-create or replace function getNearFeatures(in_partition INTEGER, point GEOMETRY, maxrank INTEGER, isin_tokens INT[]) RETURNS setof nearfeaturecentr AS $$
+create or replace function getNearFeatures(in_partition INTEGER, feature GEOMETRY, maxrank INTEGER, isin_tokens INT[]) RETURNS setof nearfeaturecentr AS $$
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(point, centroid)) as distance, isguess, centroid FROM (
- SELECT * FROM location_area_large_-partition- WHERE ST_Contains(geometry, point) and rank_search < maxrank
- UNION ALL
- SELECT * FROM location_area_country WHERE ST_Contains(geometry, point) and rank_search < maxrank
- ) as location_area
- GROUP BY place_id, keywords, rank_address, rank_search, isguess, centroid
+ SELECT place_id, keywords, rank_address, rank_search, min(ST_Distance(feature, centroid)) as distance, isguess, postcode, centroid
+ FROM location_area_large_-partition-
+ WHERE ST_Intersects(geometry, feature) and rank_search < maxrank
+ GROUP BY place_id, keywords, rank_address, rank_search, isguess, postcode, centroid
ORDER BY rank_address, isin_tokens && keywords desc, isguess asc,
- ST_Distance(point, centroid) *
+ 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
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_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 $$
DECLARE
BEGIN
-
- IF in_rank_search <= 4 THEN
- INSERT INTO location_area_country values (in_partition, in_place_id, in_country_code, in_keywords, in_rank_search, in_rank_address, in_estimate, in_centroid, in_geometry);
+ IF in_rank_address = 0 THEN
RETURN TRUE;
END IF;
--- start
- IF in_partition = -partition- THEN
- INSERT INTO location_area_large_-partition- values (in_partition, in_place_id, in_country_code, in_keywords, in_rank_search, in_rank_address, in_estimate, in_centroid, in_geometry);
+ IF in_rank_search <= 4 and not in_estimate THEN
+ INSERT INTO location_area_country (place_id, country_code, geometry)
+ values (in_place_id, in_country_code, in_geometry);
RETURN TRUE;
END IF;
--- end
-
- RAISE EXCEPTION 'Unknown partition %', in_partition;
- RETURN FALSE;
-END
-$$
-LANGUAGE plpgsql;
-
-create or replace function getNearestNamedFeature(in_partition INTEGER, point GEOMETRY, maxrank INTEGER, isin_token INTEGER) RETURNS setof nearfeature AS $$
-DECLARE
- r nearfeature%rowtype;
-BEGIN
-- start
IF in_partition = -partition- THEN
- FOR r IN
- SELECT place_id, name_vector, address_rank, search_rank,
- ST_Distance(centroid, point) as distance, null as isguess
- FROM search_name_-partition-
- WHERE name_vector @> ARRAY[isin_token]
- AND search_rank < maxrank
- UNION ALL
- SELECT place_id, name_vector, address_rank, search_rank,
- ST_Distance(centroid, point) as distance, null as isguess
- FROM search_name_country
- WHERE name_vector @> ARRAY[isin_token]
- AND search_rank < maxrank
- ORDER BY distance ASC limit 1
- LOOP
- RETURN NEXT r;
- END LOOP;
- RETURN;
+ INSERT INTO location_area_large_-partition- (partition, place_id, country_code, keywords, rank_search, rank_address, isguess, postcode, centroid, geometry)
+ values (in_partition, in_place_id, in_country_code, in_keywords, in_rank_search, in_rank_address, in_estimate, postcode, in_centroid, in_geometry);
+ RETURN TRUE;
END IF;
-- end
RAISE EXCEPTION 'Unknown partition %', in_partition;
+ RETURN FALSE;
END
$$
LANGUAGE plpgsql;
-create or replace function getNearestNamedRoadFeature(in_partition INTEGER, point GEOMETRY, isin_token INTEGER)
+create or replace function getNearestNamedRoadFeature(in_partition INTEGER, point GEOMETRY, isin_token INTEGER[])
RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
SELECT place_id, name_vector, address_rank, search_rank,
ST_Distance(centroid, point) as distance, null as isguess
FROM search_name_-partition-
- WHERE name_vector @> ARRAY[isin_token]
- AND ST_DWithin(centroid, point, 0.01)
+ WHERE name_vector && isin_token
+ AND centroid && ST_Expand(point, 0.015)
AND search_rank between 26 and 27
ORDER BY distance ASC limit 1
LOOP
$$
LANGUAGE plpgsql;
-create or replace function getNearestNamedPlaceFeature(in_partition INTEGER, point GEOMETRY, isin_token INTEGER)
+create or replace function getNearestNamedPlaceFeature(in_partition INTEGER, point GEOMETRY, isin_token INTEGER[])
RETURNS setof nearfeature AS $$
DECLARE
r nearfeature%rowtype;
SELECT place_id, name_vector, address_rank, search_rank,
ST_Distance(centroid, point) as distance, null as isguess
FROM search_name_-partition-
- WHERE name_vector @> ARRAY[isin_token]
- AND ST_DWithin(centroid, point, 0.03)
+ WHERE name_vector && isin_token
+ AND centroid && ST_Expand(point, 0.04)
AND search_rank between 16 and 22
ORDER BY distance ASC limit 1
LOOP
LANGUAGE plpgsql;
-create or replace function getNearestPostcode(in_partition INTEGER, point GEOMETRY)
- RETURNS TEXT AS $$
-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
-$$
-LANGUAGE plpgsql;
-
create or replace function insertSearchName(
- in_partition INTEGER, in_place_id BIGINT, in_country_code VARCHAR(2),
- in_name_vector INTEGER[], in_nameaddress_vector INTEGER[],
- in_rank_search INTEGER, in_rank_address INTEGER, in_importance FLOAT,
- in_centroid GEOMETRY, in_geometry GEOMETRY) RETURNS BOOLEAN AS $$
+ 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 $$
DECLARE
BEGIN
-
- DELETE FROM search_name WHERE place_id = in_place_id;
- INSERT INTO search_name values (in_place_id, in_rank_search, in_rank_address, in_importance, in_country_code,
- in_name_vector, in_nameaddress_vector, in_centroid);
-
- IF in_rank_search <= 4 THEN
- DELETE FROM search_name_country WHERE place_id = in_place_id;
- INSERT INTO search_name_country values (in_place_id, in_rank_search, in_rank_address,
- in_name_vector, in_geometry);
- RETURN TRUE;
- END IF;
-
-- start
IF in_partition = -partition- THEN
DELETE FROM search_name_-partition- values WHERE place_id = in_place_id;
- INSERT INTO search_name_-partition- values (in_place_id, in_rank_search, in_rank_address,
- in_name_vector, in_geometry);
+ IF in_rank_address > 0 THEN
+ INSERT INTO search_name_-partition- (place_id, search_rank, address_rank, name_vector, centroid)
+ values (in_place_id, in_rank_search, in_rank_address, in_name_vector, in_geometry);
+ END IF;
RETURN TRUE;
END IF;
-- end
create or replace function deleteSearchName(in_partition INTEGER, in_place_id BIGINT) RETURNS BOOLEAN AS $$
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;
-- 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);
+ 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;
-- end