query.PhraseType.AMENITY, 'bar')]) + q.add_node(query.BREAK_END, query.PhraseType.NONE) + + q.add_token(query.TokenRange(0, 1), query.TOKEN_PARTIAL, mktoken(1)) + q.add_token(query.TokenRange(0, 1), query.TOKEN_NEAR_ITEM, mktoken(2)) + q.add_token(query.TokenRange(0, 1), query.TOKEN_QUALIFIER, mktoken(3)) + + assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_PARTIAL)) == 1 + assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_NEAR_ITEM)) == 1 + assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_QUALIFIER)) == 0 + + +def test_query_struct_amenity_two_words(): + q = query.QueryStruct([query.Phrase(query.PhraseType.AMENITY, 'foo bar')]) + q.add_node(query.BREAK_WORD, query.PhraseType.AMENITY) + q.add_node(query.BREAK_END, query.PhraseType.NONE) + + for trange in [(0, 1), (1, 2)]: + q.add_token(query.TokenRange(*trange), query.TOKEN_PARTIAL, mktoken(1)) + q.add_token(query.TokenRange(*trange), query.TOKEN_NEAR_ITEM, mktoken(2)) + q.add_token(query.TokenRange(*trange), query.TOKEN_QUALIFIER, mktoken(3)) + + assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_PARTIAL)) == 1 + assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_NEAR_ITEM)) == 0 + assert len(q.get_tokens(query.TokenRange(0, 1), query.TOKEN_QUALIFIER)) == 1 + + assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_PARTIAL)) == 1 + assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_NEAR_ITEM)) == 0 + assert len(q.get_tokens(query.TokenRange(1, 2), query.TOKEN_QUALIFIER)) == 1 - assert q.get_tokens(query.TokenRange(0, 1), query.TokenType.PARTIAL) == [] - assert len(q.get_tokens(query.TokenRange(1, 2), query.TokenType.COUNTRY)) == 1