X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/61e3a053723a6a1131e234aa8ad1a37f18bbec56..764dcd7f6459c08aafd5cf2fcb7902cc2868cb30:/sql/functions/ranking.sql?ds=sidebyside diff --git a/sql/functions/ranking.sql b/sql/functions/ranking.sql index 0c8f4c49..a84269fe 100644 --- a/sql/functions/ranking.sql +++ b/sql/functions/ranking.sql @@ -55,6 +55,53 @@ END; $$ LANGUAGE plpgsql IMMUTABLE; +-- Compute a base address rank from the extent of the given geometry. +-- +-- This is all simple guess work. We don't need particularly good estimates +-- here. This just avoids to have very high ranked address parts in features +-- that span very large areas (or vice versa). +CREATE OR REPLACE FUNCTION geometry_to_rank(search_rank SMALLINT, geometry GEOMETRY, country_code TEXT) + RETURNS SMALLINT + AS $$ +DECLARE + area FLOAT; +BEGIN + IF ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon') THEN + area := ST_Area(geometry); + ELSIF ST_GeometryType(geometry) in ('ST_LineString','ST_MultiLineString') THEN + area := (ST_Length(geometry)^2) * 0.1; + ELSE + RETURN search_rank; + END IF; + + -- adjust for the fact that countries come in different sizes + IF country_code IN ('ca', 'au', 'ru') THEN + area := area / 5; + ELSIF country_code IN ('br', 'kz', 'cn', 'us', 'ne', 'gb', 'za', 'sa', 'id', 'eh', 'ml', 'tm') THEN + area := area / 3; + ELSIF country_code IN ('bo', 'ar', 'sd', 'mn', 'in', 'et', 'cd', 'mz', 'ly', 'cl', 'zm') THEN + area := area / 2; + END IF; + + IF area > 1 THEN + RETURN 7; + ELSIF area > 0.1 THEN + RETURN 9; + ELSIF area > 0.01 THEN + RETURN 13; + ELSIF area > 0.001 THEN + RETURN 17; + ELSIF area > 0.0001 THEN + RETURN 19; + ELSIF area > 0.000005 THEN + RETURN 21; + END IF; + + RETURN 23; +END; +$$ +LANGUAGE plpgsql IMMUTABLE; + -- Guess a ranking for postcodes from country and postcode format. CREATE OR REPLACE FUNCTION get_postcode_rank(country_code VARCHAR(2), postcode TEXT,