"""
Implementation of classes for API access via libraries.
"""
-from typing import Mapping, Optional, Any, AsyncIterator
+from typing import Mapping, Optional, Any, AsyncIterator, Dict, Sequence, List, Tuple
import asyncio
import contextlib
from pathlib import Path
import sqlalchemy as sa
import sqlalchemy.ext.asyncio as sa_asyncio
-import asyncpg
+from nominatim.errors import UsageError
+from nominatim.db.sqlalchemy_schema import SearchTables
+from nominatim.db.async_core_library import PGCORE_LIB, PGCORE_ERROR
from nominatim.config import Configuration
+from nominatim.api.connection import SearchConnection
from nominatim.api.status import get_status, StatusResult
+from nominatim.api.lookup import get_detailed_place, get_simple_place
+from nominatim.api.reverse import ReverseGeocoder
+from nominatim.api.search import ForwardGeocoder, Phrase, PhraseType, make_query_analyzer
+import nominatim.api.types as ntyp
+from nominatim.api.results import DetailedResult, ReverseResult, SearchResults
+
class NominatimAPIAsync:
""" API loader asynchornous version.
self._engine_lock = asyncio.Lock()
self._engine: Optional[sa_asyncio.AsyncEngine] = None
+ self._tables: Optional[SearchTables] = None
+ self._property_cache: Dict[str, Any] = {'DB:server_version': 0}
async def setup_database(self) -> None:
dsn = self.config.get_database_params()
+ query = {k: v for k, v in dsn.items()
+ if k not in ('user', 'password', 'dbname', 'host', 'port')}
+ if PGCORE_LIB == 'asyncpg':
+ query['prepared_statement_cache_size'] = '0'
+
dburl = sa.engine.URL.create(
- 'postgresql+asyncpg',
+ f'postgresql+{PGCORE_LIB}',
database=dsn.get('dbname'),
username=dsn.get('user'), password=dsn.get('password'),
host=dsn.get('host'), port=int(dsn['port']) if 'port' in dsn else None,
- query={k: v for k, v in dsn.items()
- if k not in ('user', 'password', 'dbname', 'host', 'port')})
- engine = sa_asyncio.create_async_engine(
- dburl, future=True,
- connect_args={'server_settings': {
- 'DateStyle': 'sql,european',
- 'max_parallel_workers_per_gather': '0'
- }})
+ query=query)
+ engine = sa_asyncio.create_async_engine(dburl, future=True)
try:
async with engine.begin() as conn:
result = await conn.scalar(sa.text('SHOW server_version_num'))
- self.server_version = int(result)
- except asyncpg.PostgresError:
- self.server_version = 0
+ server_version = int(result)
+ except (PGCORE_ERROR, sa.exc.OperationalError):
+ server_version = 0
- if self.server_version >= 110000:
- @sa.event.listens_for(engine.sync_engine, "connect") # type: ignore[misc]
+ if server_version >= 110000:
+ @sa.event.listens_for(engine.sync_engine, "connect")
def _on_connect(dbapi_con: Any, _: Any) -> None:
cursor = dbapi_con.cursor()
cursor.execute("SET jit_above_cost TO '-1'")
+ cursor.execute("SET max_parallel_workers_per_gather TO '0'")
# Make sure that all connections get the new settings
await self.close()
+ self._property_cache['DB:server_version'] = server_version
+
+ self._tables = SearchTables(sa.MetaData(), engine.name) # pylint: disable=no-member
self._engine = engine
@contextlib.asynccontextmanager
- async def begin(self) -> AsyncIterator[sa_asyncio.AsyncConnection]:
+ async def begin(self) -> AsyncIterator[SearchConnection]:
""" Create a new connection with automatic transaction handling.
This function may be used to get low-level access to the database.
await self.setup_database()
assert self._engine is not None
+ assert self._tables is not None
async with self._engine.begin() as conn:
- yield conn
+ yield SearchConnection(conn, self._tables, self._property_cache)
async def status(self) -> StatusResult:
try:
async with self.begin() as conn:
status = await get_status(conn)
- except asyncpg.PostgresError:
+ except (PGCORE_ERROR, sa.exc.OperationalError):
return StatusResult(700, 'Database connection failed')
return status
+ async def details(self, place: ntyp.PlaceRef, **params: Any) -> Optional[DetailedResult]:
+ """ Get detailed information about a place in the database.
+
+ Returns None if there is no entry under the given ID.
+ """
+ details = ntyp.LookupDetails.from_kwargs(params)
+ async with self.begin() as conn:
+ if details.keywords:
+ await make_query_analyzer(conn)
+ return await get_detailed_place(conn, place, details)
+
+
+ async def lookup(self, places: Sequence[ntyp.PlaceRef], **params: Any) -> SearchResults:
+ """ Get simple information about a list of places.
+
+ Returns a list of place information for all IDs that were found.
+ """
+ details = ntyp.LookupDetails.from_kwargs(params)
+ async with self.begin() as conn:
+ if details.keywords:
+ await make_query_analyzer(conn)
+ return SearchResults(filter(None,
+ [await get_simple_place(conn, p, details) for p in places]))
+
+
+ async def reverse(self, coord: ntyp.AnyPoint, **params: Any) -> Optional[ReverseResult]:
+ """ Find a place by its coordinates. Also known as reverse geocoding.
+
+ Returns the closest result that can be found or None if
+ no place matches the given criteria.
+ """
+ # The following negation handles NaN correctly. Don't change.
+ if not abs(coord[0]) <= 180 or not abs(coord[1]) <= 90:
+ # There are no results to be expected outside valid coordinates.
+ return None
+
+ details = ntyp.ReverseDetails.from_kwargs(params)
+ async with self.begin() as conn:
+ if details.keywords:
+ await make_query_analyzer(conn)
+ geocoder = ReverseGeocoder(conn, details)
+ return await geocoder.lookup(coord)
+
+
+ async def search(self, query: str, **params: Any) -> SearchResults:
+ """ Find a place by free-text search. Also known as forward geocoding.
+ """
+ query = query.strip()
+ if not query:
+ raise UsageError('Nothing to search for.')
+
+ async with self.begin() as conn:
+ geocoder = ForwardGeocoder(conn, ntyp.SearchDetails.from_kwargs(params))
+ phrases = [Phrase(PhraseType.NONE, p.strip()) for p in query.split(',')]
+ return await geocoder.lookup(phrases)
+
+
+ # pylint: disable=too-many-arguments,too-many-branches
+ async def search_address(self, amenity: Optional[str] = None,
+ street: Optional[str] = None,
+ city: Optional[str] = None,
+ county: Optional[str] = None,
+ state: Optional[str] = None,
+ country: Optional[str] = None,
+ postalcode: Optional[str] = None,
+ **params: Any) -> SearchResults:
+ """ Find an address using structured search.
+ """
+ async with self.begin() as conn:
+ details = ntyp.SearchDetails.from_kwargs(params)
+
+ phrases: List[Phrase] = []
+
+ if amenity:
+ phrases.append(Phrase(PhraseType.AMENITY, amenity))
+ if street:
+ phrases.append(Phrase(PhraseType.STREET, street))
+ if city:
+ phrases.append(Phrase(PhraseType.CITY, city))
+ if county:
+ phrases.append(Phrase(PhraseType.COUNTY, county))
+ if state:
+ phrases.append(Phrase(PhraseType.STATE, state))
+ if postalcode:
+ phrases.append(Phrase(PhraseType.POSTCODE, postalcode))
+ if country:
+ phrases.append(Phrase(PhraseType.COUNTRY, country))
+
+ if not phrases:
+ raise UsageError('Nothing to search for.')
+
+ if amenity or street:
+ details.restrict_min_max_rank(26, 30)
+ elif city:
+ details.restrict_min_max_rank(13, 25)
+ elif county:
+ details.restrict_min_max_rank(10, 12)
+ elif state:
+ details.restrict_min_max_rank(5, 9)
+ elif postalcode:
+ details.restrict_min_max_rank(5, 11)
+ else:
+ details.restrict_min_max_rank(4, 4)
+
+ if 'layers' not in params:
+ details.layers = ntyp.DataLayer.ADDRESS
+ if amenity:
+ details.layers |= ntyp.DataLayer.POI
+
+ geocoder = ForwardGeocoder(conn, details)
+ return await geocoder.lookup(phrases)
+
+
+ async def search_category(self, categories: List[Tuple[str, str]],
+ near_query: Optional[str] = None,
+ **params: Any) -> SearchResults:
+ """ Find an object of a certain category near another place.
+ The near place may either be given as an unstructured search
+ query in itself or as coordinates.
+ """
+ if not categories:
+ return SearchResults()
+
+ details = ntyp.SearchDetails.from_kwargs(params)
+ async with self.begin() as conn:
+ if near_query:
+ phrases = [Phrase(PhraseType.NONE, p) for p in near_query.split(',')]
+ else:
+ phrases = []
+ if details.keywords:
+ await make_query_analyzer(conn)
+
+ geocoder = ForwardGeocoder(conn, details)
+ return await geocoder.lookup_pois(categories, phrases)
+
+
+
class NominatimAPI:
""" API loader, synchronous version.
"""
self._loop.close()
+ @property
+ def config(self) -> Configuration:
+ """ Return the configuration used by the API.
+ """
+ return self._async_api.config
+
def status(self) -> StatusResult:
""" Return the status of the database.
"""
return self._loop.run_until_complete(self._async_api.status())
+
+
+ def details(self, place: ntyp.PlaceRef, **params: Any) -> Optional[DetailedResult]:
+ """ Get detailed information about a place in the database.
+ """
+ return self._loop.run_until_complete(self._async_api.details(place, **params))
+
+
+ def lookup(self, places: Sequence[ntyp.PlaceRef], **params: Any) -> SearchResults:
+ """ Get simple information about a list of places.
+
+ Returns a list of place information for all IDs that were found.
+ """
+ return self._loop.run_until_complete(self._async_api.lookup(places, **params))
+
+
+ def reverse(self, coord: ntyp.AnyPoint, **params: Any) -> Optional[ReverseResult]:
+ """ Find a place by its coordinates. Also known as reverse geocoding.
+
+ Returns the closest result that can be found or None if
+ no place matches the given criteria.
+ """
+ return self._loop.run_until_complete(self._async_api.reverse(coord, **params))
+
+
+ def search(self, query: str, **params: Any) -> SearchResults:
+ """ Find a place by free-text search. Also known as forward geocoding.
+ """
+ return self._loop.run_until_complete(
+ self._async_api.search(query, **params))
+
+
+ # pylint: disable=too-many-arguments
+ def search_address(self, amenity: Optional[str] = None,
+ street: Optional[str] = None,
+ city: Optional[str] = None,
+ county: Optional[str] = None,
+ state: Optional[str] = None,
+ country: Optional[str] = None,
+ postalcode: Optional[str] = None,
+ **params: Any) -> SearchResults:
+ """ Find an address using structured search.
+ """
+ return self._loop.run_until_complete(
+ self._async_api.search_address(amenity, street, city, county,
+ state, country, postalcode, **params))
+
+
+ def search_category(self, categories: List[Tuple[str, str]],
+ near_query: Optional[str] = None,
+ **params: Any) -> SearchResults:
+ """ Find an object of a certain category near another place.
+ The near place may either be given as an unstructured search
+ query in itself or as a geographic area through the
+ viewbox or near parameters.
+ """
+ return self._loop.run_until_complete(
+ self._async_api.search_category(categories, near_query, **params))