X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/0d338fa4c06f922f30fae30af3062da57af69d53..a7a920a9a5b55bf4290b184f05898a8589c95b40:/nominatim/api/v1/helpers.py diff --git a/nominatim/api/v1/helpers.py b/nominatim/api/v1/helpers.py index 325e5bc6..ffd06a6a 100644 --- a/nominatim/api/v1/helpers.py +++ b/nominatim/api/v1/helpers.py @@ -37,7 +37,7 @@ def zoom_to_rank(zoom: int) -> int: return REVERSE_MAX_RANKS[max(0, min(18, zoom))] -FEATURE_TYPE_TO_RANK: Dict[Optional[str], Any] = { +FEATURE_TYPE_TO_RANK: Dict[Optional[str], Tuple[int, int]] = { 'country': (4, 4), 'state': (8, 8), 'city': (14, 16), @@ -108,15 +108,18 @@ def deduplicate_results(results: SearchResults, max_results: int) -> SearchResul assert result.names and 'ref' in result.names if any(_is_postcode_relation_for(r, result.names['ref']) for r in results): continue - classification = (result.osm_object[0] if result.osm_object else None, - result.category, - result.display_name, - result.rank_address) - if result.osm_object not in osm_ids_done \ - and classification not in classification_done: + if result.source_table == SourceTable.PLACEX: + classification = (result.osm_object[0] if result.osm_object else None, + result.category, + result.display_name, + result.rank_address) + if result.osm_object not in osm_ids_done \ + and classification not in classification_done: + deduped.append(result) + osm_ids_done.add(result.osm_object) + classification_done.add(classification) + else: deduped.append(result) - osm_ids_done.add(result.osm_object) - classification_done.add(classification) if len(deduped) >= max_results: break @@ -136,10 +139,10 @@ def _deg(axis:str) -> str: return f"(?P<{axis}_deg>\\d+\\.\\d+)°?" def _deg_min(axis: str) -> str: - return f"(?P<{axis}_deg>\\d+)[°\\s]+(?P<{axis}_min>[\\d.]+)?[′']*" + return f"(?P<{axis}_deg>\\d+)[°\\s]+(?P<{axis}_min>[\\d.]+)[′']*" def _deg_min_sec(axis: str) -> str: - return f"(?P<{axis}_deg>\\d+)[°\\s]+(?P<{axis}_min>\\d+)[′'\\s]+(?P<{axis}_sec>[\\d.]+)?[\"″]*" + return f"(?P<{axis}_deg>\\d+)[°\\s]+(?P<{axis}_min>\\d+)[′'\\s]+(?P<{axis}_sec>[\\d.]+)[\"″]*" COORD_REGEX = [re.compile(r'(?:(?P
.*?)\s+)??' + r + r'(?:\s+(?P.*))?') for r in (
     r"(?P[NS])\s*" + _deg('lat') + r"[\s,]+" + r"(?P[EW])\s*" + _deg('lon'),
@@ -152,7 +155,7 @@ COORD_REGEX = [re.compile(r'(?:(?P
.*?)\s+)??' + r + r'(?:\s+(?P.*))?'
 )]
 
 def extract_coords_from_query(query: str) -> Tuple[str, Optional[float], Optional[float]]:
-    """ Look for something that is formated like a coordinate at the
+    """ Look for something that is formatted like a coordinate at the
         beginning or end of the query. If found, extract the coordinate and
         return the remaining query (or the empty string if the query
         consisted of nothing but a coordinate).