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c5f5ab5363
Nominatim/lib-sql/functions/placex_triggers.sql
Sarah Hoffmann a873f260cf fix merging of linked names into unnamed boundaries 
The NULL value of the boundaries' name field was erasing all
content when used in SQL operations.
2023-06-30 22:14:11 +02:00

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PL/PgSQL
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-- 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.
-- Trigger functions for the placex table.
-- Information returned by update preparation.
DROP TYPE IF EXISTS prepare_update_info CASCADE;
CREATE TYPE prepare_update_info AS (
name HSTORE,
address HSTORE,
rank_address SMALLINT,
country_code TEXT,
class TEXT,
type TEXT,
linked_place_id BIGINT,
centroid_x float,
centroid_y float
);
-- Retrieve the data needed by the indexer for updating the place.
CREATE OR REPLACE FUNCTION placex_indexing_prepare(p placex)
RETURNS prepare_update_info
AS $$
DECLARE
location RECORD;
result prepare_update_info;
extra_names HSTORE;
BEGIN
IF not p.address ? '_inherited' THEN
result.address := p.address;
END IF;
-- For POI nodes, check if the address should be derived from a surrounding
-- building.
IF p.rank_search = 30 AND p.osm_type = 'N' THEN
IF p.address is null THEN
-- The additional && condition works around the misguided query
-- planner of postgis 3.0.
SELECT placex.address || hstore('_inherited', '') INTO result.address
FROM placex
WHERE ST_Covers(geometry, p.centroid)
and geometry && p.centroid
and placex.address is not null
and (placex.address ? 'housenumber' or placex.address ? 'street' or placex.address ? 'place')
and rank_search = 30 AND ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon')
LIMIT 1;
ELSE
-- See if we can inherit additional address tags from an interpolation.
-- These will become permanent.
FOR location IN
SELECT (address - 'interpolation'::text - 'housenumber'::text) as address
FROM place, planet_osm_ways w
WHERE place.osm_type = 'W' and place.address ? 'interpolation'
and place.geometry && p.geometry
and place.osm_id = w.id
and p.osm_id = any(w.nodes)
LOOP
result.address := location.address || result.address;
END LOOP;
END IF;
END IF;
-- remove internal and derived names
result.address := result.address - '_unlisted_place'::TEXT;
SELECT hstore(array_agg(key), array_agg(value)) INTO result.name
FROM each(p.name) WHERE key not like '\_%';
result.class := p.class;
result.type := p.type;
result.country_code := p.country_code;
result.rank_address := p.rank_address;
result.centroid_x := ST_X(p.centroid);
result.centroid_y := ST_Y(p.centroid);
-- Names of linked places need to be merged in, so search for a linkable
-- place already here.
SELECT * INTO location FROM find_linked_place(p);
IF location.place_id is not NULL THEN
result.linked_place_id := location.place_id;
IF location.name is not NULL THEN
{% if debug %}RAISE WARNING 'Names original: %, location: %', result.name, location.name;{% endif %}
-- Add all names from the place nodes that deviate from the name
-- in the relation with the prefix '_place_'. Deviation means that
-- either the value is different or a given key is missing completely
IF result.name is null THEN
SELECT hstore(array_agg('_place_' || key), array_agg(value))
INTO result.name
FROM each(location.name);
ELSE
SELECT hstore(array_agg('_place_' || key), array_agg(value)) INTO extra_names
FROM each(location.name - result.name);
{% if debug %}RAISE WARNING 'Extra names: %', extra_names;{% endif %}
IF extra_names is not null THEN
result.name := result.name || extra_names;
END IF;
END IF;
{% if debug %}RAISE WARNING 'Final names: %', result.name;{% endif %}
END IF;
END IF;
RETURN result;
END;
$$
LANGUAGE plpgsql STABLE;
CREATE OR REPLACE FUNCTION find_associated_street(poi_osm_type CHAR(1),
poi_osm_id BIGINT,
bbox GEOMETRY)
RETURNS BIGINT
AS $$
DECLARE
location RECORD;
parent RECORD;
result BIGINT;
distance FLOAT;
new_distance FLOAT;
waygeom GEOMETRY;
BEGIN
FOR location IN
SELECT members FROM planet_osm_rels
WHERE parts @> ARRAY[poi_osm_id]
and members @> ARRAY[lower(poi_osm_type) || poi_osm_id]
and tags @> ARRAY['associatedStreet']
LOOP
FOR i IN 1..array_upper(location.members, 1) BY 2 LOOP
IF location.members[i+1] = 'street' THEN
FOR parent IN
SELECT place_id, geometry
FROM placex
WHERE osm_type = upper(substring(location.members[i], 1, 1))::char(1)
and osm_id = substring(location.members[i], 2)::bigint
and name is not null
and rank_search between 26 and 27
LOOP
-- Find the closest 'street' member.
-- Avoid distance computation for the frequent case where there is
-- only one street member.
IF waygeom is null THEN
result := parent.place_id;
waygeom := parent.geometry;
ELSE
distance := coalesce(distance, ST_Distance(waygeom, bbox));
new_distance := ST_Distance(parent.geometry, bbox);
IF new_distance < distance THEN
distance := new_distance;
result := parent.place_id;
waygeom := parent.geometry;
END IF;
END IF;
END LOOP;
END IF;
END LOOP;
END LOOP;
RETURN result;
END;
$$
LANGUAGE plpgsql STABLE;
-- Find the parent road of a POI.
--
-- \returns Place ID of parent object or NULL if none
--
-- Copy data from linked items (POIs on ways, addr:street links, relations).
--
CREATE OR REPLACE FUNCTION find_parent_for_poi(poi_osm_type CHAR(1),
poi_osm_id BIGINT,
poi_partition SMALLINT,
bbox GEOMETRY,
token_info JSONB,
is_place_addr BOOLEAN)
RETURNS BIGINT
AS $$
DECLARE
parent_place_id BIGINT DEFAULT NULL;
location RECORD;
BEGIN
{% if debug %}RAISE WARNING 'finding street for % %', poi_osm_type, poi_osm_id;{% endif %}
-- Is this object part of an associatedStreet relation?
parent_place_id := find_associated_street(poi_osm_type, poi_osm_id, bbox);
IF parent_place_id is null THEN
parent_place_id := find_parent_for_address(token_info, poi_partition, bbox);
END IF;
IF parent_place_id is null and poi_osm_type = 'N' THEN
FOR location IN
SELECT p.place_id, p.osm_id, p.rank_search, p.address,
coalesce(p.centroid, ST_Centroid(p.geometry)) as centroid
FROM placex p, planet_osm_ways w
WHERE p.osm_type = 'W' and p.rank_search >= 26
and p.geometry && bbox
and w.id = p.osm_id and poi_osm_id = any(w.nodes)
LOOP
{% if debug %}RAISE WARNING 'Node is part of way % ', location.osm_id;{% endif %}
-- Way IS a road then we are on it - that must be our road
IF location.rank_search < 28 THEN
{% if debug %}RAISE WARNING 'node in way that is a street %',location;{% endif %}
RETURN location.place_id;
END IF;
parent_place_id := find_associated_street('W', location.osm_id, bbox);
END LOOP;
END IF;
IF parent_place_id is NULL THEN
IF is_place_addr THEN
-- The address is attached to a place we don't know.
-- Instead simply use the containing area with the largest rank.
FOR location IN
SELECT place_id FROM placex
WHERE bbox && geometry AND _ST_Covers(geometry, ST_Centroid(bbox))
AND rank_address between 5 and 25
AND ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon')
ORDER BY rank_address desc
LOOP
RETURN location.place_id;
END LOOP;
ELSEIF ST_Area(bbox) < 0.005 THEN
-- for smaller features get the nearest road
SELECT getNearestRoadPlaceId(poi_partition, bbox) INTO parent_place_id;
{% if debug %}RAISE WARNING 'Checked for nearest way (%)', parent_place_id;{% endif %}
ELSE
-- for larger features simply find the area with the largest rank that
-- contains the bbox, only use addressable features
FOR location IN
SELECT place_id FROM placex
WHERE bbox && geometry AND _ST_Covers(geometry, ST_Centroid(bbox))
AND rank_address between 5 and 25
AND ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon')
ORDER BY rank_address desc
LOOP
RETURN location.place_id;
END LOOP;
END IF;
END IF;
RETURN parent_place_id;
END;
$$
LANGUAGE plpgsql STABLE;
-- Try to find a linked place for the given object.
CREATE OR REPLACE FUNCTION find_linked_place(bnd placex)
RETURNS placex
AS $$
DECLARE
relation_members TEXT[];
rel_member RECORD;
linked_placex placex%ROWTYPE;
bnd_name TEXT;
BEGIN
IF bnd.rank_search >= 26 or bnd.rank_address = 0
or ST_GeometryType(bnd.geometry) NOT IN ('ST_Polygon','ST_MultiPolygon')
or bnd.type IN ('postcode', 'postal_code')
THEN
RETURN NULL;
END IF;
IF bnd.osm_type = 'R' THEN
-- see if we have any special relation members
SELECT members FROM planet_osm_rels WHERE id = bnd.osm_id INTO relation_members;
{% if debug %}RAISE WARNING 'Got relation members';{% endif %}
-- Search for relation members with role 'lable'.
IF relation_members IS NOT NULL THEN
FOR rel_member IN
SELECT get_rel_node_members(relation_members, ARRAY['label']) as member
LOOP
{% if debug %}RAISE WARNING 'Found label member %', rel_member.member;{% endif %}
FOR linked_placex IN
SELECT * from placex
WHERE osm_type = 'N' and osm_id = rel_member.member
and class = 'place'
LOOP
{% if debug %}RAISE WARNING 'Linked label member';{% endif %}
RETURN linked_placex;
END LOOP;
END LOOP;
END IF;
END IF;
IF bnd.name ? 'name' THEN
bnd_name := lower(bnd.name->'name');
IF bnd_name = '' THEN
bnd_name := NULL;
END IF;
END IF;
-- If extratags has a place tag, look for linked nodes by their place type.
-- Area and node still have to have the same name.
IF bnd.extratags ? 'place' and bnd.extratags->'place' != 'postcode'
and bnd_name is not null
THEN
FOR linked_placex IN
SELECT * FROM placex
WHERE (position(lower(name->'name') in bnd_name) > 0
OR position(bnd_name in lower(name->'name')) > 0)
AND placex.class = 'place' AND placex.type = bnd.extratags->'place'
AND placex.osm_type = 'N'
AND (placex.linked_place_id is null or placex.linked_place_id = bnd.place_id)
AND placex.rank_search < 26 -- needed to select the right index
AND ST_Covers(bnd.geometry, placex.geometry)
LOOP
{% if debug %}RAISE WARNING 'Found type-matching place node %', linked_placex.osm_id;{% endif %}
RETURN linked_placex;
END LOOP;
END IF;
IF bnd.extratags ? 'wikidata' THEN
FOR linked_placex IN
SELECT * FROM placex
WHERE placex.class = 'place' AND placex.osm_type = 'N'
AND placex.extratags ? 'wikidata' -- needed to select right index
AND placex.extratags->'wikidata' = bnd.extratags->'wikidata'
AND (placex.linked_place_id is null or placex.linked_place_id = bnd.place_id)
AND placex.rank_search < 26
AND _st_covers(bnd.geometry, placex.geometry)
ORDER BY lower(name->'name') = bnd_name desc
LOOP
{% if debug %}RAISE WARNING 'Found wikidata-matching place node %', linked_placex.osm_id;{% endif %}
RETURN linked_placex;
END LOOP;
END IF;
-- Name searches can be done for ways as well as relations
IF bnd_name is not null THEN
{% if debug %}RAISE WARNING 'Looking for nodes with matching names';{% endif %}
FOR linked_placex IN
SELECT placex.* from placex
WHERE lower(name->'name') = bnd_name
AND ((bnd.rank_address > 0
and bnd.rank_address = (compute_place_rank(placex.country_code,
'N', placex.class,
placex.type, 15::SMALLINT,
false, placex.postcode)).address_rank)
OR (bnd.rank_address = 0 and placex.rank_search = bnd.rank_search))
AND placex.osm_type = 'N'
AND placex.class = 'place'
AND (placex.linked_place_id is null or placex.linked_place_id = bnd.place_id)
AND placex.rank_search < 26 -- needed to select the right index
AND placex.type != 'postcode'
AND ST_Covers(bnd.geometry, placex.geometry)
LOOP
{% if debug %}RAISE WARNING 'Found matching place node %', linked_placex.osm_id;{% endif %}
RETURN linked_placex;
END LOOP;
END IF;
RETURN NULL;
END;
$$
LANGUAGE plpgsql STABLE;
CREATE OR REPLACE FUNCTION create_poi_search_terms(obj_place_id BIGINT,
in_partition SMALLINT,
parent_place_id BIGINT,
is_place_addr BOOLEAN,
country TEXT,
token_info JSONB,
geometry GEOMETRY,
OUT name_vector INTEGER[],
OUT nameaddress_vector INTEGER[])
AS $$
DECLARE
parent_name_vector INTEGER[];
parent_address_vector INTEGER[];
addr_place_ids INTEGER[];
hnr_vector INTEGER[];
addr_item RECORD;
addr_place RECORD;
parent_address_place_ids BIGINT[];
BEGIN
nameaddress_vector := '{}'::INTEGER[];
SELECT s.name_vector, s.nameaddress_vector
INTO parent_name_vector, parent_address_vector
FROM search_name s
WHERE s.place_id = parent_place_id;
FOR addr_item IN
SELECT ranks.*, key,
token_get_address_search_tokens(token_info, key) as search_tokens
FROM token_get_address_keys(token_info) as key,
LATERAL get_addr_tag_rank(key, country) as ranks
WHERE not token_get_address_search_tokens(token_info, key) <@ parent_address_vector
LOOP
addr_place := get_address_place(in_partition, geometry,
addr_item.from_rank, addr_item.to_rank,
addr_item.extent, token_info, addr_item.key);
IF addr_place is null THEN
-- No place found in OSM that matches. Make it at least searchable.
nameaddress_vector := array_merge(nameaddress_vector, addr_item.search_tokens);
ELSE
IF parent_address_place_ids is null THEN
SELECT array_agg(parent_place_id) INTO parent_address_place_ids
FROM place_addressline
WHERE place_id = parent_place_id;
END IF;
-- If the parent already lists the place in place_address line, then we
-- are done. Otherwise, add its own place_address line.
IF not parent_address_place_ids @> ARRAY[addr_place.place_id] THEN
nameaddress_vector := array_merge(nameaddress_vector, addr_place.keywords);
INSERT INTO place_addressline (place_id, address_place_id, fromarea,
isaddress, distance, cached_rank_address)
VALUES (obj_place_id, addr_place.place_id, not addr_place.isguess,
true, addr_place.distance, addr_place.rank_address);
END IF;
END IF;
END LOOP;
name_vector := token_get_name_search_tokens(token_info);
-- Check if the parent covers all address terms.
-- If not, create a search name entry with the house number as the name.
-- This is unusual for the search_name table but prevents that the place
-- is returned when we only search for the street/place.
hnr_vector := token_get_housenumber_search_tokens(token_info);
IF hnr_vector is not null and not nameaddress_vector <@ parent_address_vector THEN
name_vector := array_merge(name_vector, hnr_vector);
END IF;
IF is_place_addr THEN
addr_place_ids := token_addr_place_search_tokens(token_info);
IF not addr_place_ids <@ parent_name_vector THEN
-- make sure addr:place terms are always searchable
nameaddress_vector := array_merge(nameaddress_vector, addr_place_ids);
-- If there is a housenumber, also add the place name as a name,
-- so we can search it by the usual housenumber+place algorithms.
IF hnr_vector is not null THEN
name_vector := array_merge(name_vector, addr_place_ids);
END IF;
END IF;
END IF;
-- Cheating here by not recomputing all terms but simply using the ones
-- from the parent object.
nameaddress_vector := array_merge(nameaddress_vector, parent_name_vector);
nameaddress_vector := array_merge(nameaddress_vector, parent_address_vector);
END;
$$
LANGUAGE plpgsql;
-- Insert address of a place into the place_addressline table.
--
-- \param obj_place_id Place_id of the place to compute the address for.
-- \param partition Partition number where the place is in.
-- \param maxrank Rank of the place. All address features must have
-- a search rank lower than the given rank.
-- \param address Address terms for the place.
-- \param geometry Geometry to which the address objects should be close.
--
-- \retval parent_place_id Place_id of the address object that is the direct
-- ancestor.
-- \retval postcode Postcode computed from the address. This is the
-- addr:postcode of one of the address objects. If
-- more than one of has a postcode, the highest ranking
-- one is used. May be NULL.
-- \retval nameaddress_vector Search terms for the address. This is the sum
-- of name terms of all address objects.
CREATE OR REPLACE FUNCTION insert_addresslines(obj_place_id BIGINT,
partition SMALLINT,
maxrank SMALLINT,
token_info JSONB,
geometry GEOMETRY,
centroid GEOMETRY,
country TEXT,
OUT parent_place_id BIGINT,
OUT postcode TEXT,
OUT nameaddress_vector INT[])
AS $$
DECLARE
address_havelevel BOOLEAN[];
location_isaddress BOOLEAN;
current_boundary GEOMETRY := NULL;
current_node_area GEOMETRY := NULL;
parent_place_rank INT := 0;
addr_place_ids BIGINT[] := '{}'::int[];
new_address_vector INT[];
location RECORD;
BEGIN
parent_place_id := 0;
nameaddress_vector := '{}'::int[];
address_havelevel := array_fill(false, ARRAY[maxrank]);
FOR location IN
SELECT apl.*, key
FROM (SELECT extra.*, key
FROM token_get_address_keys(token_info) as key,
LATERAL get_addr_tag_rank(key, country) as extra) x,
LATERAL get_address_place(partition, geometry, from_rank, to_rank,
extent, token_info, key) as apl
ORDER BY rank_address, distance, isguess desc
LOOP
IF location.place_id is null THEN
{% if not db.reverse_only %}
nameaddress_vector := array_merge(nameaddress_vector,
token_get_address_search_tokens(token_info,
location.key));
{% endif %}
ELSE
{% if not db.reverse_only %}
nameaddress_vector := array_merge(nameaddress_vector, location.keywords::INTEGER[]);
{% endif %}
location_isaddress := not address_havelevel[location.rank_address];
IF not address_havelevel[location.rank_address] THEN
address_havelevel[location.rank_address] := true;
IF parent_place_rank < location.rank_address THEN
parent_place_id := location.place_id;
parent_place_rank := location.rank_address;
END IF;
END IF;
INSERT INTO place_addressline (place_id, address_place_id, fromarea,
isaddress, distance, cached_rank_address)
VALUES (obj_place_id, location.place_id, not location.isguess,
true, location.distance, location.rank_address);
addr_place_ids := addr_place_ids || location.place_id;
END IF;
END LOOP;
FOR location IN
SELECT * FROM getNearFeatures(partition, geometry, centroid, maxrank)
WHERE not addr_place_ids @> ARRAY[place_id]
ORDER BY rank_address, isguess asc,
distance *
CASE WHEN rank_address = 16 AND rank_search = 15 THEN 0.2
WHEN rank_address = 16 AND rank_search = 16 THEN 0.25
WHEN rank_address = 16 AND rank_search = 18 THEN 0.5
ELSE 1 END ASC
LOOP
-- Ignore all place nodes that do not fit in a lower level boundary.
CONTINUE WHEN location.isguess
and current_boundary is not NULL
and not ST_Contains(current_boundary, location.centroid);
-- If this is the first item in the rank, then assume it is the address.
location_isaddress := not address_havelevel[location.rank_address];
-- Further sanity checks to ensure that the address forms a sane hierarchy.
IF location_isaddress THEN
IF location.isguess and current_node_area is not NULL THEN
location_isaddress := ST_Contains(current_node_area, location.centroid);
END IF;
IF not location.isguess and current_boundary is not NULL
and location.rank_address != 11 AND location.rank_address != 5 THEN
location_isaddress := ST_Contains(current_boundary, location.centroid);
END IF;
END IF;
IF location_isaddress THEN
address_havelevel[location.rank_address] := true;
parent_place_id := location.place_id;
-- Set postcode if we have one.
-- (Returned will be the highest ranking one.)
IF location.postcode is not NULL THEN
postcode = location.postcode;
END IF;
-- Recompute the areas we need for hierarchy sanity checks.
IF location.rank_address != 11 AND location.rank_address != 5 THEN
IF location.isguess THEN
current_node_area := place_node_fuzzy_area(location.centroid,
location.rank_search);
ELSE
current_node_area := NULL;
SELECT p.geometry FROM placex p
WHERE p.place_id = location.place_id INTO current_boundary;
END IF;
END IF;
END IF;
-- Add it to the list of search terms
{% if not db.reverse_only %}
nameaddress_vector := array_merge(nameaddress_vector,
location.keywords::integer[]);
{% endif %}
INSERT INTO place_addressline (place_id, address_place_id, fromarea,
isaddress, distance, cached_rank_address)
VALUES (obj_place_id, location.place_id, not location.isguess,
location_isaddress, location.distance, location.rank_address);
END LOOP;
END;
$$
LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION placex_insert()
RETURNS TRIGGER
AS $$
DECLARE
postcode TEXT;
result BOOLEAN;
is_area BOOLEAN;
country_code VARCHAR(2);
diameter FLOAT;
classtable TEXT;
BEGIN
{% if debug %}RAISE WARNING '% % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type;{% endif %}
NEW.place_id := nextval('seq_place');
NEW.indexed_status := 1; --STATUS_NEW
NEW.centroid := ST_PointOnSurface(NEW.geometry);
NEW.country_code := lower(get_country_code(NEW.centroid));
NEW.partition := get_partition(NEW.country_code);
NEW.geometry_sector := geometry_sector(NEW.partition, NEW.centroid);
IF NEW.osm_type = 'X' THEN
-- E'X'ternal records should already be in the right format so do nothing
ELSE
is_area := ST_GeometryType(NEW.geometry) IN ('ST_Polygon','ST_MultiPolygon');
IF NEW.class in ('place','boundary')
AND NEW.type in ('postcode','postal_code')
THEN
IF NEW.address IS NULL OR NOT NEW.address ? 'postcode' THEN
-- most likely just a part of a multipolygon postcode boundary, throw it away
RETURN NULL;
END IF;
NEW.name := hstore('ref', NEW.address->'postcode');
ELSEIF NEW.class = 'highway' AND is_area AND NEW.name is null
AND NEW.extratags ? 'area' AND NEW.extratags->'area' = 'yes'
THEN
RETURN NULL;
ELSEIF NEW.class = 'boundary' AND NOT is_area
THEN
RETURN NULL;
ELSEIF NEW.class = 'boundary' AND NEW.type = 'administrative'
AND NEW.admin_level <= 4 AND NEW.osm_type = 'W'
THEN
RETURN NULL;
END IF;
SELECT * INTO NEW.rank_search, NEW.rank_address
FROM compute_place_rank(NEW.country_code,
CASE WHEN is_area THEN 'A' ELSE NEW.osm_type END,
NEW.class, NEW.type, NEW.admin_level,
(NEW.extratags->'capital') = 'yes',
NEW.address->'postcode');
-- a country code make no sense below rank 4 (country)
IF NEW.rank_search < 4 THEN
NEW.country_code := NULL;
END IF;
END IF;
{% if debug %}RAISE WARNING 'placex_insert:END: % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type;{% endif %}
{% if not disable_diff_updates %}
-- The following is not needed until doing diff updates, and slows the main index process down
IF NEW.rank_address > 0 THEN
IF (ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') AND ST_IsValid(NEW.geometry)) THEN
-- Performance: We just can't handle re-indexing for country level changes
IF st_area(NEW.geometry) < 1 THEN
-- mark items within the geometry for re-indexing
-- RAISE WARNING 'placex poly insert: % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type;
UPDATE placex SET indexed_status = 2
WHERE ST_Intersects(NEW.geometry, placex.geometry)
and indexed_status = 0
and ((rank_address = 0 and rank_search > NEW.rank_address)
or rank_address > NEW.rank_address
or (class = 'place' and osm_type = 'N')
)
and (rank_search < 28
or name is not null
or (NEW.rank_address >= 16 and address ? 'place'));
END IF;
ELSE
-- mark nearby items for re-indexing, where 'nearby' depends on the features rank_search and is a complete guess :(
diameter := update_place_diameter(NEW.rank_search);
IF diameter > 0 THEN
-- RAISE WARNING 'placex point insert: % % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type,diameter;
IF NEW.rank_search >= 26 THEN
-- roads may cause reparenting for >27 rank places
update placex set indexed_status = 2 where indexed_status = 0 and rank_search > NEW.rank_search and ST_DWithin(placex.geometry, NEW.geometry, diameter);
-- reparenting also for OSM Interpolation Lines (and for Tiger?)
update location_property_osmline set indexed_status = 2 where indexed_status = 0 and startnumber is not null and ST_DWithin(location_property_osmline.linegeo, NEW.geometry, diameter);
ELSEIF NEW.rank_search >= 16 THEN
-- up to rank 16, street-less addresses may need reparenting
update placex set indexed_status = 2 where indexed_status = 0 and rank_search > NEW.rank_search and ST_DWithin(placex.geometry, NEW.geometry, diameter) and (rank_search < 28 or name is not null or address ? 'place');
ELSE
-- for all other places the search terms may change as well
update placex set indexed_status = 2 where indexed_status = 0 and rank_search > NEW.rank_search and ST_DWithin(placex.geometry, NEW.geometry, diameter) and (rank_search < 28 or name is not null);
END IF;
END IF;
END IF;
END IF;
-- add to tables for special search
-- Note: won't work on initial import because the classtype tables
-- do not yet exist. It won't hurt either.
classtable := 'place_classtype_' || NEW.class || '_' || NEW.type;
SELECT count(*)>0 FROM pg_tables WHERE tablename = classtable and schemaname = current_schema() INTO result;
IF result THEN
EXECUTE 'INSERT INTO ' || classtable::regclass || ' (place_id, centroid) VALUES ($1,$2)'
USING NEW.place_id, ST_Centroid(NEW.geometry);
END IF;
{% endif %} -- not disable_diff_updates
RETURN NEW;
END;
$$
LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION placex_update()
RETURNS TRIGGER
AS $$
DECLARE
i INTEGER;
location RECORD;
relation_members TEXT[];
geom GEOMETRY;
parent_address_level SMALLINT;
place_address_level SMALLINT;
max_rank SMALLINT;
name_vector INTEGER[];
nameaddress_vector INTEGER[];
addr_nameaddress_vector INTEGER[];
linked_place BIGINT;
linked_node_id BIGINT;
linked_importance FLOAT;
linked_wikipedia TEXT;
is_place_address BOOLEAN;
result BOOLEAN;
BEGIN
-- deferred delete
IF OLD.indexed_status = 100 THEN
{% if debug %}RAISE WARNING 'placex_update delete % %',NEW.osm_type,NEW.osm_id;{% endif %}
delete from placex where place_id = OLD.place_id;
RETURN NULL;
END IF;
IF NEW.indexed_status != 0 OR OLD.indexed_status = 0 THEN
RETURN NEW;
END IF;
{% if debug %}RAISE WARNING 'placex_update % % (%)',NEW.osm_type,NEW.osm_id,NEW.place_id;{% endif %}
NEW.indexed_date = now();
{% if 'search_name' in db.tables %}
DELETE from search_name WHERE place_id = NEW.place_id;
{% endif %}
result := deleteSearchName(NEW.partition, NEW.place_id);
DELETE FROM place_addressline WHERE place_id = NEW.place_id;
result := deleteRoad(NEW.partition, NEW.place_id);
result := deleteLocationArea(NEW.partition, NEW.place_id, NEW.rank_search);
NEW.extratags := NEW.extratags - 'linked_place'::TEXT;
-- NEW.linked_place_id contains the precomputed linkee. Save this and restore
-- the previous link status.
linked_place := NEW.linked_place_id;
NEW.linked_place_id := OLD.linked_place_id;
-- Remove linkage, if we have computed a different new linkee.
UPDATE placex SET linked_place_id = null, indexed_status = 2
WHERE linked_place_id = NEW.place_id
and (linked_place is null or linked_place_id != linked_place);
-- update not necessary for osmline, cause linked_place_id does not exist
-- Postcodes are just here to compute the centroids. They are not searchable
-- unless they are a boundary=postal_code.
-- There was an error in the style so that boundary=postal_code used to be
-- imported as place=postcode. That's why relations are allowed to pass here.
-- This can go away in a couple of versions.
IF NEW.class = 'place' and NEW.type = 'postcode' and NEW.osm_type != 'R' THEN
NEW.token_info := null;
RETURN NEW;
END IF;
-- Compute a preliminary centroid.
NEW.centroid := ST_PointOnSurface(NEW.geometry);
-- recalculate country and partition
IF NEW.rank_search = 4 AND NEW.address is not NULL AND NEW.address ? 'country' THEN
-- for countries, believe the mapped country code,
-- so that we remain in the right partition if the boundaries
-- suddenly expand.
NEW.country_code := lower(NEW.address->'country');
NEW.partition := get_partition(lower(NEW.country_code));
IF NEW.partition = 0 THEN
NEW.country_code := lower(get_country_code(NEW.centroid));
NEW.partition := get_partition(NEW.country_code);
END IF;
ELSE
IF NEW.rank_search >= 4 THEN
NEW.country_code := lower(get_country_code(NEW.centroid));
ELSE
NEW.country_code := NULL;
END IF;
NEW.partition := get_partition(NEW.country_code);
END IF;
{% if debug %}RAISE WARNING 'Country updated: "%"', NEW.country_code;{% endif %}
-- recompute the ranks, they might change when linking changes
SELECT * INTO NEW.rank_search, NEW.rank_address
FROM compute_place_rank(NEW.country_code,
CASE WHEN ST_GeometryType(NEW.geometry)
IN ('ST_Polygon','ST_MultiPolygon')
THEN 'A' ELSE NEW.osm_type END,
NEW.class, NEW.type, NEW.admin_level,
(NEW.extratags->'capital') = 'yes',
NEW.address->'postcode');
-- Short-cut out for linked places. Note that this must happen after the
-- address rank has been recomputed. The linking might nullify a shift in
-- address rank.
IF NEW.linked_place_id is not null THEN
NEW.token_info := null;
{% if debug %}RAISE WARNING 'place already linked to %', OLD.linked_place_id;{% endif %}
RETURN NEW;
END IF;
-- We must always increase the address level relative to the admin boundary.
IF NEW.class = 'boundary' and NEW.type = 'administrative'
and NEW.osm_type = 'R' and NEW.rank_address > 0
THEN
-- First, check that admin boundaries do not overtake each other rank-wise.
parent_address_level := 3;
FOR location IN
SELECT rank_address,
(CASE WHEN extratags ? 'wikidata' and NEW.extratags ? 'wikidata'
and extratags->'wikidata' = NEW.extratags->'wikidata'
THEN ST_Equals(geometry, NEW.geometry)
ELSE false END) as is_same
FROM placex
WHERE osm_type = 'R' and class = 'boundary' and type = 'administrative'
and admin_level < NEW.admin_level and admin_level > 3
and rank_address between 1 and 25 -- for index selection
and ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon') -- for index selection
and geometry && NEW.centroid and _ST_Covers(geometry, NEW.centroid)
ORDER BY admin_level desc LIMIT 1
LOOP
IF location.is_same THEN
-- Looks like the same boundary is replicated on multiple admin_levels.
-- Usual tagging in Poland. Remove our boundary from addresses.
NEW.rank_address := 0;
ELSE
parent_address_level := location.rank_address;
IF location.rank_address >= NEW.rank_address THEN
IF location.rank_address >= 24 THEN
NEW.rank_address := 25;
ELSE
NEW.rank_address := location.rank_address + 2;
END IF;
END IF;
END IF;
END LOOP;
IF NEW.rank_address > 9 THEN
-- Second check that the boundary is not completely contained in a
-- place area with a equal or higher address rank.
FOR location IN
SELECT rank_address
FROM placex,
LATERAL compute_place_rank(country_code, 'A', class, type,
admin_level, False, null) prank
WHERE class = 'place' and rank_address between 1 and 23
and prank.address_rank >= NEW.rank_address
and ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon') -- select right index
and geometry && NEW.geometry
and geometry ~ NEW.geometry -- needed because ST_Relate does not do bbox cover test
and ST_Relate(geometry, NEW.geometry, 'T*T***FF*') -- contains but not equal
ORDER BY prank.address_rank desc LIMIT 1
LOOP
NEW.rank_address := location.rank_address + 2;
END LOOP;
END IF;
ELSEIF NEW.class = 'place'
and ST_GeometryType(NEW.geometry) in ('ST_Polygon', 'ST_MultiPolygon')
and NEW.rank_address between 16 and 23
THEN
-- For place areas make sure they are not completely contained in an area
-- with a equal or higher address rank.
FOR location IN
SELECT rank_address
FROM placex,
LATERAL compute_place_rank(country_code, 'A', class, type,
admin_level, False, null) prank
WHERE prank.address_rank < 24
and rank_address between 1 and 25 -- select right index
and ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon') -- select right index
and prank.address_rank >= NEW.rank_address
and geometry && NEW.geometry
and geometry ~ NEW.geometry -- needed because ST_Relate does not do bbox cover test
and ST_Relate(geometry, NEW.geometry, 'T*T***FF*') -- contains but not equal
ORDER BY prank.address_rank desc LIMIT 1
LOOP
NEW.rank_address := location.rank_address + 2;
END LOOP;
ELSEIF NEW.class = 'place' and NEW.osm_type = 'N'
and NEW.rank_address between 16 and 23
THEN
-- If a place node is contained in an admin or place boundary with the same
-- address level and has not been linked, then make the node a subpart
-- by increasing the address rank (city level and above).
FOR location IN
SELECT rank_address
FROM placex,
LATERAL compute_place_rank(country_code, 'A', class, type,
admin_level, False, null) prank
WHERE osm_type = 'R'
and rank_address between 1 and 25 -- select right index
and ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon') -- select right index
and ((class = 'place' and prank.address_rank = NEW.rank_address)
or (class = 'boundary' and rank_address = NEW.rank_address))
and geometry && NEW.centroid and _ST_Covers(geometry, NEW.centroid)
LIMIT 1
LOOP
NEW.rank_address = NEW.rank_address + 2;
END LOOP;
ELSE
parent_address_level := 3;
END IF;
NEW.housenumber := token_normalized_housenumber(NEW.token_info);
NEW.postcode := null;
-- waterway ways are linked when they are part of a relation and have the same class/type
IF NEW.osm_type = 'R' and NEW.class = 'waterway' THEN
FOR relation_members IN select members from planet_osm_rels r where r.id = NEW.osm_id and r.parts != array[]::bigint[]
LOOP
FOR i IN 1..array_upper(relation_members, 1) BY 2 LOOP
IF relation_members[i+1] in ('', 'main_stream', 'side_stream') AND substring(relation_members[i],1,1) = 'w' THEN
{% if debug %}RAISE WARNING 'waterway parent %, child %/%', NEW.osm_id, i, relation_members[i];{% endif %}
FOR linked_node_id IN SELECT place_id FROM placex
WHERE osm_type = 'W' and osm_id = substring(relation_members[i],2,200)::bigint
and class = NEW.class and type in ('river', 'stream', 'canal', 'drain', 'ditch')
and ( relation_members[i+1] != 'side_stream' or NEW.name->'name' = name->'name')
LOOP
UPDATE placex SET linked_place_id = NEW.place_id WHERE place_id = linked_node_id;
{% if 'search_name' in db.tables %}
DELETE FROM search_name WHERE place_id = linked_node_id;
{% endif %}
END LOOP;
END IF;
END LOOP;
END LOOP;
{% if debug %}RAISE WARNING 'Waterway processed';{% endif %}
END IF;
NEW.importance := null;
SELECT wikipedia, importance
FROM compute_importance(NEW.extratags, NEW.country_code, NEW.rank_search, NEW.centroid)
INTO NEW.wikipedia,NEW.importance;
{% if debug %}RAISE WARNING 'Importance computed from wikipedia: %', NEW.importance;{% endif %}
-- ---------------------------------------------------------------------------
-- For low level elements we inherit from our parent road
IF NEW.rank_search > 27 THEN
{% if debug %}RAISE WARNING 'finding street for % %', NEW.osm_type, NEW.osm_id;{% endif %}
NEW.parent_place_id := null;
is_place_address := not token_is_street_address(NEW.token_info);
-- We have to find our parent road.
NEW.parent_place_id := find_parent_for_poi(NEW.osm_type, NEW.osm_id,
NEW.partition,
ST_Envelope(NEW.geometry),
NEW.token_info,
is_place_address);
-- If we found the road take a shortcut here.
-- Otherwise fall back to the full address getting method below.
IF NEW.parent_place_id is not null THEN
-- Get the details of the parent road
SELECT p.country_code, p.postcode, p.name FROM placex p
WHERE p.place_id = NEW.parent_place_id INTO location;
IF is_place_address and NEW.address ? 'place' THEN
-- Check if the addr:place tag is part of the parent name
SELECT count(*) INTO i
FROM svals(location.name) AS pname WHERE pname = NEW.address->'place';
IF i = 0 THEN
NEW.address = NEW.address || hstore('_unlisted_place', NEW.address->'place');
END IF;
END IF;
NEW.country_code := location.country_code;
{% if debug %}RAISE WARNING 'Got parent details from search name';{% endif %}
-- determine postcode
NEW.postcode := coalesce(token_get_postcode(NEW.token_info),
location.postcode,
get_nearest_postcode(NEW.country_code, NEW.centroid));
IF NEW.name is not NULL THEN
NEW.name := add_default_place_name(NEW.country_code, NEW.name);
END IF;
{% if not db.reverse_only %}
IF NEW.name is not NULL OR NEW.address is not NULL THEN
SELECT * INTO name_vector, nameaddress_vector
FROM create_poi_search_terms(NEW.place_id,
NEW.partition, NEW.parent_place_id,
is_place_address, NEW.country_code,
NEW.token_info, NEW.centroid);
IF array_length(name_vector, 1) is not NULL THEN
INSERT INTO search_name (place_id, search_rank, address_rank,
importance, country_code, name_vector,
nameaddress_vector, centroid)
VALUES (NEW.place_id, NEW.rank_search, NEW.rank_address,
NEW.importance, NEW.country_code, name_vector,
nameaddress_vector, NEW.centroid);
{% if debug %}RAISE WARNING 'Place added to search table';{% endif %}
END IF;
END IF;
{% endif %}
NEW.token_info := token_strip_info(NEW.token_info);
RETURN NEW;
END IF;
END IF;
-- ---------------------------------------------------------------------------
-- Full indexing
{% if debug %}RAISE WARNING 'Using full index mode for % %', NEW.osm_type, NEW.osm_id;{% endif %}
IF linked_place is not null THEN
-- Recompute the ranks here as the ones from the linked place might
-- have been shifted to accommodate surrounding boundaries.
SELECT place_id, osm_id, class, type, extratags, rank_search,
centroid, geometry,
(compute_place_rank(country_code, osm_type, class, type, admin_level,
(extratags->'capital') = 'yes', null)).*
INTO location
FROM placex WHERE place_id = linked_place;
{% if debug %}RAISE WARNING 'Linked %', location;{% endif %}
-- Use the linked point as the centre point of the geometry,
-- but only if it is within the area of the boundary.
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;
{% if debug %}RAISE WARNING 'parent address: % rank address: %', parent_address_level, location.address_rank;{% endif %}
IF location.address_rank > parent_address_level
and location.address_rank < 26
THEN
NEW.rank_address := location.address_rank;
END IF;
-- merge in extra tags
NEW.extratags := hstore('linked_' || location.class, location.type)
|| coalesce(location.extratags, ''::hstore)
|| coalesce(NEW.extratags, ''::hstore);
-- mark the linked place (excludes from search results)
-- Force reindexing to remove any traces from the search indexes and
-- reset the address rank if necessary.
UPDATE placex set linked_place_id = NEW.place_id, indexed_status = 2
WHERE place_id = location.place_id;
-- ensure that those places are not found anymore
{% if 'search_name' in db.tables %}
DELETE FROM search_name WHERE place_id = location.place_id;
{% endif %}
PERFORM deleteLocationArea(NEW.partition, location.place_id, NEW.rank_search);
SELECT wikipedia, importance
FROM compute_importance(location.extratags, NEW.country_code,
location.rank_search, NEW.centroid)
INTO linked_wikipedia,linked_importance;
-- Use the maximum importance if one could be computed from the linked object.
IF linked_importance is not null AND
(NEW.importance is null or NEW.importance < linked_importance)
THEN
NEW.importance = linked_importance;
END IF;
ELSE
-- No linked place? As a last resort check if the boundary is tagged with
-- a place type and adapt the rank address.
IF NEW.rank_address between 4 and 25 and NEW.extratags ? 'place' THEN
SELECT address_rank INTO place_address_level
FROM compute_place_rank(NEW.country_code, 'A', 'place',
NEW.extratags->'place', 0::SMALLINT, False, null);
IF place_address_level > parent_address_level and
place_address_level < 26 THEN
NEW.rank_address := place_address_level;
END IF;
END IF;
END IF;
{% if not disable_diff_updates %}
IF OLD.rank_address != NEW.rank_address THEN
-- After a rank shift all addresses containing us must be updated.
UPDATE placex p SET indexed_status = 2 FROM place_addressline pa
WHERE pa.address_place_id = NEW.place_id and p.place_id = pa.place_id
and p.indexed_status = 0 and p.rank_address between 4 and 25;
END IF;
{% endif %}
IF NEW.admin_level = 2
AND NEW.class = 'boundary' AND NEW.type = 'administrative'
AND NEW.country_code IS NOT NULL AND NEW.osm_type = 'R'
THEN
-- Update the list of country names.
-- Only take the name from the largest area for the given country code
-- in the hope that this is the authoritative one.
-- Also replace any old names so that all mapping mistakes can
-- be fixed through regular OSM updates.
FOR location IN
SELECT osm_id FROM placex
WHERE rank_search = 4 and osm_type = 'R'
and country_code = NEW.country_code
ORDER BY ST_Area(geometry) desc
LIMIT 1
LOOP
IF location.osm_id = NEW.osm_id THEN
{% if debug %}RAISE WARNING 'Updating names for country '%' with: %', NEW.country_code, NEW.name;{% endif %}
UPDATE country_name SET derived_name = NEW.name WHERE country_code = NEW.country_code;
END IF;
END LOOP;
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
max_rank := NEW.rank_address;
END IF;
SELECT * FROM insert_addresslines(NEW.place_id, NEW.partition, max_rank,
NEW.token_info, geom, NEW.centroid,
NEW.country_code)
INTO NEW.parent_place_id, NEW.postcode, nameaddress_vector;
{% if debug %}RAISE WARNING 'RETURN insert_addresslines: %, %, %', NEW.parent_place_id, NEW.postcode, nameaddress_vector;{% endif %}
NEW.postcode := coalesce(token_get_postcode(NEW.token_info), NEW.postcode);
-- if we have a name add this to the name search table
IF NEW.name IS NOT NULL THEN
-- Initialise the name vector using our name
NEW.name := add_default_place_name(NEW.country_code, NEW.name);
name_vector := token_get_name_search_tokens(NEW.token_info);
IF NEW.rank_search <= 25 and NEW.rank_address > 0 THEN
result := add_location(NEW.place_id, NEW.country_code, NEW.partition,
name_vector, NEW.rank_search, NEW.rank_address,
NEW.postcode, NEW.geometry, NEW.centroid);
{% if debug %}RAISE WARNING 'added to location (full)';{% endif %}
END IF;
IF NEW.rank_search between 26 and 27 and NEW.class = 'highway' THEN
result := insertLocationRoad(NEW.partition, NEW.place_id, NEW.country_code, NEW.geometry);
{% if debug %}RAISE WARNING 'insert into road location table (full)';{% endif %}
END IF;
IF NEW.rank_address between 16 and 27 THEN
result := insertSearchName(NEW.partition, NEW.place_id,
token_get_name_match_tokens(NEW.token_info),
NEW.rank_search, NEW.rank_address, NEW.geometry);
END IF;
{% if debug %}RAISE WARNING 'added to search name (full)';{% endif %}
{% if not db.reverse_only %}
INSERT INTO search_name (place_id, search_rank, address_rank,
importance, country_code, name_vector,
nameaddress_vector, centroid)
VALUES (NEW.place_id, NEW.rank_search, NEW.rank_address,
NEW.importance, NEW.country_code, name_vector,
nameaddress_vector, NEW.centroid);
{% endif %}
END IF;
IF NEW.postcode is null AND NEW.rank_search > 8
AND (NEW.rank_address > 0
OR ST_GeometryType(NEW.geometry) not in ('ST_LineString','ST_MultiLineString')
OR ST_Length(NEW.geometry) < 0.02)
THEN
NEW.postcode := get_nearest_postcode(NEW.country_code, NEW.geometry);
END IF;
{% if debug %}RAISE WARNING 'place update % % finished.', NEW.osm_type, NEW.osm_id;{% endif %}
NEW.token_info := token_strip_info(NEW.token_info);
RETURN NEW;
END;
$$
LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION placex_delete()
RETURNS TRIGGER
AS $$
DECLARE
b BOOLEAN;
classtable TEXT;
BEGIN
-- RAISE WARNING 'placex_delete % %',OLD.osm_type,OLD.osm_id;
IF OLD.linked_place_id is null THEN
update placex set linked_place_id = null, indexed_status = 2 where linked_place_id = OLD.place_id and indexed_status = 0;
{% if debug %}RAISE WARNING 'placex_delete:01 % %',OLD.osm_type,OLD.osm_id;{% endif %}
update placex set linked_place_id = null where linked_place_id = OLD.place_id;
{% if debug %}RAISE WARNING 'placex_delete:02 % %',OLD.osm_type,OLD.osm_id;{% endif %}
ELSE
update placex set indexed_status = 2 where place_id = OLD.linked_place_id and indexed_status = 0;
END IF;
IF OLD.rank_address < 30 THEN
-- mark everything linked to this place for re-indexing
{% if debug %}RAISE WARNING 'placex_delete:03 % %',OLD.osm_type,OLD.osm_id;{% endif %}
UPDATE placex set indexed_status = 2 from place_addressline where address_place_id = OLD.place_id
and placex.place_id = place_addressline.place_id and indexed_status = 0 and place_addressline.isaddress;
{% if debug %}RAISE WARNING 'placex_delete:04 % %',OLD.osm_type,OLD.osm_id;{% endif %}
DELETE FROM place_addressline where address_place_id = OLD.place_id;
{% if debug %}RAISE WARNING 'placex_delete:05 % %',OLD.osm_type,OLD.osm_id;{% endif %}
b := deleteRoad(OLD.partition, OLD.place_id);
{% if debug %}RAISE WARNING 'placex_delete:06 % %',OLD.osm_type,OLD.osm_id;{% endif %}
update placex set indexed_status = 2 where parent_place_id = OLD.place_id and indexed_status = 0;
{% if debug %}RAISE WARNING 'placex_delete:07 % %',OLD.osm_type,OLD.osm_id;{% endif %}
-- reparenting also for OSM Interpolation Lines (and for Tiger?)
update location_property_osmline set indexed_status = 2 where indexed_status = 0 and parent_place_id = OLD.place_id;
END IF;
{% if debug %}RAISE WARNING 'placex_delete:08 % %',OLD.osm_type,OLD.osm_id;{% endif %}
IF OLD.rank_address < 26 THEN
b := deleteLocationArea(OLD.partition, OLD.place_id, OLD.rank_search);
END IF;
{% if debug %}RAISE WARNING 'placex_delete:09 % %',OLD.osm_type,OLD.osm_id;{% endif %}
IF OLD.name is not null THEN
{% if 'search_name' in db.tables %}
DELETE from search_name WHERE place_id = OLD.place_id;
{% endif %}
b := deleteSearchName(OLD.partition, OLD.place_id);
END IF;
{% if debug %}RAISE WARNING 'placex_delete:10 % %',OLD.osm_type,OLD.osm_id;{% endif %}
DELETE FROM place_addressline where place_id = OLD.place_id;
{% if debug %}RAISE WARNING 'placex_delete:11 % %',OLD.osm_type,OLD.osm_id;{% endif %}
-- remove from tables for special search
classtable := 'place_classtype_' || OLD.class || '_' || OLD.type;
SELECT count(*)>0 FROM pg_tables WHERE tablename = classtable and schemaname = current_schema() INTO b;
IF b THEN
EXECUTE 'DELETE FROM ' || classtable::regclass || ' WHERE place_id = $1' USING OLD.place_id;
END IF;
{% if debug %}RAISE WARNING 'placex_delete:12 % %',OLD.osm_type,OLD.osm_id;{% endif %}
RETURN OLD;
END;
$$
LANGUAGE plpgsql;
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