Nominatim/sql/partition-functions.src.sql
Sarah Hoffmann b3186d07f5 for roads add all intersecting boundaries to address list
When roads cross boundaries, both administrative entities should
be added to the address list, so that both entities can be used
for searching. Also allows in a second step to better sort out
addresses of POIs on such roads.

Fixes #121.
2017-03-18 12:17:48 +01:00

367 lines
10 KiB
PL/PgSQL

create or replace function getNearFeatures(in_partition INTEGER, feature GEOMETRY, maxrank INTEGER, isin_tokens INT[]) RETURNS setof nearfeaturecentr AS $$
DECLARE
r nearfeaturecentr%rowtype;
BEGIN
-- start
IF in_partition = -partition- THEN
FOR r IN
SELECT place_id, keywords, rank_address, rank_search, min(ST_Distance(feature, centroid)) as distance, isguess, centroid FROM (
SELECT * FROM location_area_large_-partition- WHERE ST_Intersects(geometry, feature) and rank_search < maxrank
UNION ALL
SELECT * FROM location_area_country WHERE ST_Intersects(geometry, feature) and rank_search < maxrank
) as location_area
GROUP BY place_id, keywords, rank_address, rank_search, isguess, centroid
ORDER BY rank_address, isin_tokens && keywords desc, isguess asc,
ST_Distance(feature, centroid) *
CASE
WHEN rank_address = 16 AND rank_search = 15 THEN 0.2 -- capital city
WHEN rank_address = 16 AND rank_search = 16 THEN 0.25 -- city
WHEN rank_address = 16 AND rank_search = 17 THEN 0.5 -- town
ELSE 1 END ASC -- everything else
LOOP
RETURN NEXT r;
END LOOP;
RETURN;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;
create or replace function deleteLocationArea(in_partition INTEGER, in_place_id BIGINT, in_rank_search INTEGER) RETURNS BOOLEAN AS $$
DECLARE
BEGIN
IF in_rank_search <= 4 THEN
DELETE from location_area_country WHERE place_id = in_place_id;
RETURN TRUE;
END IF;
-- start
IF in_partition = -partition- THEN
DELETE from location_area_large_-partition- WHERE place_id = in_place_id;
RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
RETURN FALSE;
END
$$
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,
in_centroid GEOMETRY, in_geometry GEOMETRY) RETURNS BOOLEAN AS $$
DECLARE
BEGIN
IF in_rank_address = 0 THEN
RETURN TRUE;
END IF;
IF in_rank_search <= 4 THEN
INSERT INTO location_area_country values (in_partition, in_place_id, in_country_code, in_keywords, in_rank_search, in_rank_address, in_estimate, in_centroid, in_geometry);
RETURN TRUE;
END IF;
-- start
IF in_partition = -partition- THEN
INSERT INTO location_area_large_-partition- values (in_partition, in_place_id, in_country_code, in_keywords, in_rank_search, in_rank_address, in_estimate, in_centroid, in_geometry);
RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
RETURN FALSE;
END
$$
LANGUAGE plpgsql;
create or replace function getNearestNamedFeature(in_partition INTEGER, point GEOMETRY, maxrank INTEGER, isin_token INTEGER) RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
BEGIN
-- start
IF in_partition = -partition- THEN
FOR r IN
SELECT place_id, name_vector, address_rank, search_rank,
ST_Distance(centroid, point) as distance, null as isguess
FROM search_name_-partition-
WHERE name_vector @> ARRAY[isin_token]
AND search_rank < maxrank
UNION ALL
SELECT place_id, name_vector, address_rank, search_rank,
ST_Distance(centroid, point) as distance, null as isguess
FROM search_name_country
WHERE name_vector @> ARRAY[isin_token]
AND search_rank < maxrank
ORDER BY distance ASC limit 1
LOOP
RETURN NEXT r;
END LOOP;
RETURN;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;
create or replace function getNearestNamedRoadFeature(in_partition INTEGER, point GEOMETRY, isin_token INTEGER[])
RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
BEGIN
-- start
IF in_partition = -partition- THEN
FOR r IN
SELECT place_id, name_vector, address_rank, search_rank,
ST_Distance(centroid, point) as distance, null as isguess
FROM search_name_-partition-
WHERE name_vector @> isin_token
AND ST_DWithin(centroid, point, 0.01)
AND search_rank between 26 and 27
ORDER BY distance ASC limit 1
LOOP
RETURN NEXT r;
END LOOP;
RETURN;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;
create or replace function getNearestNamedPlaceFeature(in_partition INTEGER, point GEOMETRY, isin_token INTEGER[])
RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
BEGIN
-- start
IF in_partition = -partition- THEN
FOR r IN
SELECT place_id, name_vector, address_rank, search_rank,
ST_Distance(centroid, point) as distance, null as isguess
FROM search_name_-partition-
WHERE name_vector @> isin_token
AND ST_DWithin(centroid, point, 0.03)
AND search_rank between 16 and 22
ORDER BY distance ASC limit 1
LOOP
RETURN NEXT r;
END LOOP;
RETURN;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;
create or replace function getNearestPostcode(in_partition INTEGER, point GEOMETRY)
RETURNS TEXT AS $$
DECLARE
out_postcode TEXT;
BEGIN
-- start
IF in_partition = -partition- THEN
SELECT postcode
FROM location_area_large_-partition- join placex using (place_id)
WHERE st_contains(location_area_large_-partition-.geometry, point)
AND class = 'place' and type = 'postcode'
ORDER BY st_distance(location_area_large_-partition-.centroid, point) ASC limit 1
INTO out_postcode;
RETURN out_postcode;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;
create or replace function insertSearchName(
in_partition INTEGER, in_place_id BIGINT, in_country_code VARCHAR(2),
in_name_vector INTEGER[], in_nameaddress_vector INTEGER[],
in_rank_search INTEGER, in_rank_address INTEGER, in_importance FLOAT,
in_centroid GEOMETRY, in_geometry GEOMETRY) RETURNS BOOLEAN AS $$
DECLARE
BEGIN
DELETE FROM search_name WHERE place_id = in_place_id;
INSERT INTO search_name values (in_place_id, in_rank_search, in_rank_address, in_importance, in_country_code,
in_name_vector, in_nameaddress_vector, in_centroid);
IF in_rank_search <= 4 THEN
DELETE FROM search_name_country WHERE place_id = in_place_id;
IF in_rank_address > 0 THEN
INSERT INTO search_name_country values (in_place_id, in_rank_search, in_rank_address,
in_name_vector, in_geometry);
END IF;
RETURN TRUE;
END IF;
-- start
IF in_partition = -partition- THEN
DELETE FROM search_name_-partition- values WHERE place_id = in_place_id;
IF in_rank_address > 0 THEN
INSERT INTO search_name_-partition- values (in_place_id, in_rank_search, in_rank_address,
in_name_vector, in_geometry);
END IF;
RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
RETURN FALSE;
END
$$
LANGUAGE plpgsql;
create or replace function deleteSearchName(in_partition INTEGER, in_place_id BIGINT) RETURNS BOOLEAN AS $$
DECLARE
BEGIN
DELETE from search_name WHERE place_id = in_place_id;
DELETE from search_name_country WHERE place_id = in_place_id;
-- start
IF in_partition = -partition- THEN
DELETE from search_name_-partition- WHERE place_id = in_place_id;
RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
RETURN FALSE;
END
$$
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 $$
DECLARE
BEGIN
-- start
IF in_partition = -partition- THEN
DELETE FROM location_road_-partition- where place_id = in_place_id;
INSERT INTO location_road_-partition- values (in_partition, in_place_id, in_country_code, in_geometry);
RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
RETURN FALSE;
END
$$
LANGUAGE plpgsql;
create or replace function deleteRoad(in_partition INTEGER, in_place_id BIGINT) RETURNS BOOLEAN AS $$
DECLARE
BEGIN
-- start
IF in_partition = -partition- THEN
DELETE FROM location_road_-partition- where place_id = in_place_id;
RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
RETURN FALSE;
END
$$
LANGUAGE plpgsql;
create or replace function getNearestRoadFeature(in_partition INTEGER, point GEOMETRY) RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
search_diameter FLOAT;
BEGIN
-- start
IF in_partition = -partition- THEN
search_diameter := 0.00005;
WHILE search_diameter < 0.1 LOOP
FOR r IN
SELECT place_id, null, null, null,
ST_Distance(geometry, point) as distance, null as isguess
FROM location_road_-partition-
WHERE ST_DWithin(geometry, point, search_diameter)
ORDER BY distance ASC limit 1
LOOP
RETURN NEXT r;
RETURN;
END LOOP;
search_diameter := search_diameter * 2;
END LOOP;
RETURN;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;
create or replace function getNearestParellelRoadFeature(in_partition INTEGER, line GEOMETRY) RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
search_diameter FLOAT;
p1 GEOMETRY;
p2 GEOMETRY;
p3 GEOMETRY;
BEGIN
IF st_geometrytype(line) not in ('ST_LineString') THEN
RETURN;
END IF;
p1 := ST_LineInterpolatePoint(line,0);
p2 := ST_LineInterpolatePoint(line,0.5);
p3 := ST_LineInterpolatePoint(line,1);
-- start
IF in_partition = -partition- THEN
search_diameter := 0.0005;
WHILE search_diameter < 0.01 LOOP
FOR r IN
SELECT place_id, null, null, null,
ST_Distance(geometry, line) as distance, null as isguess
FROM location_road_-partition-
WHERE ST_DWithin(line, geometry, search_diameter)
ORDER BY (ST_distance(geometry, p1)+
ST_distance(geometry, p2)+
ST_distance(geometry, p3)) ASC limit 1
LOOP
RETURN NEXT r;
RETURN;
END LOOP;
search_diameter := search_diameter * 2;
END LOOP;
RETURN;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
END
$$
LANGUAGE plpgsql;