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),
return FEATURE_TYPE_TO_RANK.get(feature_type, (0, 30))
-#pylint: disable=too-many-arguments
+#pylint: disable=too-many-arguments,too-many-branches
def extend_query_parts(queryparts: Dict[str, Any], details: Dict[str, Any],
feature_type: Optional[str],
namedetails: bool, extratags: bool,
"""
parsed = SearchDetails.from_kwargs(details)
if parsed.geometry_output != GeometryFormat.NONE:
- for flag in parsed.geometry_output:
- assert flag.name
- queryparts[f'polygon_{flag.name.lower()}'] = '1'
+ if GeometryFormat.GEOJSON in parsed.geometry_output:
+ queryparts['polygon_geojson'] = '1'
+ if GeometryFormat.KML in parsed.geometry_output:
+ queryparts['polygon_kml'] = '1'
+ if GeometryFormat.SVG in parsed.geometry_output:
+ queryparts['polygon_svg'] = '1'
+ if GeometryFormat.TEXT in parsed.geometry_output:
+ queryparts['polygon_text'] = '1'
if parsed.address_details:
queryparts['addressdetails'] = '1'
if namedetails:
if parsed.countries:
queryparts['countrycodes'] = ','.join(parsed.countries)
queryparts['exclude_place_ids'] = \
- ','.join(chain(excluded, map(str, parsed.excluded)))
+ ','.join(chain(excluded, map(str, (e for e in parsed.excluded if e > 0))))
if parsed.viewbox:
queryparts['viewbox'] = ','.join(f"{c:.7g}" for c in parsed.viewbox.coords)
if parsed.bounded_viewbox:
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
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<pre>.*?)\s+)??' + r + r'(?:\s+(?P<post>.*))?') for r in (
r"(?P<ns>[NS])\s*" + _deg('lat') + r"[\s,]+" + r"(?P<ew>[EW])\s*" + _deg('lon'),
)]
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).