-- SPDX-License-Identifier: GPL-2.0-only -- -- This file is part of Nominatim. (https://nominatim.org) -- -- Copyright (C) 2022 by the Nominatim developer community. -- For a full list of authors see the git log. DROP TYPE IF EXISTS nearfeaturecentr CASCADE; CREATE TYPE nearfeaturecentr AS ( place_id BIGINT, keywords int[], rank_address smallint, rank_search smallint, distance float, isguess boolean, postcode TEXT, centroid GEOMETRY ); -- feature intersects geoemtry -- for areas and linestrings they must touch at least along a line CREATE OR REPLACE FUNCTION is_relevant_geometry(de9im TEXT, geom_type TEXT) RETURNS BOOLEAN AS $$ BEGIN IF substring(de9im from 1 for 2) != 'FF' THEN RETURN TRUE; END IF; IF geom_type = 'ST_Point' THEN RETURN substring(de9im from 4 for 1) = '0'; END IF; IF geom_type in ('ST_LineString', 'ST_MultiLineString') THEN RETURN substring(de9im from 4 for 1) = '1'; END IF; RETURN substring(de9im from 4 for 1) = '2'; END $$ LANGUAGE plpgsql IMMUTABLE; create or replace function getNearFeatures(in_partition INTEGER, feature GEOMETRY, maxrank INTEGER) RETURNS setof nearfeaturecentr AS $$ DECLARE r nearfeaturecentr%rowtype; BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN FOR r IN SELECT place_id, keywords, rank_address, rank_search, min(ST_Distance(feature, centroid)) as distance, isguess, postcode, centroid FROM location_area_large_{{ partition }} WHERE geometry && feature AND is_relevant_geometry(ST_Relate(geometry, feature), ST_GeometryType(feature)) AND rank_address < maxrank -- Postcodes currently still use rank_search to define for which -- features they are relevant. AND not (rank_address in (5, 11) and rank_search > maxrank) GROUP BY place_id, keywords, rank_address, rank_search, isguess, postcode, centroid LOOP RETURN NEXT r; END LOOP; RETURN; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; END $$ LANGUAGE plpgsql STABLE; CREATE OR REPLACE FUNCTION get_address_place(in_partition SMALLINT, feature GEOMETRY, from_rank SMALLINT, to_rank SMALLINT, extent FLOAT, token_info JSONB, key TEXT) RETURNS nearfeaturecentr AS $$ DECLARE r nearfeaturecentr%rowtype; BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN SELECT place_id, keywords, rank_address, rank_search, min(ST_Distance(feature, centroid)) as distance, isguess, postcode, centroid INTO r FROM location_area_large_{{ partition }} WHERE geometry && ST_Expand(feature, extent) AND rank_address between from_rank and to_rank AND token_matches_address(token_info, key, keywords) GROUP BY place_id, keywords, rank_address, rank_search, isguess, postcode, centroid ORDER BY bool_or(ST_Intersects(geometry, feature)), distance LIMIT 1; RETURN r; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; END; $$ LANGUAGE plpgsql STABLE; create or replace function deleteLocationArea(in_partition INTEGER, in_place_id BIGINT, in_rank_search INTEGER) RETURNS BOOLEAN AS $$ DECLARE BEGIN IF in_rank_search <= 4 THEN DELETE from location_area_country WHERE place_id = in_place_id; RETURN TRUE; END IF; {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN DELETE from location_area_large_{{ partition }} WHERE place_id = in_place_id; RETURN TRUE; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; RETURN FALSE; END $$ LANGUAGE plpgsql; create or replace function insertLocationAreaLarge( in_partition INTEGER, in_place_id BIGINT, in_country_code VARCHAR(2), in_keywords INTEGER[], in_rank_search INTEGER, in_rank_address INTEGER, in_estimate BOOLEAN, postcode TEXT, in_centroid GEOMETRY, in_geometry GEOMETRY) RETURNS BOOLEAN AS $$ DECLARE BEGIN IF in_rank_address = 0 THEN RETURN TRUE; END IF; IF in_rank_search <= 4 and not in_estimate THEN INSERT INTO location_area_country (place_id, country_code, geometry) values (in_place_id, in_country_code, in_geometry); RETURN TRUE; END IF; {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN INSERT INTO location_area_large_{{ partition }} (partition, place_id, country_code, keywords, rank_search, rank_address, isguess, postcode, centroid, geometry) values (in_partition, in_place_id, in_country_code, in_keywords, in_rank_search, in_rank_address, in_estimate, postcode, in_centroid, in_geometry); RETURN TRUE; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; RETURN FALSE; END $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getNearestNamedRoadPlaceId(in_partition INTEGER, point GEOMETRY, token_info JSONB) RETURNS BIGINT AS $$ DECLARE parent BIGINT; BEGIN IF not token_has_addr_street(token_info) THEN RETURN NULL; END IF; {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN SELECT place_id FROM search_name_{{ partition }} INTO parent WHERE token_matches_street(token_info, name_vector) AND centroid && ST_Expand(point, 0.015) AND address_rank between 26 and 27 ORDER BY ST_Distance(centroid, point) ASC limit 1; RETURN parent; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; END $$ LANGUAGE plpgsql STABLE; CREATE OR REPLACE FUNCTION getNearestNamedPlacePlaceId(in_partition INTEGER, point GEOMETRY, token_info JSONB) RETURNS BIGINT AS $$ DECLARE parent BIGINT; BEGIN IF not token_has_addr_place(token_info) THEN RETURN NULL; END IF; {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN SELECT place_id INTO parent FROM search_name_{{ partition }} WHERE token_matches_place(token_info, name_vector) AND centroid && ST_Expand(point, 0.04) AND address_rank between 16 and 25 ORDER BY ST_Distance(centroid, point) ASC limit 1; RETURN parent; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; END $$ LANGUAGE plpgsql STABLE; create or replace function insertSearchName( in_partition INTEGER, in_place_id BIGINT, in_name_vector INTEGER[], in_rank_search INTEGER, in_rank_address INTEGER, in_geometry GEOMETRY) RETURNS BOOLEAN AS $$ DECLARE BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN DELETE FROM search_name_{{ partition }} values WHERE place_id = in_place_id; IF in_rank_address > 0 THEN INSERT INTO search_name_{{ partition }} (place_id, address_rank, name_vector, centroid) values (in_place_id, in_rank_address, in_name_vector, in_geometry); END IF; RETURN TRUE; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; RETURN FALSE; END $$ LANGUAGE plpgsql; create or replace function deleteSearchName(in_partition INTEGER, in_place_id BIGINT) RETURNS BOOLEAN AS $$ DECLARE BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN DELETE from search_name_{{ partition }} WHERE place_id = in_place_id; RETURN TRUE; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; RETURN FALSE; END $$ LANGUAGE plpgsql; create or replace function insertLocationRoad( in_partition INTEGER, in_place_id BIGINT, in_country_code VARCHAR(2), in_geometry GEOMETRY) RETURNS BOOLEAN AS $$ DECLARE BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN DELETE FROM location_road_{{ partition }} where place_id = in_place_id; INSERT INTO location_road_{{ partition }} (partition, place_id, country_code, geometry) values (in_partition, in_place_id, in_country_code, in_geometry); RETURN TRUE; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; RETURN FALSE; END $$ LANGUAGE plpgsql; create or replace function deleteRoad(in_partition INTEGER, in_place_id BIGINT) RETURNS BOOLEAN AS $$ DECLARE BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN DELETE FROM location_road_{{ partition }} where place_id = in_place_id; RETURN TRUE; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; RETURN FALSE; END $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getNearestRoadPlaceId(in_partition INTEGER, point GEOMETRY) RETURNS BIGINT AS $$ DECLARE r RECORD; search_diameter FLOAT; BEGIN {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN search_diameter := 0.00005; WHILE search_diameter < 0.1 LOOP FOR r IN SELECT place_id FROM location_road_{{ partition }} WHERE ST_DWithin(geometry, point, search_diameter) ORDER BY ST_Distance(geometry, point) ASC limit 1 LOOP RETURN r.place_id; END LOOP; search_diameter := search_diameter * 2; END LOOP; RETURN NULL; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; END $$ LANGUAGE plpgsql STABLE; CREATE OR REPLACE FUNCTION getNearestParallelRoadFeature(in_partition INTEGER, line GEOMETRY) RETURNS BIGINT AS $$ DECLARE r RECORD; search_diameter FLOAT; p1 GEOMETRY; p2 GEOMETRY; p3 GEOMETRY; BEGIN IF ST_GeometryType(line) not in ('ST_LineString') THEN RETURN NULL; END IF; p1 := ST_LineInterpolatePoint(line,0); p2 := ST_LineInterpolatePoint(line,0.5); p3 := ST_LineInterpolatePoint(line,1); {% for partition in db.partitions %} IF in_partition = {{ partition }} THEN search_diameter := 0.0005; WHILE search_diameter < 0.01 LOOP FOR r IN SELECT place_id FROM location_road_{{ partition }} WHERE ST_DWithin(line, geometry, search_diameter) ORDER BY (ST_distance(geometry, p1)+ ST_distance(geometry, p2)+ ST_distance(geometry, p3)) ASC limit 1 LOOP RETURN r.place_id; END LOOP; search_diameter := search_diameter * 2; END LOOP; RETURN NULL; END IF; {% endfor %} RAISE EXCEPTION 'Unknown partition %', in_partition; END $$ LANGUAGE plpgsql STABLE;