location RECORD;
relation_members TEXT[];
- centroid GEOMETRY;
+ geom GEOMETRY;
parent_address_level SMALLINT;
place_address_level SMALLINT;
-- Use the linked point as the centre point of the geometry,
-- but only if it is within the area of the boundary.
- centroid := coalesce(location.centroid, ST_Centroid(location.geometry));
- IF centroid is not NULL AND ST_Within(centroid, NEW.geometry) THEN
- NEW.centroid := centroid;
+ geom := coalesce(location.centroid, ST_Centroid(location.geometry));
+ IF geom is not NULL AND ST_Within(geom, NEW.geometry) THEN
+ NEW.centroid := geom;
END IF;
--DEBUG: RAISE WARNING 'parent address: % rank address: %', parent_address_level, location.rank_address;
--DEBUG: RAISE WARNING 'Country names updated';
END IF;
+ -- For linear features we need the full geometry for determining the address
+ -- because they may go through several administrative entities. Otherwise use
+ -- the centroid for performance reasons.
+ IF ST_GeometryType(NEW.geometry) in ('ST_LineString', 'ST_MultiLineString') THEN
+ geom := NEW.geometry;
+ ELSE
+ geom := NEW.centroid;
+ END IF;
+
IF NEW.rank_address = 0 THEN
max_rank := geometry_to_rank(NEW.rank_search, NEW.geometry, NEW.country_code);
+ -- Rank 0 features may also span multiple administrative areas (e.g. lakes)
+ -- so use the geometry here too. Just make sure the areas don't become too
+ -- large.
+ IF NEW.class = 'natural' or max_rank > 10 THEN
+ geom := NEW.geometry;
+ END IF;
ELSEIF NEW.rank_address > 25 THEN
max_rank := 25;
ELSE
END IF;
SELECT * FROM insert_addresslines(NEW.place_id, NEW.partition, max_rank,
- NEW.address,
- CASE WHEN (NEW.rank_address = 0 or
- NEW.rank_search between 26 and 29)
- THEN NEW.geometry ELSE NEW.centroid END,
- NEW.country_code)
+ NEW.address, geom, NEW.country_code)
INTO NEW.parent_place_id, NEW.postcode, nameaddress_vector;
--DEBUG: RAISE WARNING 'RETURN insert_addresslines: %, %, %', NEW.parent_place_id, NEW.postcode, nameaddress_vector;