]> git.openstreetmap.org Git - nominatim.git/blobdiff - test/python/api/conftest.py
Merge pull request #3492 from lonvia/drop-waste-disposal
[nominatim.git] / test / python / api / conftest.py
index 4c2e0cc03fb24658dec14a5940d58018134d8b64..a902e2640a7996a5cedbbd3765cb25f593e0f3a3 100644 (file)
@@ -1,8 +1,8 @@
-# SPDX-License-Identifier: GPL-2.0-only
+# SPDX-License-Identifier: GPL-3.0-or-later
 #
 # This file is part of Nominatim. (https://nominatim.org)
 #
-# Copyright (C) 2022 by the Nominatim developer community.
+# Copyright (C) 2024 by the Nominatim developer community.
 # For a full list of authors see the git log.
 """
 Helper fixtures for API call tests.
@@ -10,13 +10,237 @@ Helper fixtures for API call tests.
 from pathlib import Path
 import pytest
 import time
+import datetime as dt
+
+import sqlalchemy as sa
+
+import nominatim_api as napi
+from nominatim_db.db.sql_preprocessor import SQLPreprocessor
+from nominatim_api.search.query_analyzer_factory import make_query_analyzer
+from nominatim_db.tools import convert_sqlite
+import nominatim_api.logging as loglib
+
+class APITester:
+
+    def __init__(self):
+        self.api = napi.NominatimAPI(Path('/invalid'))
+        self.async_to_sync(self.api._async_api.setup_database())
+
+
+    def async_to_sync(self, func):
+        """ Run an asynchronous function until completion using the
+            internal loop of the API.
+        """
+        return self.api._loop.run_until_complete(func)
+
+
+    def add_data(self, table, data):
+        """ Insert data into the given table.
+        """
+        sql = getattr(self.api._async_api._tables, table).insert()
+        self.async_to_sync(self.exec_async(sql, data))
+
+
+    def add_placex(self, **kw):
+        name = kw.get('name')
+        if isinstance(name, str):
+            name = {'name': name}
+
+        centroid = kw.get('centroid', (23.0, 34.0))
+        geometry = kw.get('geometry', 'POINT(%f %f)' % centroid)
+
+        self.add_data('placex',
+                     {'place_id': kw.get('place_id', 1000),
+                      'osm_type': kw.get('osm_type', 'W'),
+                      'osm_id': kw.get('osm_id', 4),
+                      'class_': kw.get('class_', 'highway'),
+                      'type': kw.get('type', 'residential'),
+                      'name': name,
+                      'address': kw.get('address'),
+                      'extratags': kw.get('extratags'),
+                      'parent_place_id': kw.get('parent_place_id'),
+                      'linked_place_id': kw.get('linked_place_id'),
+                      'admin_level': kw.get('admin_level', 15),
+                      'country_code': kw.get('country_code'),
+                      'housenumber': kw.get('housenumber'),
+                      'postcode': kw.get('postcode'),
+                      'wikipedia': kw.get('wikipedia'),
+                      'rank_search': kw.get('rank_search', 30),
+                      'rank_address': kw.get('rank_address', 30),
+                      'importance': kw.get('importance'),
+                      'centroid': 'POINT(%f %f)' % centroid,
+                      'indexed_status': kw.get('indexed_status', 0),
+                      'indexed_date': kw.get('indexed_date',
+                                             dt.datetime(2022, 12, 7, 14, 14, 46, 0)),
+                      'geometry': geometry})
+
+
+    def add_address_placex(self, object_id, **kw):
+        self.add_placex(**kw)
+        self.add_data('addressline',
+                      {'place_id': object_id,
+                       'address_place_id': kw.get('place_id', 1000),
+                       'distance': kw.get('distance', 0.0),
+                       'cached_rank_address': kw.get('rank_address', 30),
+                       'fromarea': kw.get('fromarea', False),
+                       'isaddress': kw.get('isaddress', True)})
+
+
+    def add_osmline(self, **kw):
+        self.add_data('osmline',
+                     {'place_id': kw.get('place_id', 10000),
+                      'osm_id': kw.get('osm_id', 4004),
+                      'parent_place_id': kw.get('parent_place_id'),
+                      'indexed_date': kw.get('indexed_date',
+                                             dt.datetime(2022, 12, 7, 14, 14, 46, 0)),
+                      'startnumber': kw.get('startnumber', 2),
+                      'endnumber': kw.get('endnumber', 6),
+                      'step': kw.get('step', 2),
+                      'address': kw.get('address'),
+                      'postcode': kw.get('postcode'),
+                      'country_code': kw.get('country_code'),
+                      'linegeo': kw.get('geometry', 'LINESTRING(1.1 -0.2, 1.09 -0.22)')})
+
+
+    def add_tiger(self, **kw):
+        self.add_data('tiger',
+                     {'place_id': kw.get('place_id', 30000),
+                      'parent_place_id': kw.get('parent_place_id'),
+                      'startnumber': kw.get('startnumber', 2),
+                      'endnumber': kw.get('endnumber', 6),
+                      'step': kw.get('step', 2),
+                      'postcode': kw.get('postcode'),
+                      'linegeo': kw.get('geometry', 'LINESTRING(1.1 -0.2, 1.09 -0.22)')})
+
+
+    def add_postcode(self, **kw):
+        self.add_data('postcode',
+                     {'place_id': kw.get('place_id', 1000),
+                      'parent_place_id': kw.get('parent_place_id'),
+                      'country_code': kw.get('country_code'),
+                      'postcode': kw.get('postcode'),
+                      'rank_search': kw.get('rank_search', 20),
+                      'rank_address': kw.get('rank_address', 22),
+                      'indexed_date': kw.get('indexed_date',
+                                             dt.datetime(2022, 12, 7, 14, 14, 46, 0)),
+                      'geometry': kw.get('geometry', 'POINT(23 34)')})
+
+
+    def add_country(self, country_code, geometry):
+        self.add_data('country_grid',
+                      {'country_code': country_code,
+                       'area': 0.1,
+                       'geometry': geometry})
+
+
+    def add_country_name(self, country_code, names, partition=0):
+        self.add_data('country_name',
+                      {'country_code': country_code,
+                       'name': names,
+                       'partition': partition})
+
+
+    def add_search_name(self, place_id, **kw):
+        centroid = kw.get('centroid', (23.0, 34.0))
+        self.add_data('search_name',
+                      {'place_id': place_id,
+                       'importance': kw.get('importance', 0.00001),
+                       'search_rank': kw.get('search_rank', 30),
+                       'address_rank': kw.get('address_rank', 30),
+                       'name_vector': kw.get('names', []),
+                       'nameaddress_vector': kw.get('address', []),
+                       'country_code': kw.get('country_code', 'xx'),
+                       'centroid': 'POINT(%f %f)' % centroid})
+
+
+    def add_class_type_table(self, cls, typ):
+        self.async_to_sync(
+            self.exec_async(sa.text(f"""CREATE TABLE place_classtype_{cls}_{typ}
+                                         AS (SELECT place_id, centroid FROM placex
+                                             WHERE class = '{cls}' AND type = '{typ}')
+                                     """)))
+
+
+    def add_word_table(self, content):
+        data = [dict(zip(['word_id', 'word_token', 'type', 'word', 'info'], c))
+                for c in content]
+
+        async def _do_sql():
+            async with self.api._async_api.begin() as conn:
+                if 'word' not in conn.t.meta.tables:
+                    await make_query_analyzer(conn)
+                    word_table = conn.t.meta.tables['word']
+                    await conn.connection.run_sync(word_table.create)
+                if data:
+                    await conn.execute(conn.t.meta.tables['word'].insert(), data)
+
+        self.async_to_sync(_do_sql())
+
+
+    async def exec_async(self, sql, *args, **kwargs):
+        async with self.api._async_api.begin() as conn:
+            return await conn.execute(sql, *args, **kwargs)
+
+
+    async def create_tables(self):
+        async with self.api._async_api._engine.begin() as conn:
+            await conn.run_sync(self.api._async_api._tables.meta.create_all)
 
-from nominatim.api import NominatimAPI
 
 @pytest.fixture
-def apiobj(temp_db):
+def apiobj(temp_db_with_extensions, temp_db_conn, monkeypatch):
     """ Create an asynchronous SQLAlchemy engine for the test DB.
     """
-    api = NominatimAPI(Path('/invalid'), {})
-    yield api
-    api.close()
+    monkeypatch.setenv('NOMINATIM_USE_US_TIGER_DATA', 'yes')
+    testapi = APITester()
+    testapi.async_to_sync(testapi.create_tables())
+
+    proc = SQLPreprocessor(temp_db_conn, testapi.api.config)
+    proc.run_sql_file(temp_db_conn, 'functions/ranking.sql')
+
+    loglib.set_log_output('text')
+    yield testapi
+    print(loglib.get_and_disable())
+
+    testapi.api.close()
+
+
+@pytest.fixture(params=['postgres_db', 'sqlite_db'])
+def frontend(request, event_loop, tmp_path):
+    testapis = []
+    if request.param == 'sqlite_db':
+        db = str(tmp_path / 'test_nominatim_python_unittest.sqlite')
+
+        def mkapi(apiobj, options={'reverse'}):
+            apiobj.add_data('properties',
+                        [{'property': 'tokenizer', 'value': 'icu'},
+                         {'property': 'tokenizer_import_normalisation', 'value': ':: lower();'},
+                         {'property': 'tokenizer_import_transliteration', 'value': "'1' > '/1/'; 'ä' > 'ä '"},
+                        ])
+
+            async def _do_sql():
+                async with apiobj.api._async_api.begin() as conn:
+                    if 'word' in conn.t.meta.tables:
+                        return
+                    await make_query_analyzer(conn)
+                    word_table = conn.t.meta.tables['word']
+                    await conn.connection.run_sync(word_table.create)
+
+            apiobj.async_to_sync(_do_sql())
+
+            event_loop.run_until_complete(convert_sqlite.convert(Path('/invalid'),
+                                                                 db, options))
+            outapi = napi.NominatimAPI(Path('/invalid'),
+                                       {'NOMINATIM_DATABASE_DSN': f"sqlite:dbname={db}",
+                                        'NOMINATIM_USE_US_TIGER_DATA': 'yes'})
+            testapis.append(outapi)
+
+            return outapi
+    elif request.param == 'postgres_db':
+        def mkapi(apiobj, options=None):
+            return apiobj.api
+
+    yield mkapi
+
+    for api in testapis:
+        api.close()