---DROP TRIGGER IF EXISTS place_before_insert on placex;
---DROP TRIGGER IF EXISTS place_before_update on placex;
---CREATE TYPE addresscalculationtype AS (
--- word text,
--- score integer
---);
-
-CREATE OR REPLACE FUNCTION getclasstypekey(c text, t text) RETURNS TEXT
- AS $$
-DECLARE
-BEGIN
- RETURN c||'|'||t;
-END;
-$$
-LANGUAGE plpgsql IMMUTABLE;
-
-CREATE OR REPLACE FUNCTION isbrokengeometry(place geometry) RETURNS BOOLEAN
- AS $$
-DECLARE
- NEWgeometry geometry;
-BEGIN
- NEWgeometry := place;
- IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN
- RETURN true;
- END IF;
- RETURN false;
-END;
-$$
-LANGUAGE plpgsql IMMUTABLE;
-
-CREATE OR REPLACE FUNCTION clean_geometry(place geometry) RETURNS geometry
- AS $$
-DECLARE
- NEWgeometry geometry;
-BEGIN
- NEWgeometry := place;
- IF ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN
- NEWgeometry := ST_buffer(NEWgeometry,0);
- IF ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN
- RETURN ST_SetSRID(ST_Point(0,0),4326);
- END IF;
- END IF;
- RETURN NEWgeometry;
-END;
-$$
-LANGUAGE plpgsql IMMUTABLE;
-
CREATE OR REPLACE FUNCTION geometry_sector(partition INTEGER, place geometry) RETURNS INTEGER
AS $$
DECLARE
BEGIN
-- RAISE WARNING '%',place;
NEWgeometry := ST_PointOnSurface(place);
--- IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN
--- NEWgeometry := ST_buffer(NEWgeometry,0);
--- IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN
--- RETURN 0;
--- END IF;
--- END IF;
RETURN (partition*1000000) + (500-ST_X(NEWgeometry)::integer)*1000 + (500-ST_Y(NEWgeometry)::integer);
END;
$$
$$
LANGUAGE plpgsql;
-CREATE OR REPLACE FUNCTION getorcreate_tagpair(lookup_class text, lookup_type text)
- RETURNS INTEGER
- AS $$
-DECLARE
- lookup_token TEXT;
- return_word_id INTEGER;
-BEGIN
- lookup_token := lookup_class||'='||lookup_type;
- SELECT min(word_id) FROM word WHERE word_token = lookup_token into return_word_id;
- IF return_word_id IS NULL THEN
- return_word_id := nextval('seq_word');
- INSERT INTO word VALUES (return_word_id, lookup_token, null, null, null, null, 0);
- END IF;
- RETURN return_word_id;
-END;
-$$
-LANGUAGE plpgsql;
-
-CREATE OR REPLACE FUNCTION get_tagpair(lookup_class text, lookup_type text)
- RETURNS INTEGER
- AS $$
-DECLARE
- lookup_token TEXT;
- return_word_id INTEGER;
-BEGIN
- lookup_token := lookup_class||'='||lookup_type;
- SELECT min(word_id) FROM word WHERE word_token = lookup_token into return_word_id;
- RETURN return_word_id;
-END;
-$$
-LANGUAGE plpgsql;
-
CREATE OR REPLACE FUNCTION getorcreate_amenityoperator(lookup_word TEXT, lookup_class text, lookup_type text, op text)
RETURNS INTEGER
AS $$
$$
LANGUAGE plpgsql IMMUTABLE;
-CREATE OR REPLACE FUNCTION get_word_score(wordscores wordscore[], words text[]) RETURNS integer
- AS $$
-DECLARE
- idxword integer;
- idxscores integer;
- result integer;
-BEGIN
- IF (wordscores is null OR words is null) THEN
- RETURN 0;
- END IF;
-
- result := 0;
- FOR idxword in 1 .. array_upper(words, 1) LOOP
- FOR idxscores in 1 .. array_upper(wordscores, 1) LOOP
- IF wordscores[idxscores].word = words[idxword] THEN
- result := result + wordscores[idxscores].score;
- END IF;
- END LOOP;
- END LOOP;
-
- RETURN result;
-END;
-$$
-LANGUAGE plpgsql IMMUTABLE;
-
CREATE OR REPLACE FUNCTION get_country_code(place geometry) RETURNS TEXT
AS $$
DECLARE
RETURN nearcountry.country_code;
END LOOP;
- -- WorldBoundaries data (second fallback - think there might be something broken in this data)
--- FOR nearcountry IN select country_code from country where st_covers(geometry, place_centre) limit 1
--- LOOP
--- RETURN nearcountry.country_code;
--- END LOOP;
-
---RAISE WARNING 'near country: %', ST_AsText(place_centre);
-
- -- Still not in a country - try nearest within ~12 miles of a country
--- FOR nearcountry IN select country_code from country where st_distance(geometry, place_centre) < 0.5
--- order by st_distance(geometry, place) limit 1
--- LOOP
--- RETURN nearcountry.country_code;
--- END LOOP;
-
RETURN NULL;
END;
$$
x := insertLocationAreaLarge(partition, place_id, country_code, keywords, rank_search, rank_address, false, centroid, secgeo);
END LOOP;
- ELSEIF rank_search < 26 THEN
+ ELSE
diameter := 0.02;
IF rank_address = 0 THEN
secgeo := ST_Buffer(geometry, diameter);
x := insertLocationAreaLarge(partition, place_id, country_code, keywords, rank_search, rank_address, true, ST_Centroid(geometry), secgeo);
- ELSE
-
- -- ~ 20meters
- secgeo := ST_Buffer(geometry, 0.0002);
- x := insertLocationAreaRoadNear(partition, place_id, country_code, keywords, rank_search, rank_address, true, ST_Centroid(geometry), secgeo);
-
- -- ~ 100meters
- secgeo := ST_Buffer(geometry, 0.001);
- x := insertLocationAreaRoadFar(partition, place_id, country_code, keywords, rank_search, rank_address, true, ST_Centroid(geometry), secgeo);
-
END IF;
RETURN true;
$$
LANGUAGE plpgsql;
-CREATE OR REPLACE FUNCTION update_location(
- partition INTEGER,
- place_id BIGINT,
- place_country_code varchar(2),
- name hstore,
- rank_search INTEGER,
- rank_address INTEGER,
- geometry GEOMETRY
- )
- RETURNS BOOLEAN
- AS $$
-DECLARE
- b BOOLEAN;
-BEGIN
- b := deleteLocationArea(partition, place_id, rank_search);
--- result := add_location(NEW.place_id, NEW.country_code, NEW.partition, name_vector, NEW.rank_search, NEW.rank_address, NEW.geometry);
- RETURN add_location(place_id, place_country_code, name, rank_search, rank_address, geometry);
-END;
-$$
-LANGUAGE plpgsql;
-
-CREATE OR REPLACE FUNCTION search_name_add_words(parent_place_id BIGINT, to_add INTEGER[])
- RETURNS BOOLEAN
- AS $$
-DECLARE
- childplace RECORD;
-BEGIN
- IF #to_add = 0 THEN
- RETURN true;
- END IF;
- -- this should just be an update, but it seems to do insane things to the index size (delete and insert doesn't)
- FOR childplace IN select * from search_name,place_addressline
- where address_place_id = parent_place_id
- and search_name.place_id = place_addressline.place_id
- LOOP
- delete from search_name where place_id = childplace.place_id;
- IF not (ARRAY[to_add] <@ childplace.nameaddress_vector) THEN
- childplace.nameaddress_vector := childplace.nameaddress_vector || to_add;
- END IF;
- IF childplace.place_id = parent_place_id and not (ARRAY[to_add] <@ childplace.name_vector) THEN
- childplace.name_vector := childplace.name_vector || to_add;
- END IF;
- insert into search_name (place_id, search_rank, address_rank, country_code, name_vector, nameaddress_vector, centroid)
- values (childplace.place_id, childplace.search_rank, childplace.address_rank, childplace.country_code,
- childplace.name_vector, childplace.nameaddress_vector, childplace.centroid);
- END LOOP;
+-- find the parant road of an interpolation
+CREATE OR REPLACE FUNCTION get_interpolation_parent(wayid BIGINT, street TEXT, place TEXT,
+ partition INTEGER, centroid GEOMETRY, geom GEOMETRY)
+RETURNS BIGINT AS $$
+DECLARE
+ addr_street TEXT;
+ addr_place TEXT;
+ parent_place_id BIGINT;
+ address_street_word_ids INTEGER[];
- RETURN true;
-END;
-$$
-LANGUAGE plpgsql;
+ waynodes BIGINT[];
-CREATE OR REPLACE FUNCTION update_location_nameonly(partition INTEGER, OLD_place_id BIGINT, name hstore) RETURNS BOOLEAN
- AS $$
-DECLARE
- newkeywords INTEGER[];
- addedkeywords INTEGER[];
- removedkeywords INTEGER[];
+ location RECORD;
BEGIN
+ addr_street = street;
+ addr_place = place;
+
+ IF addr_street is null and addr_place is null THEN
+ select nodes from planet_osm_ways where id = wayid INTO waynodes;
+ FOR location IN SELECT placex.street, placex.addr_place from placex
+ where osm_type = 'N' and osm_id = ANY(waynodes)
+ and (placex.street is not null or placex.addr_place is not null)
+ and indexed_status < 100
+ limit 1 LOOP
+ addr_street = location.street;
+ addr_place = location.addr_place;
+ END LOOP;
+ END IF;
- -- what has changed?
- newkeywords := make_keywords(name);
- select coalesce(newkeywords,'{}'::INTEGER[]) - coalesce(location_point.keywords,'{}'::INTEGER[]),
- coalesce(location_point.keywords,'{}'::INTEGER[]) - coalesce(newkeywords,'{}'::INTEGER[]) from location_point
- where place_id = OLD_place_id into addedkeywords, removedkeywords;
+ IF addr_street IS NOT NULL THEN
+ address_street_word_ids := get_name_ids(make_standard_name(addr_street));
+ IF address_street_word_ids IS NOT NULL THEN
+ FOR location IN SELECT place_id from getNearestNamedRoadFeature(partition, centroid, address_street_word_ids) LOOP
+ parent_place_id := location.place_id;
+ END LOOP;
+ END IF;
+ END IF;
--- RAISE WARNING 'update_location_nameonly for %: new:% added:% removed:%', OLD_place_id, newkeywords, addedkeywords, removedkeywords;
+ IF parent_place_id IS NULL AND addr_place IS NOT NULL THEN
+ address_street_word_ids := get_name_ids(make_standard_name(addr_place));
+ IF address_street_word_ids IS NOT NULL THEN
+ FOR location IN SELECT place_id from getNearestNamedPlaceFeature(partition, centroid, address_street_word_ids) LOOP
+ parent_place_id := location.place_id;
+ END LOOP;
+ END IF;
+ END IF;
- IF #removedkeywords > 0 THEN
- -- abort due to tokens removed
- RETURN false;
+ IF parent_place_id is null THEN
+ FOR location IN SELECT place_id FROM placex
+ WHERE ST_DWithin(geom, placex.geometry, 0.001) and placex.rank_search = 26
+ ORDER BY (ST_distance(placex.geometry, ST_LineInterpolatePoint(geom,0))+
+ ST_distance(placex.geometry, ST_LineInterpolatePoint(geom,0.5))+
+ ST_distance(placex.geometry, ST_LineInterpolatePoint(geom,1))) ASC limit 1
+ LOOP
+ parent_place_id := location.place_id;
+ END LOOP;
END IF;
-
- IF #addedkeywords > 0 THEN
- -- short circuit - no changes
- RETURN true;
+
+ IF parent_place_id is null THEN
+ RETURN 0;
END IF;
- UPDATE location_area set keywords = newkeywords where place_id = OLD_place_id;
- RETURN search_name_add_words(OLD_place_id, addedkeywords);
+ RETURN parent_place_id;
END;
$$
LANGUAGE plpgsql;
-
-CREATE OR REPLACE FUNCTION create_interpolation(wayid BIGINT, interpolationtype TEXT) RETURNS INTEGER
+CREATE OR REPLACE FUNCTION create_interpolation(wayid BIGINT, interpolationtype TEXT,
+ parent_id BIGINT, partition INTEGER,
+ country_code TEXT, geometry_sector INTEGER,
+ defpostalcode TEXT, geom GEOMETRY) RETURNS INTEGER
AS $$
DECLARE
linegeo GEOMETRY;
splitline GEOMETRY;
sectiongeo GEOMETRY;
- search_place_id BIGINT;
- defpostalcode TEXT;
+ pointgeo GEOMETRY;
BEGIN
+ delete from placex where osm_type = 'W' and osm_id = wayid
+ and class = 'place' and type = 'address';
+
IF interpolationtype = 'odd' OR interpolationtype = 'even' THEN
stepsize := 2;
ELSEIF interpolationtype = 'all' THEN
RETURN 0;
END IF;
- select postcode, geometry from placex where osm_type = 'W' and osm_id = wayid
- INTO defpostalcode, linegeo;
-
- IF ST_GeometryType(linegeo) != 'ST_LineString' THEN
- RETURN 0;
- END IF;
-
+ linegeo := geom;
startnumber := NULL;
newpoints := 0;
-- it is guaranteed to be the original node. For place/house types use the
-- one with the smallest id because the original node was created first.
-- Ignore all nodes marked for deletion. (Might happen when the type changes.)
- select place_id from placex where osm_type = 'N' and osm_id = waynodes[nodeidpos]::BIGINT and indexed_status < 100 order by (type = 'house'),place_id limit 1 INTO search_place_id;
- IF search_place_id IS NOT NULL THEN
- select * from placex where place_id = search_place_id INTO nextnode;
+ select * from placex where osm_type = 'N' and osm_id = waynodes[nodeidpos]::BIGINT
+ and indexed_status < 100 and housenumber is not NULL
+ order by (type = 'address'),place_id limit 1 INTO nextnode;
+ IF nextnode.place_id IS NOT NULL THEN
- IF nodeidpos < array_upper(waynodes, 1) THEN
+ IF nodeidpos > 1 and nodeidpos < array_upper(waynodes, 1) THEN
-- Make sure that the point is actually on the line. That might
-- be a bit paranoid but ensures that the algorithm still works
-- should osm2pgsql attempt to repair geometries.
splitline := split_line_on_node(linegeo, nextnode.geometry);
sectiongeo := ST_GeometryN(splitline, 1);
- IF ST_GeometryType(ST_GeometryN(splitline, 2)) = 'ST_LineString' THEN
- linegeo := ST_GeometryN(splitline, 2);
- END IF;
+ linegeo := ST_GeometryN(splitline, 2);
ELSE
sectiongeo = linegeo;
END IF;
IF startnumber IS NOT NULL AND endnumber IS NOT NULL
AND @(startnumber - endnumber) < 1000 AND startnumber != endnumber
- AND ST_GeometryType(linegeo) = 'ST_LineString' THEN
+ AND ST_GeometryType(sectiongeo) = 'ST_LineString' THEN
IF (startnumber > endnumber) THEN
housenum := endnumber;
startnumber := startnumber + stepsize;
-- correct for odd/even
- IF (interpolationtype = 'odd' AND startnumber%2 = 0) OR (interpolationtype = 'even' AND startnumber%2 = 1) THEN
+ IF (interpolationtype = 'odd' AND startnumber%2 = 0)
+ OR (interpolationtype = 'even' AND startnumber%2 = 1) THEN
startnumber := startnumber - 1;
END IF;
endnumber := endnumber - 1;
- delete from placex where osm_type = 'N' and osm_id = prevnode.osm_id and type = 'house' and place_id != prevnode.place_id;
+ -- keep for compatibility with previous versions
+ delete from placex where osm_type = 'N' and osm_id = prevnode.osm_id
+ and place_id != prevnode.place_id and class = 'place'
+ and type = 'house';
FOR housenum IN startnumber..endnumber BY stepsize LOOP
- -- this should really copy postcodes but it puts a huge burden on
- -- the system for no big benefit ideally postcodes should move up to the way
- insert into placex (osm_type, osm_id, class, type, admin_level,
- housenumber, street, addr_place, isin, postcode,
- country_code, parent_place_id, rank_address, rank_search,
- indexed_status, geometry)
- values ('N', prevnode.osm_id, 'place', 'house', prevnode.admin_level,
- housenum, prevnode.street, prevnode.addr_place, prevnode.isin, coalesce(prevnode.postcode, defpostalcode),
- prevnode.country_code, prevnode.parent_place_id, prevnode.rank_address, prevnode.rank_search,
- 1, ST_LineInterpolatePoint(sectiongeo, (housenum::float-orginalstartnumber::float)/originalnumberrange::float));
+ pointgeo := ST_LineInterpolatePoint(sectiongeo, (housenum::float-orginalstartnumber::float)/originalnumberrange::float);
+ insert into placex (place_id, partition, osm_type, osm_id,
+ class, type, admin_level, housenumber,
+ postcode,
+ country_code, parent_place_id, rank_address, rank_search,
+ indexed_status, indexed_date, geometry_sector,
+ calculated_country_code, centroid, geometry)
+ values (nextval('seq_place'), partition, 'W', wayid,
+ 'place', 'address', prevnode.admin_level, housenum,
+ coalesce(prevnode.postcode, defpostalcode),
+ prevnode.country_code, parent_id, 30, 30,
+ 0, now(), geometry_sector, country_code,
+ pointgeo, pointgeo);
newpoints := newpoints + 1;
--RAISE WARNING 'interpolation number % % ',prevnode.place_id,housenum;
END LOOP;
END IF;
+ -- early break if we are out of line string,
+ -- might happen when a line string loops back on itself
+ IF ST_GeometryType(linegeo) != 'ST_LineString' THEN
+ RETURN newpoints;
+ END IF;
+
startnumber := substring(nextnode.housenumber,'[0-9]+')::integer;
prevnode := nextnode;
END IF;
BEGIN
--DEBUG: RAISE WARNING '% %',NEW.osm_type,NEW.osm_id;
- -- just block these
- IF NEW.class in ('landuse','natural') and NEW.name is null THEN
--- RAISE WARNING 'empty landuse %',NEW.osm_id;
- RETURN null;
+ -- ignore interpolated addresses
+ IF NEW.class = 'place' and NEW.type = 'address' THEN
+ RETURN NEW;
END IF;
IF ST_IsEmpty(NEW.geometry) OR NOT ST_IsValid(NEW.geometry) OR ST_X(ST_Centroid(NEW.geometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEW.geometry))::text in ('NaN','Infinity','-Infinity') THEN
-- block all invalid geometary - just not worth the risk. seg faults are causing serious problems.
RAISE WARNING 'invalid geometry %',NEW.osm_id;
RETURN NULL;
-
- -- Dead code
- IF NEW.osm_type = 'R' THEN
- -- invalid multipolygons can crash postgis, don't even bother to try!
- RETURN NULL;
- END IF;
- NEW.geometry := ST_buffer(NEW.geometry,0);
- IF ST_IsEmpty(NEW.geometry) OR NOT ST_IsValid(NEW.geometry) OR ST_X(ST_Centroid(NEW.geometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEW.geometry))::text in ('NaN','Infinity','-Infinity') THEN
- RAISE WARNING 'Invalid geometary, rejecting: % %', NEW.osm_type, NEW.osm_id;
- RETURN NULL;
- END IF;
END IF;
--DEBUG: RAISE WARNING '% % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type;
NEW.rank_address := NEW.rank_search;
ELSEIF NEW.type in ('houses') THEN
-- can't guarantee all required nodes loaded yet due to caching in osm2pgsql
- -- insert new point into place for each derived building
- --i := create_interpolation(NEW.osm_id, NEW.housenumber);
NEW.rank_search := 28;
NEW.rank_address := 0;
END IF;
ELSEIF NEW.class = 'natural' and NEW.type = 'sea' THEN
NEW.rank_search := 4;
NEW.rank_address := NEW.rank_search;
- ELSEIF NEW.class = 'natural' and NEW.type in ('coastline') THEN
- RETURN NULL;
-- any feature more than 5 square miles is probably worth indexing
ELSEIF ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') AND ST_Area(NEW.geometry) > 0.1 THEN
NEW.rank_search := 22;
- NEW.rank_address := NEW.rank_search;
- ELSEIF NEW.class = 'highway' AND NEW.name is NULL AND
- NEW.type in ('service','cycleway','path','footway','steps','bridleway','track','byway','motorway_link','primary_link','trunk_link','secondary_link','tertiary_link') THEN
--- RAISE WARNING 'unnamed minor feature %',NEW.osm_id;
- RETURN NULL;
+ NEW.rank_address := 0;
ELSEIF NEW.class = 'railway' AND NEW.type in ('rail') THEN
RETURN NULL;
- ELSEIF NEW.class = 'waterway' AND NEW.name is NULL THEN
- RETURN NULL;
ELSEIF NEW.class = 'waterway' THEN
IF NEW.osm_type = 'R' THEN
NEW.rank_search := 16;
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.
USING NEW.place_id, ST_Centroid(NEW.geometry);
END IF;
-
--- IF NEW.rank_search < 26 THEN
--- RAISE WARNING 'placex insert: % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type;
--- END IF;
-
RETURN NEW;
END;
search_maxdistance FLOAT[];
search_mindistance FLOAT[];
address_havelevel BOOLEAN[];
--- search_scores wordscore[];
--- search_scores_pos INTEGER;
i INTEGER;
iMax FLOAT;
location_distance FLOAT;
location_parent GEOMETRY;
location_isaddress BOOLEAN;
-
- tagpairid INTEGER;
+ location_keywords INTEGER[];
default_language TEXT;
name_vector INTEGER[];
RETURN NEW;
END IF;
+ -- ignore interpolated addresses
+ IF NEW.class = 'place' and NEW.type = 'address' THEN
+ RETURN NEW;
+ END IF;
+
--DEBUG: RAISE WARNING 'placex_update % %',NEW.osm_type,NEW.osm_id;
--RAISE WARNING '%',NEW.place_id;
result := deleteSearchName(NEW.partition, NEW.place_id);
DELETE FROM place_addressline WHERE place_id = NEW.place_id;
- DELETE FROM place_boundingbox where place_id = NEW.place_id;
result := deleteRoad(NEW.partition, NEW.place_id);
result := deleteLocationArea(NEW.partition, NEW.place_id, NEW.rank_search);
UPDATE placex set linked_place_id = null where linked_place_id = NEW.place_id;
RETURN NEW;
END IF;
- IF NEW.class = 'place' AND NEW.type = 'houses' THEN
- i := create_interpolation(NEW.osm_id, NEW.housenumber);
- RETURN NEW;
- END IF;
-
-- Speed up searches - just use the centroid of the feature
-- cheaper but less acurate
place_centroid := ST_PointOnSurface(NEW.geometry);
NEW.centroid := null;
- -- reclaculate country and partition
+ -- recalculate country and partition
IF NEW.rank_search = 4 THEN
-- for countries, believe the mapped country code,
-- so that we remain in the right partition if the boundaries
END IF;
NEW.geometry_sector := geometry_sector(NEW.partition, place_centroid);
+ -- interpolations
+ IF NEW.class = 'place' AND NEW.type = 'houses'THEN
+ IF NEW.osm_type = 'W' and ST_GeometryType(NEW.geometry) = 'ST_LineString' THEN
+ NEW.parent_place_id := get_interpolation_parent(NEW.osm_id, NEW.street, NEW.addr_place,
+ NEW.partition, place_centroid, NEW.geometry);
+ i := create_interpolation(NEW.osm_id, NEW.housenumber, NEW.parent_place_id,
+ NEW.partition, NEW.calculated_country_code,
+ NEW.geometry_sector, NEW.postcode, NEW.geometry);
+ END IF;
+ RETURN NEW;
+ END IF;
+
-- 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 IN select * from planet_osm_rels r where r.id = NEW.osm_id and r.parts != array[]::bigint[]
+ 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
- --DEBUG: RAISE WARNING 'waterway parent %, child %/%', NEW.osm_id, i, relation.parts[i];
- FOR location IN SELECT * FROM placex
- WHERE osm_type = 'W' and osm_id = substring(relation.members[i],2,200)::bigint
+ 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
+ --DEBUG: RAISE WARNING 'waterway parent %, child %/%', NEW.osm_id, i, relation.members[i];
+ 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 = NEW.type
- and ( relation.members[i+1] != 'side_stream' or NEW.name->'name' = name->'name')
+ 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 = location.place_id;
+ UPDATE placex SET linked_place_id = NEW.place_id WHERE place_id = linked_node_id;
END LOOP;
END IF;
END LOOP;
name_vector := make_keywords(NEW.name);
nameaddress_vector := '{}'::int[];
- -- some tag combinations add a special id for search
- tagpairid := get_tagpair(NEW.class,NEW.type);
- IF tagpairid IS NOT NULL THEN
- name_vector := name_vector + tagpairid;
- END IF;
-
FOR i IN 1..28 LOOP
address_havelevel[i] := false;
END LOOP;
NEW.parent_place_id := null;
- -- to do that we have to find our parent road
- -- Copy data from linked items (points on ways, addr:street links, relations)
- -- Note that addr:street links can only be indexed once the street itself is indexed
- IF NEW.parent_place_id IS NULL AND NEW.osm_type = 'N' THEN
+ -- if we have a POI and there is no address information,
+ -- see if we can get it from a surrounding building
+ IF NEW.osm_type = 'N' AND NEW.street IS NULL AND NEW.addr_place IS NULL
+ AND NEW.housenumber IS NULL THEN
+ FOR location IN select * from placex where ST_Covers(geometry, place_centroid)
+ and (housenumber is not null or street is not null or addr_place is not null)
+ and rank_search > 28 AND ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon')
+ limit 1
+ LOOP
+ NEW.housenumber := location.housenumber;
+ NEW.street := location.street;
+ NEW.addr_place := location.addr_place;
+ END LOOP;
+ END IF;
- -- if there is no address information, see if we can get it from a surrounding building
- IF NEW.street IS NULL AND NEW.addr_place IS NULL AND NEW.housenumber IS NULL THEN
- FOR location IN select * from placex where ST_Covers(geometry, place_centroid) and rank_search > 28 and (housenumber is not null or street is not null or addr_place is not null) AND ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon')
- LOOP
- NEW.housenumber := location.housenumber;
- NEW.street := location.street;
- NEW.addr_place := location.addr_place;
- END LOOP;
- END IF;
+ -- We have to find our parent road.
+ -- Copy data from linked items (points on ways, addr:street links, relations)
- -- Is this node part of a relation?
- FOR relation IN select * from planet_osm_rels where parts @> ARRAY[NEW.osm_id] and members @> ARRAY['n'||NEW.osm_id]
+ -- Is this object part of a relation?
+ FOR relation IN select * from planet_osm_rels where parts @> ARRAY[NEW.osm_id] and members @> ARRAY[lower(NEW.osm_type)||NEW.osm_id]
LOOP
-- At the moment we only process one type of relation - associatedStreet
- IF relation.tags @> ARRAY['associatedStreet'] AND array_upper(relation.members, 1) IS NOT NULL THEN
+ IF relation.tags @> ARRAY['associatedStreet'] THEN
FOR i IN 1..array_upper(relation.members, 1) BY 2 LOOP
IF NEW.parent_place_id IS NULL AND relation.members[i+1] = 'street' THEN
--RAISE WARNING 'node in relation %',relation;
- SELECT place_id from placex where osm_type='W' and osm_id = substring(relation.members[i],2,200)::bigint
+ SELECT place_id from placex where osm_type = 'W'
+ and osm_id = substring(relation.members[i],2,200)::bigint
and rank_search = 26 and name is not null INTO NEW.parent_place_id;
END IF;
END LOOP;
END IF;
- END LOOP;
+ END LOOP;
+
+
+ -- Note that addr:street links can only be indexed once the street itself is indexed
+ IF NEW.parent_place_id IS NULL AND NEW.street IS NOT NULL THEN
+ address_street_word_ids := get_name_ids(make_standard_name(NEW.street));
+ IF address_street_word_ids IS NOT NULL THEN
+ FOR location IN SELECT * from getNearestNamedRoadFeature(NEW.partition, place_centroid, address_street_word_ids) LOOP
+ NEW.parent_place_id := location.place_id;
+ END LOOP;
+ END IF;
+ END IF;
+
+ IF NEW.parent_place_id IS NULL AND NEW.addr_place IS NOT NULL THEN
+ address_street_word_ids := get_name_ids(make_standard_name(NEW.addr_place));
+ IF address_street_word_ids IS NOT NULL THEN
+ FOR location IN SELECT * from getNearestNamedPlaceFeature(NEW.partition, place_centroid, address_street_word_ids) LOOP
+ NEW.parent_place_id := location.place_id;
+ END LOOP;
+ END IF;
+ END IF;
+
+ IF NEW.parent_place_id IS NULL AND NEW.osm_type = 'N' THEN
--RAISE WARNING 'x1';
-- Is this node part of a way?
- FOR way IN select id from planet_osm_ways where nodes @> ARRAY[NEW.osm_id] LOOP
---RAISE WARNING '%', way;
- FOR location IN select * from placex where osm_type = 'W' and osm_id = way.id
+ FOR location IN select p.* from placex p, planet_osm_ways w
+ where p.osm_type = 'W' and p.rank_search >= 26
+ and p.geometry && NEW.geometry and p.osm_id = w.id and NEW.osm_id = any(w.nodes)
LOOP
--RAISE WARNING '%', location;
-- Way IS a road then we are on it - that must be our road
NEW.parent_place_id := location.place_id;
END IF;
+ -- If this way is a street interpolation line then it is probably as good as we are going to get
+ IF NEW.parent_place_id IS NULL AND location.class = 'place' and location.type='houses' THEN
+ NEW.parent_place_id := location.parent_place_id;
+ END IF;
+
-- Is the WAY part of a relation
IF NEW.parent_place_id IS NULL THEN
FOR relation IN select * from planet_osm_rels where parts @> ARRAY[location.osm_id] and members @> ARRAY['w'||location.osm_id]
END LOOP;
END IF;
END LOOP;
- END IF;
-
- -- If the way contains an explicit name of a street copy it
- -- Slightly less strict then above because data is copied from any object.
- IF NEW.street IS NULL AND NEW.addr_place IS NULL THEN
---RAISE WARNING 'node in way that has a streetname %',location;
- NEW.street := location.street;
- NEW.addr_place := location.addr_place;
END IF;
- -- If this way is a street interpolation line then it is probably as good as we are going to get
- IF NEW.parent_place_id IS NULL AND NEW.street IS NULL AND NEW.addr_place IS NULL AND location.class = 'place' and location.type='houses' THEN
- -- Try and find a way that is close roughly parellel to this line
- FOR relation IN SELECT place_id FROM placex
- WHERE ST_DWithin(location.geometry, placex.geometry, 0.001) and placex.rank_search = 26
- and st_geometrytype(location.geometry) in ('ST_LineString')
- ORDER BY (ST_distance(placex.geometry, ST_LineInterpolatePoint(location.geometry,0))+
- ST_distance(placex.geometry, ST_LineInterpolatePoint(location.geometry,0.5))+
- ST_distance(placex.geometry, ST_LineInterpolatePoint(location.geometry,1))) ASC limit 1
- LOOP
---RAISE WARNING 'using nearest street to address interpolation line,0.001 %',relation;
- NEW.parent_place_id := relation.place_id;
- END LOOP;
+ -- If the way mentions a street or place address, try that for parenting.
+ IF NEW.parent_place_id IS NULL AND location.street IS NOT NULL THEN
+ address_street_word_ids := get_name_ids(make_standard_name(location.street));
+ IF address_street_word_ids IS NOT NULL THEN
+ FOR linkedplacex IN SELECT place_id from getNearestNamedRoadFeature(NEW.partition, place_centroid, address_street_word_ids) LOOP
+ NEW.parent_place_id := linkedplacex.place_id;
+ END LOOP;
+ END IF;
END IF;
- END LOOP;
- END LOOP;
-
- END IF;
-
---RAISE WARNING 'x2';
-
- IF NEW.parent_place_id IS NULL AND NEW.osm_type = 'W' THEN
- -- Is this way part of a relation?
- FOR relation IN select * from planet_osm_rels where parts @> ARRAY[NEW.osm_id] and members @> ARRAY['w'||NEW.osm_id]
- LOOP
- -- At the moment we only process one type of relation - associatedStreet
- IF relation.tags @> ARRAY['associatedStreet'] AND array_upper(relation.members, 1) IS NOT NULL THEN
- FOR i IN 1..array_upper(relation.members, 1) BY 2 LOOP
- IF NEW.parent_place_id IS NULL AND relation.members[i+1] = 'street' THEN
---RAISE WARNING 'way that is in a relation %',relation;
- SELECT place_id from placex where osm_type='W' and osm_id = substring(relation.members[i],2,200)::bigint
- and rank_search = 26 and name is not null INTO NEW.parent_place_id;
- END IF;
- END LOOP;
+ IF NEW.parent_place_id IS NULL AND location.addr_place IS NOT NULL THEN
+ address_street_word_ids := get_name_ids(make_standard_name(location.addr_place));
+ IF address_street_word_ids IS NOT NULL THEN
+ FOR linkedplacex IN SELECT place_id from getNearestNamedPlaceFeature(NEW.partition, place_centroid, address_street_word_ids) LOOP
+ NEW.parent_place_id := linkedplacex.place_id;
+ END LOOP;
+ END IF;
END IF;
+
END LOOP;
- END IF;
-
---RAISE WARNING 'x3 %',NEW.parent_place_id;
- IF NEW.parent_place_id IS NULL AND NEW.street IS NOT NULL THEN
- address_street_word_ids := get_name_ids(make_standard_name(NEW.street));
- IF address_street_word_ids IS NOT NULL THEN
- FOR location IN SELECT * from getNearestNamedRoadFeature(NEW.partition, place_centroid, address_street_word_ids) LOOP
- NEW.parent_place_id := location.place_id;
- END LOOP;
- END IF;
- END IF;
-
- IF NEW.parent_place_id IS NULL AND NEW.addr_place IS NOT NULL THEN
- address_street_word_ids := get_name_ids(make_standard_name(NEW.addr_place));
- IF address_street_word_ids IS NOT NULL THEN
- FOR location IN SELECT * from getNearestNamedPlaceFeature(NEW.partition, place_centroid, address_street_word_ids) LOOP
- NEW.parent_place_id := location.place_id;
- END LOOP;
- END IF;
END IF;
--RAISE WARNING 'x4 %',NEW.parent_place_id;
-- If we didn't find any road fallback to standard method
IF NEW.parent_place_id IS NOT NULL THEN
- -- Add the street to the address as zero distance to force to front of list
--- INSERT INTO place_addressline VALUES (NEW.place_id, NEW.parent_place_id, true, true, 0, 26);
- address_havelevel[26] := true;
-
- -- Import address details from parent, reclculating distance in process
--- INSERT INTO place_addressline select NEW.place_id, x.address_place_id, x.fromarea, x.isaddress, ST_distance(NEW.geometry, placex.geometry), placex.rank_address
--- from place_addressline as x join placex on (address_place_id = placex.place_id)
--- where x.place_id = NEW.parent_place_id and x.address_place_id != NEW.parent_place_id;
-
-- Get the details of the parent road
select * from search_name where place_id = NEW.parent_place_id INTO location;
NEW.calculated_country_code := location.country_code;
+ -- Merge the postcode into the parent's address if necessary XXXX
+ IF NEW.postcode IS NOT NULL THEN
+ isin_tokens := '{}'::int[];
+ address_street_word_id := getorcreate_word_id(make_standard_name(NEW.postcode));
+ IF address_street_word_id is not null
+ and not ARRAY[address_street_word_id] <@ location.nameaddress_vector THEN
+ isin_tokens := isin_tokens || address_street_word_id;
+ END IF;
+ address_street_word_id := getorcreate_name_id(make_standard_name(NEW.postcode));
+ IF address_street_word_id is not null
+ and not ARRAY[address_street_word_id] <@ location.nameaddress_vector THEN
+ isin_tokens := isin_tokens || address_street_word_id;
+ END IF;
+ IF isin_tokens != '{}'::int[] THEN
+ UPDATE search_name
+ SET nameaddress_vector = search_name.nameaddress_vector || isin_tokens
+ WHERE place_id = NEW.parent_place_id;
+ END IF;
+ END IF;
+
--RAISE WARNING '%', NEW.name;
-- If there is no name it isn't searchable, don't bother to create a search record
IF NEW.name is NULL THEN
-- Merge address from parent
nameaddress_vector := array_merge(nameaddress_vector, location.nameaddress_vector);
nameaddress_vector := array_merge(nameaddress_vector, location.name_vector);
---return NEW;
- -- Performance, it would be more acurate to do all the rest of the import process but it takes too long
+
+ -- Performance, it would be more acurate to do all the rest of the import
+ -- process but it takes too long
-- Just be happy with inheriting from parent road only
- IF NEW.rank_search <= 25 THEN
+ IF NEW.rank_search <= 25 and NEW.rank_address > 0 THEN
result := add_location(NEW.place_id, NEW.calculated_country_code, NEW.partition, name_vector, NEW.rank_search, NEW.rank_address, NEW.geometry);
END IF;
END IF;
-- Name searches can be done for ways as well as relations
- IF NEW.osm_type in ('W','R') AND NEW.rank_search < 26 THEN
+ IF NEW.osm_type in ('W','R') AND NEW.rank_search < 26 AND NEW.rank_address > 0 THEN
-- not found one yet? how about doing a name search
IF NEW.centroid IS NULL AND (NEW.name->'name') is not null and make_standard_name(NEW.name->'name') != '' THEN
IF location.rank_address != location_rank_search THEN
location_rank_search := location.rank_address;
- location_distance := location.distance * 1.5;
+ IF location.isguess THEN
+ location_distance := location.distance * 1.5;
+ ELSE
+ IF location.rank_address <= 12 THEN
+ -- for county and above, if we have an area consider that exact
+ -- (It would be nice to relax the constraint for places close to
+ -- the boundary but we'd need the exact geometry for that. Too
+ -- expensive.)
+ location_distance = 0;
+ ELSE
+ -- Below county level remain slightly fuzzy.
+ location_distance := location.distance * 0.5;
+ END IF;
+ END IF;
+ ELSE
+ CONTINUE WHEN location.keywords <@ location_keywords;
END IF;
IF location.distance < location_distance OR NOT location.isguess THEN
+ location_keywords := location.keywords;
location_isaddress := NOT address_havelevel[location.rank_address];
IF location_isaddress AND location.isguess AND location_parent IS NOT NULL THEN
-- if we have a name add this to the name search table
IF NEW.name IS NOT NULL THEN
- IF NEW.rank_search <= 25 THEN
+ IF NEW.rank_search <= 25 and NEW.rank_address > 0 THEN
result := add_location(NEW.place_id, NEW.calculated_country_code, NEW.partition, name_vector, NEW.rank_search, NEW.rank_address, NEW.geometry);
END IF;
-- mark for delete
UPDATE placex set indexed_status = 100 where osm_type = OLD.osm_type and osm_id = OLD.osm_id and class = OLD.class and type = OLD.type;
+ -- interpolations are special
+ IF OLD.class = 'place' and OLD.type = 'houses' THEN
+ UPDATE placex set indexed_status = 100 where osm_type = OLD.osm_type and osm_id = OLD.osm_id and class = 'place' and type = 'address';
+ END IF;
+
RETURN OLD;
END;
--DEBUG: RAISE WARNING '%', existingplacex;
END IF;
- -- Just block these - lots and pointless
- IF NEW.class in ('landuse','natural') and NEW.name is null THEN
- -- if the name tag was removed, older versions might still be lurking in the place table
- DELETE FROM place where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type;
- RETURN null;
- END IF;
-
IF ST_IsEmpty(NEW.geometry) OR NOT ST_IsValid(NEW.geometry) OR ST_X(ST_Centroid(NEW.geometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEW.geometry))::text in ('NaN','Infinity','-Infinity') THEN
INSERT INTO import_polygon_error values (NEW.osm_type, NEW.osm_id, NEW.class, NEW.type, NEW.name, NEW.country_code,
now(), ST_IsValidReason(NEW.geometry), null, NEW.geometry);
END IF;
- -- Special case - if we are just adding extra words we hack them into the search_name table rather than reindexing
- IF FALSE AND existingplacex.rank_search < 26
- AND coalesce(existing.housenumber, '') = coalesce(NEW.housenumber, '')
- AND coalesce(existing.street, '') = coalesce(NEW.street, '')
- AND coalesce(existing.addr_place, '') = coalesce(NEW.addr_place, '')
- AND coalesce(existing.isin, '') = coalesce(NEW.isin, '')
- AND coalesce(existing.postcode, '') = coalesce(NEW.postcode, '')
- AND coalesce(existing.country_code, '') = coalesce(NEW.country_code, '')
- AND coalesce(existing.name::text, '') != coalesce(NEW.name::text, '')
- THEN
-
- IF NOT update_location_nameonly(existingplacex.place_id, NEW.name) THEN
-
- IF st_area(NEW.geometry) < 0.5 THEN
- UPDATE placex set indexed_status = 2 from place_addressline where address_place_id = existingplacex.place_id
- and placex.place_id = place_addressline.place_id and indexed_status = 0
- and (rank_search < 28 or name is not null);
- END IF;
-
- END IF;
-
- ELSE
-
- -- Anything else has changed - reindex the lot
- IF coalesce(existing.name::text, '') != coalesce(NEW.name::text, '')
- OR coalesce(existing.housenumber, '') != coalesce(NEW.housenumber, '')
- OR coalesce(existing.street, '') != coalesce(NEW.street, '')
- OR coalesce(existing.addr_place, '') != coalesce(NEW.addr_place, '')
- OR coalesce(existing.isin, '') != coalesce(NEW.isin, '')
- OR coalesce(existing.postcode, '') != coalesce(NEW.postcode, '')
- OR coalesce(existing.country_code, '') != coalesce(NEW.country_code, '') THEN
-
- -- performance, can't take the load of re-indexing a whole country / huge area
- IF st_area(NEW.geometry) < 0.5 THEN
--- UPDATE placex set indexed_status = 2 from place_addressline where address_place_id = existingplacex.place_id
--- and placex.place_id = place_addressline.place_id and indexed_status = 0;
- END IF;
-
- END IF;
+ -- refuse to update multiplpoygons with too many objects, too much of a performance hit
+ IF ST_NumGeometries(NEW.geometry) > 2000 THEN
+ RAISE WARNING 'Dropping update of % % because of geometry complexity.', NEW.osm_type, NEW.osm_id;
+ RETURN NULL;
END IF;
IF coalesce(existing.name::text, '') != coalesce(NEW.name::text, '')
END IF;
+ -- for interpolations invalidate all nodes on the line
+ IF NEW.class = 'place' and NEW.type = 'houses' and NEW.osm_type = 'W' THEN
+ update placex p set indexed_status = 2 from planet_osm_ways w where w.id = NEW.osm_id and p.osm_type = 'N' and p.osm_id = any(w.nodes);
+ END IF;
+
-- Abort the add (we modified the existing place instead)
RETURN NULL;
$$
LANGUAGE plpgsql IMMUTABLE;
---CREATE OR REPLACE FUNCTION get_connected_ways(way_ids INTEGER[]) RETURNS SETOF planet_osm_ways
--- AS $$
---DECLARE
--- searchnodes INTEGER[];
--- location RECORD;
--- j INTEGER;
---BEGIN
---
--- searchnodes := '{}';
--- FOR j IN 1..array_upper(way_ids, 1) LOOP
--- FOR location IN
--- select nodes from planet_osm_ways where id = way_ids[j] LIMIT 1
--- LOOP
--- IF not (ARRAY[location.nodes] <@ searchnodes) THEN
--- searchnodes := searchnodes || location.nodes;
--- END IF;
--- END LOOP;
--- END LOOP;
---
--- RETURN QUERY select * from planet_osm_ways where nodes && searchnodes and NOT ARRAY[id] <@ way_ids;
---END;
---$$
---LANGUAGE plpgsql IMMUTABLE;
CREATE OR REPLACE FUNCTION get_address_postcode(for_place_id BIGINT) RETURNS TEXT
AS $$
END IF;
IF for_place_id IS NULL THEN
- for_place_id := in_place_id;
- select calculated_country_code, housenumber, rank_search, postcode, null from placex where place_id = for_place_id
- INTO searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode, searchhousename;
+ select coalesce(linked_place_id, place_id), calculated_country_code,
+ housenumber, rank_search, postcode, null
+ from placex where place_id = in_place_id
+ INTO for_place_id, searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode, searchhousename;
END IF;
--RAISE WARNING '% % % %',searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode;
$$
LANGUAGE plpgsql;
-CREATE OR REPLACE FUNCTION get_place_boundingbox(search_place_id BIGINT) RETURNS place_boundingbox
- AS $$
-DECLARE
- result place_boundingbox;
- numfeatures integer;
-BEGIN
- select * from place_boundingbox into result where place_id = search_place_id;
- IF result.place_id IS NULL THEN
--- remove isaddress = true because if there is a matching polygon it always wins
- select count(*) from place_addressline where address_place_id = search_place_id into numfeatures;
- insert into place_boundingbox select place_id,
- ST_Y(ST_PointN(ExteriorRing(ST_Box2D(geometry)),4)),ST_Y(ST_PointN(ExteriorRing(ST_Box2D(geometry)),2)),
- ST_X(ST_PointN(ExteriorRing(ST_Box2D(geometry)),1)),ST_X(ST_PointN(ExteriorRing(ST_Box2D(geometry)),3)),
- numfeatures, ST_Area(geometry),
- geometry as area from location_area where place_id = search_place_id;
- select * from place_boundingbox into result where place_id = search_place_id;
- END IF;
- IF result.place_id IS NULL THEN
--- TODO 0.0001
- insert into place_boundingbox select address_place_id,
- min(ST_Y(ST_Centroid(geometry))) as minlon,max(ST_Y(ST_Centroid(geometry))) as maxlon,
- min(ST_X(ST_Centroid(geometry))) as minlat,max(ST_X(ST_Centroid(geometry))) as maxlat,
- count(*), ST_Area(ST_Buffer(ST_Convexhull(ST_Collect(geometry)),0.0001)) as area,
- ST_Buffer(ST_Convexhull(ST_Collect(geometry)),0.0001) as boundary
- from (select * from place_addressline where address_place_id = search_place_id order by cached_rank_address limit 4000) as place_addressline join placex using (place_id)
- where address_place_id = search_place_id
--- and (isaddress = true OR place_id = search_place_id)
- and (st_length(geometry) < 0.01 or place_id = search_place_id)
- group by address_place_id limit 1;
- select * from place_boundingbox into result where place_id = search_place_id;
- END IF;
- return result;
-END;
-$$
-LANGUAGE plpgsql;
-
--- don't do the operation if it would be slow
-CREATE OR REPLACE FUNCTION get_place_boundingbox_quick(search_place_id BIGINT) RETURNS place_boundingbox
- AS $$
-DECLARE
- result place_boundingbox;
- numfeatures integer;
- rank integer;
-BEGIN
- select * from place_boundingbox into result where place_id = search_place_id;
- IF result IS NULL AND rank > 14 THEN
- select count(*) from place_addressline where address_place_id = search_place_id and isaddress = true into numfeatures;
- insert into place_boundingbox select place_id,
- ST_Y(ST_PointN(ExteriorRing(ST_Box2D(geometry)),4)),ST_Y(ST_PointN(ExteriorRing(ST_Box2D(geometry)),2)),
- ST_X(ST_PointN(ExteriorRing(ST_Box2D(geometry)),1)),ST_X(ST_PointN(ExteriorRing(ST_Box2D(geometry)),3)),
- numfeatures, ST_Area(geometry),
- geometry as area from location_area where place_id = search_place_id;
- select * from place_boundingbox into result where place_id = search_place_id;
- END IF;
- IF result IS NULL THEN
- select rank_search from placex where place_id = search_place_id into rank;
- IF rank > 20 THEN
--- TODO 0.0001
- insert into place_boundingbox select address_place_id,
- min(ST_Y(ST_Centroid(geometry))) as minlon,max(ST_Y(ST_Centroid(geometry))) as maxlon,
- min(ST_X(ST_Centroid(geometry))) as minlat,max(ST_X(ST_Centroid(geometry))) as maxlat,
- count(*), ST_Area(ST_Buffer(ST_Convexhull(ST_Collect(geometry)),0.0001)) as area,
- ST_Buffer(ST_Convexhull(ST_Collect(geometry)),0.0001) as boundary
- from place_addressline join placex using (place_id)
- where address_place_id = search_place_id
- and (isaddress = true OR place_id = search_place_id)
- and (st_length(geometry) < 0.01 or place_id = search_place_id)
- group by address_place_id limit 1;
- select * from place_boundingbox into result where place_id = search_place_id;
- END IF;
- END IF;
- return result;
-END;
-$$
-LANGUAGE plpgsql;
CREATE OR REPLACE FUNCTION update_place(search_place_id BIGINT) RETURNS BOOLEAN
AS $$
DECLARE
- result place_boundingbox;
numfeatures integer;
BEGIN
update placex set
$$
LANGUAGE plpgsql;
-CREATE OR REPLACE FUNCTION get_word_suggestion(srcword TEXT) RETURNS TEXT
- AS $$
-DECLARE
- trigramtoken TEXT;
- result TEXT;
-BEGIN
-
- trigramtoken := regexp_replace(make_standard_name(srcword),E'([^0-9])\\1+',E'\\1','g');
- SELECT word FROM word WHERE word_trigram like ' %' and word_trigram % trigramtoken ORDER BY similarity(word_trigram, trigramtoken) DESC, word limit 1 into result;
-
- return result;
-END;
-$$
-LANGUAGE plpgsql;
-
-CREATE OR REPLACE FUNCTION get_word_suggestions(srcword TEXT) RETURNS TEXT[]
- AS $$
-DECLARE
- trigramtoken TEXT;
- result TEXT[];
- r RECORD;
-BEGIN
-
- trigramtoken := regexp_replace(make_standard_name(srcword),E'([^0-9])\\1+',E'\\1','g');
-
- FOR r IN SELECT word,similarity(word_trigram, trigramtoken) as score FROM word
- WHERE word_trigram like ' %' and word_trigram % trigramtoken ORDER BY similarity(word_trigram, trigramtoken) DESC, word limit 4
- LOOP
- result[coalesce(array_upper(result,1)+1,1)] := r.word;
- END LOOP;
-
- return result;
-END;
-$$
-LANGUAGE plpgsql;
-
CREATE OR REPLACE FUNCTION aux_create_property(pointgeo GEOMETRY, in_housenumber TEXT,
in_street TEXT, in_isin TEXT, in_postcode TEXT, in_countrycode char(2)) RETURNS INTEGER
AS $$