--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 $$ DECLARE NEWgeometry geometry; BEGIN -- RAISE WARNING '%',place; NEWgeometry := place; IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN NEWgeometry := ST_buffer(NEWgeometry,0); IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN RETURN 0; END IF; END IF; RETURN (partition*1000000) + (500-ST_X(ST_Centroid(NEWgeometry))::integer)*1000 + (500-ST_Y(ST_Centroid(NEWgeometry))::integer); END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION debug_geometry_sector(osmid integer, place geometry) RETURNS INTEGER AS $$ DECLARE NEWgeometry geometry; BEGIN -- RAISE WARNING '%',osmid; IF osmid = 61315 THEN return null; END IF; NEWgeometry := place; IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN NEWgeometry := ST_buffer(NEWgeometry,0); IF ST_IsEmpty(NEWgeometry) OR NOT ST_IsValid(NEWgeometry) OR ST_X(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') OR ST_Y(ST_Centroid(NEWgeometry))::text in ('NaN','Infinity','-Infinity') THEN RETURN NULL; END IF; END IF; RETURN (500-ST_X(ST_Centroid(NEWgeometry))::integer)*1000 + (500-ST_Y(ST_Centroid(NEWgeometry))::integer); END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION transliteration(text) RETURNS text AS '{modulepath}/nominatim.so', 'transliteration' LANGUAGE c IMMUTABLE STRICT; CREATE OR REPLACE FUNCTION gettokenstring(text) RETURNS text AS '{modulepath}/nominatim.so', 'gettokenstring' LANGUAGE c IMMUTABLE STRICT; CREATE OR REPLACE FUNCTION make_standard_name(name TEXT) RETURNS TEXT AS $$ DECLARE o TEXT; BEGIN o := gettokenstring(transliteration(name)); RETURN trim(substr(o,1,length(o))); END; $$ LANGUAGE 'plpgsql' IMMUTABLE; CREATE OR REPLACE FUNCTION getorcreate_word_id(lookup_word TEXT) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class is null and type is null into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, regexp_replace(lookup_token,E'([^0-9])\\1+',E'\\1','g'), null, null, null, null, 0, null); END IF; RETURN return_word_id; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getorcreate_housenumber_id(lookup_word TEXT) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := ' '||trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class='place' and type='house' into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, null, null, 'place', 'house', null, 0, null); END IF; RETURN return_word_id; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getorcreate_country(lookup_word TEXT, lookup_country_code varchar(2)) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := ' '||trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and country_code=lookup_country_code into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, null, null, null, null, lookup_country_code, 0, null); END IF; RETURN return_word_id; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getorcreate_amenity(lookup_word TEXT, lookup_class text, lookup_type text) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := ' '||trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class=lookup_class and type = lookup_type into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, null, null, lookup_class, lookup_type, null, 0, null); END IF; RETURN return_word_id; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getorcreate_tagpair(lookup_class text, lookup_type text) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := lookup_class||'='||lookup_type; SELECT min(word_id) FROM word WHERE word_token = lookup_token into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, null, null, null, null, null, 0, null); END IF; RETURN return_word_id; END; $$ 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 $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := ' '||trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class=lookup_class and type = lookup_type and operator = op into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, null, null, lookup_class, lookup_type, null, 0, op, null); END IF; RETURN return_word_id; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getorcreate_name_id(lookup_word TEXT, src_word TEXT) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; nospace_lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := ' '||trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class is null and type is null into return_word_id; IF return_word_id IS NULL THEN return_word_id := nextval('seq_word'); INSERT INTO word VALUES (return_word_id, lookup_token, regexp_replace(lookup_token,E'([^0-9])\\1+',E'\\1','g'), src_word, null, null, null, 0, null); -- nospace_lookup_token := replace(replace(lookup_token, '-',''), ' ',''); -- IF ' '||nospace_lookup_token != lookup_token THEN -- INSERT INTO word VALUES (return_word_id, '-'||nospace_lookup_token, null, src_word, null, null, null, 0, null); -- END IF; END IF; RETURN return_word_id; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION getorcreate_name_id(lookup_word TEXT) RETURNS INTEGER AS $$ DECLARE BEGIN RETURN getorcreate_name_id(lookup_word, ''); END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_word_id(lookup_word TEXT) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class is null and type is null into return_word_id; RETURN return_word_id; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION get_name_id(lookup_word TEXT) RETURNS INTEGER AS $$ DECLARE lookup_token TEXT; return_word_id INTEGER; BEGIN lookup_token := ' '||trim(lookup_word); SELECT min(word_id) FROM word WHERE word_token = lookup_token and class is null and type is null into return_word_id; RETURN return_word_id; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION array_merge(a INTEGER[], b INTEGER[]) RETURNS INTEGER[] AS $$ DECLARE i INTEGER; r INTEGER[]; BEGIN IF array_upper(a, 1) IS NULL THEN RETURN b; END IF; IF array_upper(b, 1) IS NULL THEN RETURN a; END IF; r := a; FOR i IN 1..array_upper(b, 1) LOOP IF NOT (ARRAY[b[i]] <@ r) THEN r := r || b[i]; END IF; END LOOP; RETURN r; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION make_keywords(src HSTORE) RETURNS INTEGER[] AS $$ DECLARE result INTEGER[]; s TEXT; w INTEGER; words TEXT[]; item RECORD; j INTEGER; BEGIN result := '{}'::INTEGER[]; FOR item IN SELECT (each(src)).* LOOP s := make_standard_name(item.value); w := getorcreate_name_id(s, item.value); IF not(ARRAY[w] <@ result) THEN result := result || w; END IF; words := string_to_array(s, ' '); IF array_upper(words, 1) IS NOT NULL THEN FOR j IN 1..array_upper(words, 1) LOOP IF (words[j] != '') THEN w = getorcreate_word_id(words[j]); IF NOT (ARRAY[w] <@ result) THEN result := result || w; END IF; END IF; END LOOP; END IF; words := regexp_split_to_array(item.value, E'[,;()]'); IF array_upper(words, 1) != 1 THEN FOR j IN 1..array_upper(words, 1) LOOP s := make_standard_name(words[j]); IF s != '' THEN w := getorcreate_word_id(s); IF NOT (ARRAY[w] <@ result) THEN result := result || w; END IF; END IF; END LOOP; END IF; s := regexp_replace(item.value, '市$', ''); IF s != item.value THEN s := make_standard_name(s); IF s != '' THEN w := getorcreate_name_id(s, item.value); IF NOT (ARRAY[w] <@ result) THEN result := result || w; END IF; END IF; END IF; END LOOP; RETURN result; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION make_keywords(src TEXT) RETURNS INTEGER[] AS $$ DECLARE result INTEGER[]; s TEXT; w INTEGER; words TEXT[]; i INTEGER; j INTEGER; BEGIN result := '{}'::INTEGER[]; s := make_standard_name(src); w := getorcreate_name_id(s); IF NOT (ARRAY[w] <@ result) THEN result := result || w; END IF; words := string_to_array(s, ' '); IF array_upper(words, 1) IS NOT NULL THEN FOR j IN 1..array_upper(words, 1) LOOP IF (words[j] != '') THEN w = getorcreate_word_id(words[j]); IF NOT (ARRAY[w] <@ result) THEN result := result || w; END IF; END IF; END LOOP; END IF; RETURN result; END; $$ 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 $$ DECLARE place_centre GEOMETRY; nearcountry RECORD; BEGIN place_centre := ST_Centroid(place); --RAISE WARNING 'start: %', ST_AsText(place_centre); -- Try for a OSM polygon first FOR nearcountry IN select country_code from location_area_country where country_code is not null and not isguess and st_contains(geometry, place_centre) limit 1 LOOP RETURN nearcountry.country_code; END LOOP; --RAISE WARNING 'osm fallback: %', ST_AsText(place_centre); -- Try for OSM fallback data FOR nearcountry IN select country_code from country_osm_grid where st_contains(geometry, place_centre) limit 1 LOOP RETURN nearcountry.country_code; END LOOP; --RAISE WARNING 'natural earth: %', ST_AsText(place_centre); -- Natural earth data (first fallback) FOR nearcountry IN select country_code from country_naturalearthdata where st_contains(geometry, place_centre) limit 1 LOOP RETURN nearcountry.country_code; END LOOP; -- Natural earth data (first fallback) FOR nearcountry IN select country_code from country_naturalearthdata where st_distance(geometry, place_centre) < 0.5 limit 1 LOOP RETURN nearcountry.country_code; END LOOP; --RAISE WARNING 'in country: %', ST_AsText(place_centre); -- WorldBoundaries data (second fallback - think there might be something broken in this data) FOR nearcountry IN select country_code from country where st_contains(geometry, place_centre) limit 1 LOOP RETURN nearcountry.country_code; END LOOP; --RAISE WARNING 'near country: %', ST_AsText(place_centre); -- Still not in a country - try nearest within ~12 miles of a country FOR nearcountry IN select country_code from country where st_distance(geometry, place_centre) < 0.5 order by st_distance(geometry, place) limit 1 LOOP RETURN nearcountry.country_code; END LOOP; RETURN NULL; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION get_country_code(place geometry, in_country_code VARCHAR(2)) RETURNS TEXT AS $$ DECLARE nearcountry RECORD; BEGIN FOR nearcountry IN select country_code from country_name where country_code = lower(in_country_code) LOOP RETURN nearcountry.country_code; END LOOP; RETURN get_country_code(place); END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION get_country_language_code(search_country_code VARCHAR(2)) RETURNS TEXT AS $$ DECLARE nearcountry RECORD; BEGIN FOR nearcountry IN select distinct country_default_language_code from country_name where country_code = search_country_code limit 1 LOOP RETURN lower(nearcountry.country_default_language_code); END LOOP; RETURN NULL; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION get_partition(place geometry, in_country_code VARCHAR(10)) RETURNS INTEGER AS $$ DECLARE place_centre GEOMETRY; nearcountry RECORD; BEGIN FOR nearcountry IN select partition from country_name where country_code = in_country_code LOOP RETURN nearcountry.partition; END LOOP; RETURN 0; END; $$ LANGUAGE plpgsql IMMUTABLE; CREATE OR REPLACE FUNCTION delete_location(OLD_place_id BIGINT) RETURNS BOOLEAN AS $$ DECLARE BEGIN DELETE FROM location_area where place_id = OLD_place_id; -- TODO:location_area RETURN true; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION add_location( place_id BIGINT, country_code varchar(2), partition INTEGER, keywords INTEGER[], rank_search INTEGER, rank_address INTEGER, geometry GEOMETRY ) RETURNS BOOLEAN AS $$ DECLARE locationid INTEGER; isarea BOOLEAN; xmin INTEGER; ymin INTEGER; xmax INTEGER; ymax INTEGER; lon INTEGER; lat INTEGER; centroid GEOMETRY; secgeo GEOMETRY; secbox GEOMETRY; diameter FLOAT; x BOOLEAN; BEGIN IF rank_search > 25 THEN RAISE EXCEPTION 'Adding location with rank > 25 (% rank %)', place_id, rank_search; END IF; -- RAISE WARNING 'Adding location with rank > 25 (% rank %)', place_id, rank_search; x := deleteLocationArea(partition, place_id); isarea := false; IF (ST_GeometryType(geometry) in ('ST_Polygon','ST_MultiPolygon') AND ST_IsValid(geometry)) THEN isArea := true; centroid := ST_Centroid(geometry); xmin := floor(st_xmin(geometry)); xmax := ceil(st_xmax(geometry)); ymin := floor(st_ymin(geometry)); ymax := ceil(st_ymax(geometry)); IF xmin = xmax OR ymin = ymax OR (xmax-xmin < 2 AND ymax-ymin < 2) THEN x := insertLocationAreaLarge(partition, place_id, country_code, keywords, rank_search, rank_address, false, centroid, geometry); ELSE -- RAISE WARNING 'Spliting geometry: % to %, % to %', xmin, xmax, ymin, ymax; FOR lon IN xmin..(xmax-1) LOOP FOR lat IN ymin..(ymax-1) LOOP secbox := ST_SetSRID(ST_MakeBox2D(ST_Point(lon,lat),ST_Point(lon+1,lat+1)),4326); IF st_intersects(geometry, secbox) THEN secgeo := st_intersection(geometry, secbox); IF NOT ST_IsEmpty(secgeo) AND ST_GeometryType(secgeo) in ('ST_Polygon','ST_MultiPolygon') THEN x := insertLocationAreaLarge(partition, place_id, country_code, keywords, rank_search, rank_address, false, centroid, secgeo); END IF; END IF; END LOOP; END LOOP; END IF; ELSEIF rank_search < 26 THEN diameter := 0.02; IF rank_address = 0 THEN diameter := 0.02; ELSEIF rank_search <= 14 THEN diameter := 1.2; ELSEIF rank_search <= 15 THEN diameter := 1; ELSEIF rank_search <= 16 THEN diameter := 0.5; ELSEIF rank_search <= 17 THEN diameter := 0.2; ELSEIF rank_search <= 21 THEN diameter := 0.05; ELSEIF rank_search = 25 THEN diameter := 0.005; END IF; -- RAISE WARNING 'adding % diameter %', place_id, diameter; 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; END; $$ 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 $$ DECLARE b BOOLEAN; BEGIN b := deleteLocationArea(partition, place_id); -- result := add_location(NEW.place_id, NEW.country_code, NEW.partition, name_vector, NEW.rank_search, NEW.rank_address, NEW.geometry); RETURN add_location(place_id, place_country_code, name, rank_search, rank_address, geometry); END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION search_name_add_words(parent_place_id BIGINT, to_add INTEGER[]) RETURNS BOOLEAN AS $$ DECLARE childplace RECORD; BEGIN IF #to_add = 0 THEN RETURN true; END IF; -- this should just be an update, but it seems to do insane things to the index size (delete and insert doesn't) FOR childplace IN select * from search_name,place_addressline where address_place_id = parent_place_id and search_name.place_id = place_addressline.place_id LOOP delete from search_name where place_id = childplace.place_id; IF not (ARRAY[to_add] <@ childplace.nameaddress_vector) THEN childplace.nameaddress_vector := childplace.nameaddress_vector || to_add; END IF; IF childplace.place_id = parent_place_id and not (ARRAY[to_add] <@ childplace.name_vector) THEN childplace.name_vector := childplace.name_vector || to_add; END IF; insert into search_name (place_id, search_rank, address_rank, country_code, name_vector, nameaddress_vector, centroid) values (childplace.place_id, childplace.search_rank, childplace.address_rank, childplace.country_code, childplace.name_vector, childplace.nameaddress_vector, childplace.centroid); END LOOP; RETURN true; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION update_location_nameonly(partition INTEGER, OLD_place_id BIGINT, name hstore) RETURNS BOOLEAN AS $$ DECLARE newkeywords INTEGER[]; addedkeywords INTEGER[]; removedkeywords INTEGER[]; BEGIN -- what has changed? newkeywords := make_keywords(name); select coalesce(newkeywords,'{}'::INTEGER[]) - coalesce(location_point.keywords,'{}'::INTEGER[]), coalesce(location_point.keywords,'{}'::INTEGER[]) - coalesce(newkeywords,'{}'::INTEGER[]) from location_point where place_id = OLD_place_id into addedkeywords, removedkeywords; -- RAISE WARNING 'update_location_nameonly for %: new:% added:% removed:%', OLD_place_id, newkeywords, addedkeywords, removedkeywords; IF #removedkeywords > 0 THEN -- abort due to tokens removed RETURN false; END IF; IF #addedkeywords > 0 THEN -- short circuit - no changes RETURN true; END IF; UPDATE location_area set keywords = newkeywords where place_id = OLD_place_id; RETURN search_name_add_words(OLD_place_id, addedkeywords); END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION create_interpolation(wayid INTEGER, interpolationtype TEXT) RETURNS INTEGER AS $$ DECLARE newpoints INTEGER; waynodes integer[]; nodeid INTEGER; prevnode RECORD; nextnode RECORD; startnumber INTEGER; endnumber INTEGER; stepsize INTEGER; orginalstartnumber INTEGER; originalnumberrange INTEGER; housenum INTEGER; linegeo GEOMETRY; search_place_id BIGINT; defpostalcode TEXT; havefirstpoint BOOLEAN; linestr TEXT; BEGIN newpoints := 0; IF interpolationtype = 'odd' OR interpolationtype = 'even' OR interpolationtype = 'all' THEN select postcode from placex where osm_type = 'W' and osm_id = wayid INTO defpostalcode; select nodes from planet_osm_ways where id = wayid INTO waynodes; --RAISE WARNING 'interpolation % % %',wayid,interpolationtype,waynodes; IF array_upper(waynodes, 1) IS NOT NULL THEN havefirstpoint := false; FOR nodeidpos in 1..array_upper(waynodes, 1) LOOP select min(place_id) from placex where osm_type = 'N' and osm_id = waynodes[nodeidpos]::INTEGER and type = 'house' INTO search_place_id; IF search_place_id IS NULL THEN -- null record of right type select * from placex where osm_type = 'N' and osm_id = waynodes[nodeidpos]::INTEGER and type = 'house' limit 1 INTO nextnode; select ST_SetSRID(ST_Point(lon::float/10000000,lat::float/10000000),4326) from planet_osm_nodes where id = waynodes[nodeidpos] INTO nextnode.geometry; ELSE select * from placex where place_id = search_place_id INTO nextnode; END IF; --RAISE WARNING 'interpolation node % % % ',nextnode.housenumber,ST_X(nextnode.geometry),ST_Y(nextnode.geometry); IF havefirstpoint THEN -- add point to the line string linestr := linestr||','||ST_X(nextnode.geometry)||' '||ST_Y(nextnode.geometry); endnumber := ('0'||substring(nextnode.housenumber,'[0-9]+'))::integer; IF startnumber IS NOT NULL and startnumber > 0 AND endnumber IS NOT NULL and endnumber > 0 AND @(startnumber - endnumber) < 1000 THEN --RAISE WARNING 'interpolation end % % ',nextnode.place_id,endnumber; IF startnumber != endnumber THEN linestr := linestr || ')'; --RAISE WARNING 'linestr %',linestr; linegeo := ST_GeomFromText(linestr,4326); linestr := 'LINESTRING('||ST_X(nextnode.geometry)||' '||ST_Y(nextnode.geometry); IF (startnumber > endnumber) THEN housenum := endnumber; endnumber := startnumber; startnumber := housenum; linegeo := ST_Reverse(linegeo); END IF; orginalstartnumber := startnumber; originalnumberrange := endnumber - startnumber; -- Too much broken data worldwide for this test to be worth using -- IF originalnumberrange > 500 THEN -- RAISE WARNING 'Number block of % while processing % %', originalnumberrange, prevnode, nextnode; -- END IF; IF (interpolationtype = 'odd' AND startnumber%2 = 0) OR (interpolationtype = 'even' AND startnumber%2 = 1) THEN startnumber := startnumber + 1; stepsize := 2; ELSE IF (interpolationtype = 'odd' OR interpolationtype = 'even') THEN startnumber := startnumber + 2; stepsize := 2; ELSE -- everything else assumed to be 'all' startnumber := startnumber + 1; stepsize := 1; END IF; 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; FOR housenum IN startnumber..endnumber BY stepsize LOOP -- this should really copy postcodes but it puts a huge burdon 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, isin, postcode, country_code, parent_place_id, rank_address, rank_search, indexed_status, geometry) values ('N',prevnode.osm_id, prevnode.class, prevnode.type, prevnode.admin_level, housenum, prevnode.street, prevnode.isin, coalesce(prevnode.postcode, defpostalcode), prevnode.country_code, prevnode.parent_place_id, prevnode.rank_address, prevnode.rank_search, 1, ST_Line_Interpolate_Point(linegeo, (housenum::float-orginalstartnumber::float)/originalnumberrange::float)); newpoints := newpoints + 1; --RAISE WARNING 'interpolation number % % ',prevnode.place_id,housenum; END LOOP; END IF; havefirstpoint := false; END IF; END IF; IF NOT havefirstpoint THEN startnumber := ('0'||substring(nextnode.housenumber,'[0-9]+'))::integer; IF startnumber IS NOT NULL AND startnumber > 0 THEN havefirstpoint := true; linestr := 'LINESTRING('||ST_X(nextnode.geometry)||' '||ST_Y(nextnode.geometry); prevnode := nextnode; END IF; --RAISE WARNING 'interpolation start % % ',nextnode.place_id,startnumber; END IF; END LOOP; END IF; END IF; --RAISE WARNING 'interpolation points % ',newpoints; RETURN newpoints; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION placex_insert() RETURNS TRIGGER AS $$ DECLARE i INTEGER; postcode TEXT; result BOOLEAN; country_code VARCHAR(2); default_language VARCHAR(10); diameter FLOAT; classtable TEXT; BEGIN -- RAISE WARNING '%',NEW.osm_id; -- just block these IF NEW.class = 'highway' and NEW.type in ('turning_circle','traffic_signals','mini_roundabout','noexit','crossing') THEN -- RAISE WARNING 'bad highway %',NEW.osm_id; RETURN null; END IF; IF NEW.class in ('landuse','natural') and NEW.name is null THEN -- RAISE WARNING 'empty landuse %',NEW.osm_id; 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 -- 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; NEW.place_id := nextval('seq_place'); NEW.indexed_status := 1; --STATUS_NEW NEW.country_code := lower(get_country_code(NEW.geometry, NEW.country_code)); NEW.partition := get_partition(NEW.geometry, NEW.country_code); NEW.geometry_sector := geometry_sector(NEW.partition, NEW.geometry); -- copy 'name' to or from the default language (if there is a default language) IF NEW.name is not null AND array_upper(akeys(NEW.name),1) > 1 THEN default_language := get_country_language_code(NEW.country_code); IF default_language IS NOT NULL THEN IF NEW.name ? 'name' AND NOT NEW.name ? ('name:'||default_language) THEN NEW.name := NEW.name || (('name:'||default_language) => (NEW.name -> 'name')); ELSEIF NEW.name ? ('name:'||default_language) AND NOT NEW.name ? 'name' THEN NEW.name := NEW.name || ('name' => (NEW.name -> ('name:'||default_language))); END IF; END IF; END IF; IF NEW.admin_level > 15 THEN NEW.admin_level := 15; END IF; IF NEW.housenumber IS NOT NULL THEN i := getorcreate_housenumber_id(make_standard_name(NEW.housenumber)); END IF; IF NEW.osm_type = 'X' THEN -- E'X'ternal records should already be in the right format so do nothing ELSE NEW.rank_search := 30; NEW.rank_address := NEW.rank_search; -- By doing in postgres we have the country available to us - currently only used for postcode IF NEW.class in ('place','boundary') AND NEW.type in ('postcode','postal_code') THEN NEW.name := 'ref'=>NEW.postcode; IF NEW.country_code = 'gb' THEN IF NEW.postcode ~ '^([A-Z][A-Z]?[0-9][0-9A-Z]? [0-9][A-Z][A-Z])$' THEN NEW.rank_search := 25; NEW.rank_address := 5; ELSEIF NEW.postcode ~ '^([A-Z][A-Z]?[0-9][0-9A-Z]? [0-9])$' THEN NEW.rank_search := 23; NEW.rank_address := 5; ELSEIF NEW.postcode ~ '^([A-Z][A-Z]?[0-9][0-9A-Z])$' THEN NEW.rank_search := 21; NEW.rank_address := 5; END IF; ELSEIF NEW.country_code = 'de' THEN IF NEW.postcode ~ '^([0-9]{5})$' THEN NEW.rank_search := 21; NEW.rank_address := 11; END IF; ELSE -- Guess at the postcode format and coverage (!) IF upper(NEW.postcode) ~ '^[A-Z0-9]{1,5}$' THEN -- Probably too short to be very local NEW.rank_search := 21; NEW.rank_address := 11; ELSE -- Does it look splitable into and area and local code? postcode := substring(upper(NEW.postcode) from '^([- :A-Z0-9]+)([- :][A-Z0-9]+)$'); IF postcode IS NOT NULL THEN NEW.rank_search := 25; NEW.rank_address := 11; ELSEIF NEW.postcode ~ '^[- :A-Z0-9]{6,}$' THEN NEW.rank_search := 21; NEW.rank_address := 11; END IF; END IF; END IF; ELSEIF NEW.class = 'place' THEN IF NEW.type in ('continent') THEN NEW.rank_search := 2; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('sea') THEN NEW.rank_search := 2; NEW.rank_address := 0; ELSEIF NEW.type in ('country') THEN NEW.rank_search := 4; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('state') THEN NEW.rank_search := 8; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('region') THEN NEW.rank_search := 10; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('county') THEN NEW.rank_search := 12; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('city') THEN NEW.rank_search := 16; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('island') THEN NEW.rank_search := 17; NEW.rank_address := 0; ELSEIF NEW.type in ('town') THEN NEW.rank_search := 18; NEW.rank_address := 16; ELSEIF NEW.type in ('village','hamlet','municipality','district','unincorporated_area','borough') THEN NEW.rank_search := 19; NEW.rank_address := 16; ELSEIF NEW.type in ('airport') AND ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') THEN NEW.rank_search := 18; NEW.rank_address := 17; ELSEIF NEW.type in ('moor') AND ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') THEN NEW.rank_search := 17; NEW.rank_address := 18; ELSEIF NEW.type in ('moor') THEN NEW.rank_search := 17; NEW.rank_address := 0; ELSEIF NEW.type in ('national_park') THEN NEW.rank_search := 18; NEW.rank_address := 18; ELSEIF NEW.type in ('suburb','croft','subdivision') THEN NEW.rank_search := 20; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('farm','locality','islet','isolated_dwelling','mountain_pass') THEN NEW.rank_search := 20; NEW.rank_address := 0; ELSEIF NEW.type in ('hall_of_residence','neighbourhood','housing_estate','nature_reserve') THEN NEW.rank_search := 22; NEW.rank_address := 22; ELSEIF NEW.type in ('airport','street') THEN NEW.rank_search := 26; NEW.rank_address := NEW.rank_search; ELSEIF NEW.type in ('house','building') THEN NEW.rank_search := 30; 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 = 'boundary' THEN IF ST_GeometryType(NEW.geometry) NOT IN ('ST_Polygon','ST_MultiPolygon') THEN -- RAISE WARNING 'invalid boundary %',NEW.osm_id; return NULL; END IF; NEW.rank_search := NEW.admin_level * 2; NEW.rank_address := NEW.rank_search; ELSEIF NEW.class = 'landuse' AND ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') THEN NEW.rank_search := 22; NEW.rank_address := NEW.rank_search; -- 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; 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 NEW.rank_address := 17; ELSEIF NEW.class = 'highway' AND NEW.osm_type != 'N' AND NEW.type in ('service','cycleway','path','footway','steps','bridleway','motorway_link','primary_link','trunk_link','secondary_link','tertiary_link') THEN NEW.rank_search := 27; NEW.rank_address := NEW.rank_search; ELSEIF NEW.class = 'highway' AND NEW.osm_type != 'N' THEN NEW.rank_search := 26; NEW.rank_address := NEW.rank_search; 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; ELSEIF NEW.class = 'natural' and NEW.type in ('peak','volcano') THEN NEW.rank_search := 18; NEW.rank_address := 0; END IF; END IF; IF NEW.rank_search > 30 THEN NEW.rank_search := 30; END IF; IF NEW.rank_address > 30 THEN NEW.rank_address := 30; END IF; IF (NEW.extratags -> 'capital') = 'yes' THEN NEW.rank_search := NEW.rank_search -1; END IF; -- Block import below rank 22 -- IF NEW.rank_search > 22 THEN -- RETURN NULL; -- END IF; RETURN NEW; -- The following is not needed until doing diff updates, and slows the main index process down 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; -- work around bug in postgis, this may have been fixed in 2.0.0 (see http://trac.osgeo.org/postgis/ticket/547) update placex set indexed_status = 2 where (ST_Contains(NEW.geometry, placex.geometry) OR ST_Intersects(NEW.geometry, placex.geometry)) AND rank_search > NEW.rank_search and indexed_status = 0 and ST_geometrytype(placex.geometry) = 'ST_Point' and (rank_search < 28 or name is not null); update placex set indexed_status = 2 where (ST_Contains(NEW.geometry, placex.geometry) OR ST_Intersects(NEW.geometry, placex.geometry)) AND rank_search > NEW.rank_search and indexed_status = 0 and ST_geometrytype(placex.geometry) != 'ST_Point' and (rank_search < 28 or name is not null); END IF; ELSE -- mark nearby items for re-indexing, where 'nearby' depends on the features rank_search and is a complete guess :( diameter := 0; -- 16 = city, anything higher than city is effectively ignored (polygon required!) IF NEW.type='postcode' THEN diameter := 0.05; ELSEIF NEW.rank_search < 16 THEN diameter := 0; ELSEIF NEW.rank_search < 18 THEN diameter := 0.1; ELSEIF NEW.rank_search < 20 THEN diameter := 0.05; ELSEIF NEW.rank_search = 21 THEN diameter := 0.001; ELSEIF NEW.rank_search < 24 THEN diameter := 0.02; ELSEIF NEW.rank_search < 26 THEN diameter := 0.002; -- 100 to 200 meters ELSEIF NEW.rank_search < 28 THEN diameter := 0.001; -- 50 to 100 meters END IF; IF diameter > 0 THEN -- RAISE WARNING 'placex point insert: % % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type,diameter; 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; -- 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 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; -- 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; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION placex_update() RETURNS TRIGGER AS $$ DECLARE place_centroid GEOMETRY; search_maxdistance FLOAT[]; search_mindistance FLOAT[]; address_havelevel BOOLEAN[]; -- search_scores wordscore[]; -- search_scores_pos INTEGER; i INTEGER; iMax FLOAT; location RECORD; way RECORD; relation RECORD; relation_members TEXT[]; relMember RECORD; linkedplacex RECORD; search_diameter FLOAT; search_prevdiameter FLOAT; search_maxrank INTEGER; address_maxrank INTEGER; address_street_word_id INTEGER; parent_place_id_rank BIGINT; isin TEXT[]; isin_tokens INT[]; location_rank_search INTEGER; location_distance FLOAT; tagpairid INTEGER; default_language TEXT; name_vector INTEGER[]; nameaddress_vector INTEGER[]; result BOOLEAN; BEGIN --RAISE WARNING '%',NEW.place_id; --RAISE WARNING '%', NEW; IF NEW.class = 'place' AND NEW.type = 'postcodearea' THEN -- Silently do nothing RETURN NEW; END IF; -- deferred delete IF OLD.indexed_status = 100 THEN delete from placex where place_id = OLD.place_id; RETURN NULL; END IF; IF NEW.indexed_status = 0 and OLD.indexed_status != 0 THEN NEW.indexed_date = now(); IF NEW.class = 'place' AND NEW.type = 'houses' THEN i := create_interpolation(NEW.osm_id, NEW.housenumber); RETURN NEW; END IF; IF OLD.indexed_status > 1 THEN 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); UPDATE placex set linked_place_id = null where linked_place_id = NEW.place_id; END IF; -- reclaculate country and partition (should probably have a country_code and calculated_country_code as seperate fields) SELECT country_code from place where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type INTO NEW.country_code; NEW.country_code := lower(get_country_code(NEW.geometry, NEW.country_code)); NEW.partition := get_partition(NEW.geometry, NEW.country_code); NEW.geometry_sector := geometry_sector(NEW.partition, NEW.geometry); -- Adding ourselves to the list simplifies address calculations later INSERT INTO place_addressline VALUES (NEW.place_id, NEW.place_id, true, true, 0, NEW.rank_address); -- What level are we searching from search_maxrank := NEW.rank_search; -- Speed up searches - just use the centroid of the feature -- cheaper but less acurate place_centroid := ST_Centroid(NEW.geometry); NEW.centroid := null; -- Thought this wasn't needed but when we add new languages to the country_name table -- we need to update the existing names IF NEW.name is not null AND array_upper(akeys(NEW.name),1) > 1 THEN default_language := get_country_language_code(NEW.country_code); IF default_language IS NOT NULL THEN IF NEW.name ? 'name' AND NOT NEW.name ? ('name:'||default_language) THEN NEW.name := NEW.name || (('name:'||default_language) => (NEW.name -> 'name')); ELSEIF NEW.name ? ('name:'||default_language) AND NOT NEW.name ? 'name' THEN NEW.name := NEW.name || ('name' => (NEW.name -> ('name:'||default_language))); END IF; END IF; END IF; -- Initialise the name vector using our name 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; --RAISE WARNING '% %', NEW.place_id, NEW.rank_search; -- For low level elements we inherit from our parent road IF (NEW.rank_search > 27 OR (NEW.type = 'postcode' AND NEW.rank_search = 25)) THEN --RAISE WARNING 'finding street for %', NEW; 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 -- Is this node part of a relation? FOR relation IN select * from planet_osm_rels where parts @> ARRAY[NEW.osm_id::integer] and members @> ARRAY['n'||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 'node in relation %',relation; SELECT place_id from placex where osm_type='W' and osm_id = substring(relation.members[i],2,200)::integer and rank_search = 26 INTO NEW.parent_place_id; END IF; END LOOP; END IF; END LOOP; --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::integer] LOOP --RAISE WARNING '%', way; FOR location IN select * from placex where osm_type = 'W' and osm_id = way.id LOOP --RAISE WARNING '%', location; -- Way IS a road then we are on it - that must be our road IF location.rank_search = 26 AND NEW.parent_place_id IS NULL THEN --RAISE WARNING 'node in way that is a street %',location; NEW.parent_place_id := location.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::integer] and members @> ARRAY['w'||location.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 'node in 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)::integer and rank_search = 26 INTO NEW.parent_place_id; END IF; END LOOP; END IF; END LOOP; END IF; -- If the way contains an explicit name of a street copy it IF NEW.street IS NULL AND location.street IS NOT NULL THEN --RAISE WARNING 'node in way that has a streetname %',location; NEW.street := location.street; 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 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_Line_Interpolate_Point(location.geometry,0))+ ST_distance(placex.geometry, ST_Line_Interpolate_Point(location.geometry,0.5))+ ST_distance(placex.geometry, ST_Line_Interpolate_Point(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; 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::integer] 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)::integer and rank_search = 26 INTO NEW.parent_place_id; END IF; END LOOP; 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_id := get_name_id(make_standard_name(NEW.street)); IF address_street_word_id IS NOT NULL THEN FOR location IN SELECT * from getNearestNamedRoadFeature(NEW.partition, place_centroid, address_street_word_id) LOOP NEW.parent_place_id := location.place_id; END LOOP; END IF; END IF; --RAISE WARNING 'x4 %',NEW.parent_place_id; -- Still nothing, just use the nearest road IF NEW.parent_place_id IS NULL THEN FOR location IN SELECT place_id FROM getNearestRoadFeature(NEW.partition, place_centroid) LOOP NEW.parent_place_id := location.place_id; END LOOP; END IF; --return NEW; --RAISE WARNING 'x6 %',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.country_code := location.country_code; --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 return NEW; END IF; -- Merge address from parent nameaddress_vector := array_merge(nameaddress_vector, location.nameaddress_vector); --return NEW; -- 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 result := add_location(NEW.place_id, NEW.country_code, NEW.partition, name_vector, NEW.rank_search, NEW.rank_address, NEW.geometry); END IF; result := insertSearchName(NEW.partition, NEW.place_id, NEW.country_code, name_vector, nameaddress_vector, NEW.rank_search, NEW.rank_address, NEW.importance, place_centroid); return NEW; END IF; END IF; -- RAISE WARNING ' INDEXING: %',NEW; IF NEW.osm_type = 'R' AND NEW.rank_search < 26 THEN -- see if we have any special relation members select members from planet_osm_rels where id = NEW.osm_id INTO relation_members; FOR relMember IN select get_osm_rel_members(relation_members,ARRAY['label']) as member LOOP select * from placex where osm_type = upper(substring(relMember.member,1,1)) and osm_id = substring(relMember.member,2,10000)::integer order by rank_search desc limit 1 into linkedPlacex; -- If we don't already have one use this as the centre point of the geometry IF NEW.centroid IS NULL THEN NEW.centroid := coalesce(linkedPlacex.centroid,st_centroid(linkedPlacex.geometry)); END IF; -- merge in the label name, re-init word vector NEW.name := linkedPlacex.name || NEW.name; name_vector := make_keywords(NEW.name); -- merge in extra tags NEW.extratags := linkedPlacex.extratags || NEW.extratags; -- mark the linked place (excludes from search results) UPDATE placex set linked_place_id = NEW.place_id where place_id = linkedPlacex.place_id; END LOOP; IF NEW.centroid IS NULL THEN FOR relMember IN select get_osm_rel_members(relation_members,ARRAY['admin_center','admin_centre']) as member LOOP select * from placex where osm_type = upper(substring(relMember.member,1,1)) and osm_id = substring(relMember.member,2,10000)::integer order by rank_search desc limit 1 into linkedPlacex; IF NEW.name->'name' = linkedPlacex.name->'name' AND NEW.rank_search = linkedPlacex.rank_search THEN -- If we don't already have one use this as the centre point of the geometry IF NEW.centroid IS NULL THEN NEW.centroid := coalesce(linkedPlacex.centroid,st_centroid(linkedPlacex.geometry)); END IF; -- merge in the name, re-init word vector NEW.name := linkedPlacex.name || NEW.name; name_vector := make_keywords(NEW.name); -- merge in extra tags NEW.extratags := linkedPlacex.extratags || NEW.extratags; -- mark the linked place (excludes from search results) UPDATE placex set linked_place_id = NEW.place_id where place_id = linkedPlacex.place_id; END IF; END LOOP; END IF; -- not found one yet? how about doing a name search IF NEW.centroid IS NULL THEN FOR linkedPlacex IN select placex.* from search_name join placex using (place_id) WHERE search_name.name_vector @> ARRAY[getorcreate_name_id(make_standard_name(NEW.name->'name'))] AND search_name.search_rank = NEW.rank_search AND search_name.place_id != NEW.place_id AND osm_type = 'N' AND NEW.name->'name' = placex.name->'name' AND st_contains(NEW.geometry, placex.geometry) LOOP -- If we don't already have one use this as the centre point of the geometry IF NEW.centroid IS NULL THEN NEW.centroid := coalesce(linkedPlacex.centroid,st_centroid(linkedPlacex.geometry)); END IF; -- merge in the name, re-init word vector NEW.name := linkedPlacex.name || NEW.name; name_vector := make_keywords(NEW.name); -- merge in extra tags NEW.extratags := linkedPlacex.extratags || NEW.extratags; -- mark the linked place (excludes from search results) UPDATE placex set linked_place_id = NEW.place_id where place_id = linkedPlacex.place_id; END LOOP; END IF; IF NEW.centroid IS NOT NULL THEN place_centroid := NEW.centroid; END IF; END IF; NEW.parent_place_id = 0; parent_place_id_rank = 0; -- convert isin to array of tokenids isin_tokens := '{}'::int[]; IF NEW.isin IS NOT NULL THEN isin := regexp_split_to_array(NEW.isin, E'[;,]'); IF array_upper(isin, 1) IS NOT NULL THEN FOR i IN 1..array_upper(isin, 1) LOOP address_street_word_id := get_name_id(make_standard_name(isin[i])); IF address_street_word_id IS NOT NULL AND NOT(ARRAY[address_street_word_id] <@ isin_tokens) THEN isin_tokens := isin_tokens || address_street_word_id; END IF; END LOOP; END IF; END IF; IF NEW.postcode IS NOT NULL THEN isin := regexp_split_to_array(NEW.postcode, E'[;,]'); IF array_upper(isin, 1) IS NOT NULL THEN FOR i IN 1..array_upper(isin, 1) LOOP address_street_word_id := get_name_id(make_standard_name(isin[i])); IF address_street_word_id IS NOT NULL AND NOT(ARRAY[address_street_word_id] <@ isin_tokens) THEN isin_tokens := isin_tokens || address_street_word_id; END IF; END LOOP; END IF; END IF; --RAISE WARNING 'ISIN: %', isin_tokens; -- Process area matches location_rank_search := 100; location_distance := 0; --RAISE WARNING ' getNearFeatures(%,''%'',%,''%'')',NEW.partition, place_centroid, search_maxrank, isin_tokens; FOR location IN SELECT * from getNearFeatures(NEW.partition, place_centroid, search_maxrank, isin_tokens) LOOP --RAISE WARNING ' AREA: %',location; IF location.rank_search < location_rank_search THEN location_rank_search := location.rank_search; location_distance := location.distance * 1.5; END IF; IF location.distance < location_distance OR NOT location.isguess THEN -- Add it to the list of search terms nameaddress_vector := array_merge(nameaddress_vector, location.keywords::integer[]); INSERT INTO place_addressline VALUES (NEW.place_id, location.place_id, true, NOT address_havelevel[location.rank_address], location.distance, location.rank_address); address_havelevel[location.rank_address] := true; --RAISE WARNING ' Terms: (%) %',location, nameaddress_vector; IF location.rank_address > parent_place_id_rank THEN NEW.parent_place_id = location.place_id; parent_place_id_rank = location.rank_address; END IF; END IF; END LOOP; -- try using the isin value to find parent places IF array_upper(isin_tokens, 1) IS NOT NULL THEN FOR i IN 1..array_upper(isin_tokens, 1) LOOP --RAISE WARNING ' getNearestNamedFeature: % % % %',NEW.partition, place_centroid, search_maxrank, isin_tokens[i]; FOR location IN SELECT * from getNearestNamedFeature(NEW.partition, place_centroid, search_maxrank, isin_tokens[i]) LOOP --RAISE WARNING ' ISIN: %',location; nameaddress_vector := array_merge(nameaddress_vector, location.keywords::integer[]); INSERT INTO place_addressline VALUES (NEW.place_id, location.place_id, false, NOT address_havelevel[location.rank_address], location.distance, location.rank_address); address_havelevel[location.rank_address] := true; IF location.rank_address > parent_place_id_rank THEN NEW.parent_place_id = location.place_id; parent_place_id_rank = location.rank_address; END IF; END LOOP; END LOOP; END IF; -- for long ways we should add search terms for the entire length IF st_length(NEW.geometry) > 0.05 THEN location_rank_search := 100; location_distance := 0; FOR location IN SELECT * from getNearFeatures(NEW.partition, NEW.geometry, search_maxrank, isin_tokens) LOOP IF location.rank_search < location_rank_search THEN location_rank_search := location.rank_search; location_distance := location.distance * 1.5; END IF; IF location.distance < location_distance THEN -- Add it to the list of search terms nameaddress_vector := array_merge(nameaddress_vector, location.keywords::integer[]); INSERT INTO place_addressline VALUES (NEW.place_id, location.place_id, true, false, location.distance, location.rank_address); END IF; END LOOP; END IF; -- 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 result := add_location(NEW.place_id, NEW.country_code, NEW.partition, name_vector, NEW.rank_search, NEW.rank_address, NEW.geometry); 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); END IF; result := insertSearchName(NEW.partition, NEW.place_id, NEW.country_code, name_vector, nameaddress_vector, NEW.rank_search, NEW.rank_address, NEW.importance, place_centroid); -- INSERT INTO search_name values (NEW.place_id, NEW.rank_search, NEW.rank_search, 0, NEW.country_code, name_vector, nameaddress_vector, place_centroid); END IF; -- If we've not managed to pick up a better one - default centroid IF NEW.centroid IS NULL THEN NEW.centroid := place_centroid; END IF; END IF; RETURN NEW; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION placex_delete() RETURNS TRIGGER AS $$ DECLARE b BOOLEAN; classtable TEXT; BEGIN update placex set linked_place_id = null where linked_place_id = OLD.place_id; update placex set indexed_status = 2 where linked_place_id = OLD.place_id and indexed_status = 0; IF OLD.rank_address < 30 THEN -- mark everything linked to this place for re-indexing UPDATE placex set indexed_status = 2 from place_addressline where address_place_id = OLD.place_id and placex.place_id = place_addressline.place_id and indexed_status = 0; DELETE FROM place_addressline where address_place_id = OLD.place_id; b := deleteRoad(OLD.partition, OLD.place_id); update placex set indexed_status = 2 where parent_place_id = OLD.place_id and indexed_status = 0; END IF; IF OLD.rank_address < 26 THEN b := deleteLocationArea(OLD.partition, OLD.place_id); END IF; IF OLD.name is not null THEN b := deleteSearchName(OLD.partition, OLD.place_id); END IF; DELETE FROM place_addressline where place_id = OLD.place_id; -- remove from tables for special search classtable := 'place_classtype_' || OLD.class || '_' || OLD.type; SELECT count(*)>0 FROM pg_tables WHERE tablename = classtable INTO b; IF b THEN EXECUTE 'DELETE FROM ' || classtable::regclass || ' WHERE place_id = $1' USING OLD.place_id; END IF; RETURN OLD; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION place_delete() RETURNS TRIGGER AS $$ DECLARE placeid BIGINT; BEGIN -- RAISE WARNING 'delete: % % % %',OLD.osm_type,OLD.osm_id,OLD.class,OLD.type; -- deleting large polygons can have a massive effect ont he system - require manual intervention to let them through IF st_area(OLD.geometry) > 2 THEN insert into import_polygon_delete values (OLD.osm_type,OLD.osm_id,OLD.class,OLD.type); RETURN NULL; END IF; -- mark for delete UPDATE placex set indexed_status = 100 where osm_type = OLD.osm_type and osm_id = OLD.osm_id and class = OLD.class and type = OLD.type; -- delete from placex where osm_type = OLD.osm_type and osm_id = OLD.osm_id and class = OLD.class and type = OLD.type; RETURN OLD; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION place_insert() RETURNS TRIGGER AS $$ DECLARE i INTEGER; existing RECORD; existingplacex RECORD; existinggeometry GEOMETRY; existingplace_id BIGINT; result BOOLEAN; partition INTEGER; BEGIN IF FALSE and NEW.osm_type = 'R' THEN RAISE WARNING '-----------------------------------------------------------------------------------'; RAISE WARNING 'place_insert: % % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type,st_area(NEW.geometry); select * from placex where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type INTO existingplacex; RAISE WARNING '%', existingplacex; END IF; -- Just block these - lots and pointless IF NEW.class = 'highway' and NEW.type in ('turning_circle','traffic_signals','mini_roundabout','noexit','crossing') THEN RETURN null; END IF; IF NEW.class in ('landuse','natural') and NEW.name is null THEN 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); -- RAISE WARNING 'Invalid Geometry: % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type; RETURN null; END IF; -- Patch in additional country names IF NEW.admin_level = 2 AND NEW.type = 'administrative' AND NEW.country_code is not null THEN select country_name.name || NEW.name from country_name where country_name.country_code = lower(NEW.country_code) INTO NEW.name; END IF; -- Have we already done this place? select * from place where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type INTO existing; -- Get the existing place_id select * from placex where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type INTO existingplacex; -- Handle a place changing type by removing the old data -- My generated 'place' types are causing havok because they overlap with real keys -- TODO: move them to their own special purpose key/class to avoid collisions IF existing.osm_type IS NULL AND (NEW.type not in ('postcode','house','houses')) THEN DELETE FROM place where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type not in ('postcode','house','houses'); END IF; -- RAISE WARNING 'Existing: %',existing.place_id; -- Log and discard IF existing.geometry is not null AND st_isvalid(existing.geometry) AND st_area(existing.geometry) > 0.02 AND ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') AND st_area(NEW.geometry) < st_area(existing.geometry)*0.5 THEN INSERT INTO import_polygon_error values (NEW.osm_type, NEW.osm_id, NEW.class, NEW.type, NEW.name, NEW.country_code, now(), 'Area reduced from '||st_area(existing.geometry)||' to '||st_area(NEW.geometry), existing.geometry, NEW.geometry); RETURN null; END IF; DELETE from import_polygon_error where osm_type = NEW.osm_type and osm_id = NEW.osm_id; DELETE from import_polygon_delete where osm_type = NEW.osm_type and osm_id = NEW.osm_id; -- To paraphrase, if there isn't an existing item, OR if the admin level has changed, OR if it is a major change in geometry IF existing.osm_type IS NULL OR existingplacex.osm_type IS NULL OR coalesce(existing.admin_level, 100) != coalesce(NEW.admin_level, 100) OR coalesce(existing.country_code, '') != coalesce(NEW.country_code, '') OR (existing.geometry::text != NEW.geometry::text AND ST_Distance(ST_Centroid(existing.geometry),ST_Centroid(NEW.geometry)) > 0.01 AND NOT (ST_GeometryType(existing.geometry) in ('ST_Polygon','ST_MultiPolygon') AND ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon'))) THEN -- IF existing.osm_type IS NULL THEN -- RAISE WARNING 'no existing place'; -- END IF; -- IF existingplacex.osm_type IS NULL THEN -- RAISE WARNING 'no existing placex %', existingplacex; -- END IF; -- RAISE WARNING 'delete and replace'; IF existing.osm_type IS NOT NULL THEN -- RAISE WARNING 'insert delete % % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type,ST_Distance(ST_Centroid(existing.geometry),ST_Centroid(NEW.geometry)),existing; DELETE FROM place where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type; END IF; -- RAISE WARNING 'delete and replace2'; -- No - process it as a new insertion (hopefully of low rank or it will be slow) insert into placex (osm_type, osm_id, class, type, name, admin_level, housenumber, street, isin, postcode, country_code, extratags, geometry) values (NEW.osm_type ,NEW.osm_id ,NEW.class ,NEW.type ,NEW.name ,NEW.admin_level ,NEW.housenumber ,NEW.street ,NEW.isin ,NEW.postcode ,NEW.country_code ,NEW.extratags ,NEW.geometry ); -- RAISE WARNING 'insert done % % % %',NEW.osm_type,NEW.osm_id,NEW.class,NEW.type; RETURN NEW; END IF; -- Various ways to do the update -- Debug, what's changed? IF FALSE THEN IF coalesce(existing.name::text, '') != coalesce(NEW.name::text, '') THEN RAISE WARNING 'update details, name: % % % %',NEW.osm_type,NEW.osm_id,existing.name::text,NEW.name::text; END IF; IF coalesce(existing.housenumber, '') != coalesce(NEW.housenumber, '') THEN RAISE WARNING 'update details, housenumber: % % % %',NEW.osm_type,NEW.osm_id,existing.housenumber,NEW.housenumber; END IF; IF coalesce(existing.street, '') != coalesce(NEW.street, '') THEN RAISE WARNING 'update details, street: % % % %',NEW.osm_type,NEW.osm_id,existing.street,NEW.street; END IF; IF coalesce(existing.isin, '') != coalesce(NEW.isin, '') THEN RAISE WARNING 'update details, isin: % % % %',NEW.osm_type,NEW.osm_id,existing.isin,NEW.isin; END IF; IF coalesce(existing.postcode, '') != coalesce(NEW.postcode, '') THEN RAISE WARNING 'update details, postcode: % % % %',NEW.osm_type,NEW.osm_id,existing.postcode,NEW.postcode; END IF; IF coalesce(existing.country_code, '') != coalesce(NEW.country_code, '') THEN RAISE WARNING 'update details, country_code: % % % %',NEW.osm_type,NEW.osm_id,existing.country_code,NEW.country_code; END IF; END IF; -- Special case for polygon shape changes because they tend to be large and we can be a bit clever about how we handle them IF existing.geometry::text != NEW.geometry::text AND ST_GeometryType(existing.geometry) in ('ST_Polygon','ST_MultiPolygon') AND ST_GeometryType(NEW.geometry) in ('ST_Polygon','ST_MultiPolygon') THEN -- Get the version of the geometry actually used (in placex table) select geometry from placex where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type into existinggeometry; -- Performance limit IF st_area(NEW.geometry) < 0.000000001 AND st_area(existinggeometry) < 1 THEN -- re-index points that have moved in / out of the polygon, could be done as a single query but postgres gets the index usage wrong update placex set indexed_status = 2 where indexed_status = 0 and (ST_Contains(NEW.geometry, placex.geometry) OR ST_Intersects(NEW.geometry, placex.geometry)) AND NOT (ST_Contains(existinggeometry, placex.geometry) OR ST_Intersects(existinggeometry, placex.geometry)) AND rank_search > existingplacex.rank_search AND (rank_search < 28 or name is not null); update placex set indexed_status = 2 where indexed_status = 0 and (ST_Contains(existinggeometry, placex.geometry) OR ST_Intersects(existinggeometry, placex.geometry)) AND NOT (ST_Contains(NEW.geometry, placex.geometry) OR ST_Intersects(NEW.geometry, placex.geometry)) AND rank_search > existingplacex.rank_search AND (rank_search < 28 or name is not null); END IF; 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.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.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; END IF; IF coalesce(existing.name::text, '') != coalesce(NEW.name::text, '') OR coalesce(existing.extratags::text, '') != coalesce(NEW.extratags::text, '') OR coalesce(existing.housenumber, '') != coalesce(NEW.housenumber, '') OR coalesce(existing.street, '') != coalesce(NEW.street, '') OR coalesce(existing.isin, '') != coalesce(NEW.isin, '') OR coalesce(existing.postcode, '') != coalesce(NEW.postcode, '') OR coalesce(existing.country_code, '') != coalesce(NEW.country_code, '') OR existing.geometry::text != NEW.geometry::text THEN update place set name = NEW.name, housenumber = NEW.housenumber, street = NEW.street, isin = NEW.isin, postcode = NEW.postcode, country_code = NEW.country_code, extratags = NEW.extratags, geometry = NEW.geometry where osm_type = NEW.osm_type and osm_id = NEW.osm_id and class = NEW.class and type = NEW.type; update placex set name = NEW.name, housenumber = NEW.housenumber, street = NEW.street, isin = NEW.isin, postcode = NEW.postcode, country_code = NEW.country_code, parent_place_id = null, extratags = NEW.extratags, indexed_status = 2, geometry = NEW.geometry where place_id = existingplacex.place_id; -- now done as part of insert -- partition := get_partition(NEW.geometry, existingplacex.country_code); -- result := update_location(partition, existingplacex.place_id, existingplacex.country_code, NEW.name, existingplacex.rank_search, existingplacex.rank_address, NEW.geometry); END IF; -- Abort the add (we modified the existing place instead) RETURN NULL; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_name_by_language(name hstore, languagepref TEXT[]) RETURNS TEXT AS $$ DECLARE search TEXT[]; found BOOLEAN; BEGIN IF name is null THEN RETURN null; END IF; search := languagepref; FOR j IN 1..array_upper(search, 1) LOOP IF name ? search[j] AND trim(name->search[j]) != '' THEN return trim(name->search[j]); END IF; END LOOP; RETURN null; END; $$ 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 $$ DECLARE result TEXT[]; search TEXT[]; for_postcode TEXT; found INTEGER; location RECORD; BEGIN found := 1000; search := ARRAY['ref']; result := '{}'; select postcode from placex where place_id = for_place_id limit 1 into for_postcode; FOR location IN select rank_address,name,distance,length(name::text) as namelength from place_addressline join placex on (address_place_id = placex.place_id) where place_addressline.place_id = for_place_id and rank_address in (5,11) order by rank_address desc,rank_search desc,fromarea desc,distance asc,namelength desc LOOP IF array_upper(search, 1) IS NOT NULL AND array_upper(location.name, 1) IS NOT NULL THEN FOR j IN 1..array_upper(search, 1) LOOP FOR k IN 1..array_upper(location.name, 1) LOOP IF (found > location.rank_address AND location.name[k].key = search[j] AND location.name[k].value != '') AND NOT result @> ARRAY[trim(location.name[k].value)] AND (for_postcode IS NULL OR location.name[k].value ilike for_postcode||'%') THEN result[(100 - location.rank_address)] := trim(location.name[k].value); found := location.rank_address; END IF; END LOOP; END LOOP; END IF; END LOOP; RETURN array_to_string(result,', '); END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_address_by_language(for_place_id BIGINT, languagepref TEXT[]) RETURNS TEXT AS $$ DECLARE result TEXT[]; currresult TEXT; prevresult TEXT; location RECORD; BEGIN result := '{}'; prevresult := ''; FOR location IN select * from get_addressdata(for_place_id) where isaddress order by rank_address desc LOOP currresult := trim(get_name_by_language(location.name, languagepref)); IF currresult != prevresult AND currresult IS NOT NULL THEN result[(100 - location.rank_address)] := trim(get_name_by_language(location.name, languagepref)); prevresult := currresult; END IF; END LOOP; RETURN array_to_string(result,', '); END; $$ LANGUAGE plpgsql; DROP TYPE addressline CASCADE; create type addressline as ( place_id BIGINT, osm_type CHAR(1), osm_id INTEGER, name HSTORE, class TEXT, type TEXT, admin_level INTEGER, fromarea BOOLEAN, isaddress BOOLEAN, rank_address INTEGER, distance FLOAT ); CREATE OR REPLACE FUNCTION get_addressdata(in_place_id BIGINT) RETURNS setof addressline AS $$ DECLARE for_place_id BIGINT; result TEXT[]; search TEXT[]; found INTEGER; location RECORD; countrylocation RECORD; searchcountrycode varchar(2); searchhousenumber TEXT; searchhousename HSTORE; searchrankaddress INTEGER; searchpostcode TEXT; searchclass TEXT; searchtype TEXT; countryname HSTORE; hadcountry BOOLEAN; BEGIN select parent_place_id,'us', housenumber, 30, postcode, null, 'place', 'house' from location_property_tiger WHERE place_id = in_place_id INTO for_place_id,searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode, searchhousename, searchclass, searchtype; IF for_place_id IS NULL THEN select parent_place_id,'us', housenumber, 30, postcode, null, 'place', 'house' from location_property_aux WHERE place_id = in_place_id INTO for_place_id,searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode, searchhousename, searchclass, searchtype; END IF; IF for_place_id IS NULL THEN select parent_place_id, country_code, housenumber, rank_address, postcode, name, class, type from placex WHERE place_id = in_place_id and rank_address = 30 INTO for_place_id, searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode, searchhousename, searchclass, searchtype; END IF; IF for_place_id IS NULL THEN for_place_id := in_place_id; select country_code, housenumber, rank_address, postcode, null from placex where place_id = for_place_id INTO searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode, searchhousename; END IF; --RAISE WARNING '% % % %',searchcountrycode, searchhousenumber, searchrankaddress, searchpostcode; found := 1000; hadcountry := false; FOR location IN select placex.place_id, osm_type, osm_id, CASE WHEN class = 'place' and type = 'postcode' THEN 'name' => postcode ELSE name END as name, class, type, admin_level, true as fromarea, true as isaddress, CASE WHEN rank_address = 0 THEN 100 WHEN rank_address = 11 THEN 5 ELSE rank_address END as rank_address, 0 as distance, country_code from placex where place_id = for_place_id LOOP --RAISE WARNING '%',location; IF searchcountrycode IS NULL AND location.country_code IS NOT NULL THEN searchcountrycode := location.country_code; END IF; IF searchpostcode IS NOT NULL and location.type = 'postcode' THEN location.isaddress := FALSE; END IF; IF location.rank_address = 4 AND location.isaddress THEN hadcountry := true; END IF; IF location.rank_address < 4 AND NOT hadcountry THEN select name from country_name where country_code = searchcountrycode limit 1 INTO countryname; IF countryname IS NOT NULL THEN countrylocation := ROW(null, null, null, countryname, 'place', 'country', null, true, true, 4, 0)::addressline; RETURN NEXT countrylocation; END IF; END IF; countrylocation := ROW(location.place_id, location.osm_type, location.osm_id, location.name, location.class, location.type, location.admin_level, location.fromarea, location.isaddress, location.rank_address, location.distance)::addressline; RETURN NEXT countrylocation; found := location.rank_address; END LOOP; FOR location IN select placex.place_id, osm_type, osm_id, CASE WHEN class = 'place' and type = 'postcode' THEN 'name' => postcode ELSE name END as name, class, type, admin_level, fromarea, isaddress, CASE WHEN address_place_id = for_place_id AND rank_address = 0 THEN 100 WHEN rank_address = 11 THEN 5 ELSE rank_address END as rank_address, distance,country_code from place_addressline join placex on (address_place_id = placex.place_id) where place_addressline.place_id = for_place_id and (cached_rank_address > 0 AND cached_rank_address < searchrankaddress) and address_place_id != for_place_id and (placex.country_code IS NULL OR searchcountrycode IS NULL OR placex.country_code = searchcountrycode OR rank_address < 4) order by rank_address desc,isaddress desc,fromarea desc,distance asc,rank_search desc LOOP --RAISE WARNING '%',location; IF searchcountrycode IS NULL AND location.country_code IS NOT NULL THEN searchcountrycode := location.country_code; END IF; IF searchpostcode IS NOT NULL and location.type = 'postcode' THEN location.isaddress := FALSE; END IF; IF location.rank_address = 4 AND location.isaddress THEN hadcountry := true; END IF; IF location.rank_address < 4 AND NOT hadcountry THEN select name from country_name where country_code = searchcountrycode limit 1 INTO countryname; IF countryname IS NOT NULL THEN countrylocation := ROW(null, null, null, countryname, 'place', 'country', null, true, true, 4, 0)::addressline; RETURN NEXT countrylocation; END IF; END IF; countrylocation := ROW(location.place_id, location.osm_type, location.osm_id, location.name, location.class, location.type, location.admin_level, location.fromarea, location.isaddress, location.rank_address, location.distance)::addressline; RETURN NEXT countrylocation; found := location.rank_address; END LOOP; IF found > 4 THEN select name from country_name where country_code = searchcountrycode limit 1 INTO countryname; --RAISE WARNING '% % %',found,searchcountrycode,countryname; IF countryname IS NOT NULL THEN location := ROW(null, null, null, countryname, 'place', 'country', null, true, true, 4, 0)::addressline; RETURN NEXT location; END IF; END IF; IF searchcountrycode IS NOT NULL THEN location := ROW(null, null, null, 'ref'=>searchcountrycode, 'place', 'country_code', null, true, false, 4, 0)::addressline; RETURN NEXT location; END IF; IF searchhousename IS NOT NULL THEN location := ROW(in_place_id, null, null, searchhousename, searchclass, searchtype, null, true, true, 29, 0)::addressline; -- location := ROW(in_place_id, null, null, searchhousename, 'place', 'house_name', null, true, true, 29, 0)::addressline; RETURN NEXT location; END IF; IF searchhousenumber IS NOT NULL THEN location := ROW(in_place_id, null, null, 'ref'=>searchhousenumber, 'place', 'house_number', null, true, true, 28, 0)::addressline; RETURN NEXT location; END IF; IF searchpostcode IS NOT NULL THEN location := ROW(null, null, null, 'ref'=>searchpostcode, 'place', 'postcode', null, true, true, 5, 0)::addressline; RETURN NEXT location; END IF; RETURN; END; $$ 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 $$ DECLARE result place_boundingbox; numfeatures integer; BEGIN update placex set name = place.name, housenumber = place.housenumber, street = place.street, isin = place.isin, postcode = place.postcode, country_code = place.country_code, parent_place_id = null from place where placex.place_id = search_place_id and place.osm_type = placex.osm_type and place.osm_id = placex.osm_id and place.class = placex.class and place.type = placex.type; update placex set indexed_status = 2 where place_id = search_place_id; update placex set indexed_status = 0 where place_id = search_place_id; return true; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_searchrank_label(rank INTEGER) RETURNS TEXT AS $$ DECLARE BEGIN IF rank < 2 THEN RETURN 'Continent'; ELSEIF rank < 4 THEN RETURN 'Sea'; ELSEIF rank < 8 THEN RETURN 'Country'; ELSEIF rank < 12 THEN RETURN 'State'; ELSEIF rank < 16 THEN RETURN 'County'; ELSEIF rank = 16 THEN RETURN 'City'; ELSEIF rank = 17 THEN RETURN 'Town / Island'; ELSEIF rank = 18 THEN RETURN 'Village / Hamlet'; ELSEIF rank = 20 THEN RETURN 'Suburb'; ELSEIF rank = 21 THEN RETURN 'Postcode Area'; ELSEIF rank = 22 THEN RETURN 'Croft / Farm / Locality / Islet'; ELSEIF rank = 23 THEN RETURN 'Postcode Area'; ELSEIF rank = 25 THEN RETURN 'Postcode Point'; ELSEIF rank = 26 THEN RETURN 'Street / Major Landmark'; ELSEIF rank = 27 THEN RETURN 'Minory Street / Path'; ELSEIF rank = 28 THEN RETURN 'House / Building'; ELSE RETURN 'Other: '||rank; END IF; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_addressrank_label(rank INTEGER) RETURNS TEXT AS $$ DECLARE BEGIN IF rank = 0 THEN RETURN 'None'; ELSEIF rank < 2 THEN RETURN 'Continent'; ELSEIF rank < 4 THEN RETURN 'Sea'; ELSEIF rank = 5 THEN RETURN 'Postcode'; ELSEIF rank < 8 THEN RETURN 'Country'; ELSEIF rank < 12 THEN RETURN 'State'; ELSEIF rank < 16 THEN RETURN 'County'; ELSEIF rank = 16 THEN RETURN 'City'; ELSEIF rank = 17 THEN RETURN 'Town / Village / Hamlet'; ELSEIF rank = 20 THEN RETURN 'Suburb'; ELSEIF rank = 21 THEN RETURN 'Postcode Area'; ELSEIF rank = 22 THEN RETURN 'Croft / Farm / Locality / Islet'; ELSEIF rank = 23 THEN RETURN 'Postcode Area'; ELSEIF rank = 25 THEN RETURN 'Postcode Point'; ELSEIF rank = 26 THEN RETURN 'Street / Major Landmark'; ELSEIF rank = 27 THEN RETURN 'Minory Street / Path'; ELSEIF rank = 28 THEN RETURN 'House / Building'; ELSE RETURN 'Other: '||rank; END IF; END; $$ 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 tigger_create_interpolation(linegeo GEOMETRY, in_startnumber INTEGER, in_endnumber INTEGER, interpolationtype TEXT, in_street TEXT, in_isin TEXT, in_postcode TEXT) RETURNS INTEGER AS $$ DECLARE startnumber INTEGER; endnumber INTEGER; stepsize INTEGER; housenum INTEGER; newpoints INTEGER; numberrange INTEGER; rangestartnumber INTEGER; place_centroid GEOMETRY; out_partition INTEGER; out_parent_place_id BIGINT; location RECORD; address_street_word_id INTEGER; BEGIN IF in_endnumber > in_startnumber THEN startnumber = in_startnumber; endnumber = in_endnumber; ELSE startnumber = in_endnumber; endnumber = in_startnumber; END IF; numberrange := endnumber - startnumber; rangestartnumber := startnumber; IF (interpolationtype = 'odd' AND startnumber%2 = 0) OR (interpolationtype = 'even' AND startnumber%2 = 1) THEN startnumber := startnumber + 1; stepsize := 2; ELSE IF (interpolationtype = 'odd' OR interpolationtype = 'even') THEN stepsize := 2; ELSE -- everything else assumed to be 'all' stepsize := 1; END IF; END IF; -- Filter out really broken tiger data IF numberrange > 0 AND (numberrange::float/stepsize::float > 500) AND ST_length(linegeo)/(numberrange::float/stepsize::float) < 0.000001 THEN RAISE WARNING 'Road too short for number range % to % on %, % (%)',startnumber,endnumber,in_street,in_isin, ST_length(linegeo)/(numberrange::float/stepsize::float); RETURN 0; END IF; place_centroid := ST_Centroid(linegeo); out_partition := get_partition(place_centroid, 'us'); out_parent_place_id := null; address_street_word_id := get_name_id(make_standard_name(in_street)); IF address_street_word_id IS NOT NULL THEN FOR location IN SELECT * from getNearestNamedRoadFeature(out_partition, place_centroid, address_street_word_id) LOOP out_parent_place_id := location.place_id; END LOOP; END IF; IF out_parent_place_id IS NULL THEN FOR location IN SELECT place_id FROM getNearestParellelRoadFeature(out_partition, linegeo) LOOP out_parent_place_id := location.place_id; END LOOP; END IF; IF out_parent_place_id IS NULL THEN FOR location IN SELECT place_id FROM getNearestRoadFeature(out_partition, place_centroid) LOOP out_parent_place_id := location.place_id; END LOOP; END IF; newpoints := 0; FOR housenum IN startnumber..endnumber BY stepsize LOOP insert into location_property_tiger (place_id, partition, parent_place_id, housenumber, postcode, centroid) values (nextval('seq_place'), out_partition, out_parent_place_id, housenum, in_postcode, ST_Line_Interpolate_Point(linegeo, (housenum::float-rangestartnumber::float)/numberrange::float)); newpoints := newpoints + 1; END LOOP; RETURN newpoints; 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 $$ DECLARE newpoints INTEGER; place_centroid GEOMETRY; out_partition INTEGER; out_parent_place_id BIGINT; location RECORD; address_street_word_id INTEGER; out_postcode TEXT; BEGIN place_centroid := ST_Centroid(pointgeo); out_partition := get_partition(place_centroid, in_countrycode); out_parent_place_id := null; address_street_word_id := get_name_id(make_standard_name(in_street)); IF address_street_word_id IS NOT NULL THEN FOR location IN SELECT * from getNearestNamedRoadFeature(out_partition, place_centroid, address_street_word_id) LOOP out_parent_place_id := location.place_id; END LOOP; END IF; IF out_parent_place_id IS NULL THEN FOR location IN SELECT place_id FROM getNearestRoadFeature(out_partition, place_centroid) LOOP out_parent_place_id := location.place_id; END LOOP; END IF; out_postcode := in_postcode; IF out_postcode IS NULL THEN SELECT postcode from placex where place_id = out_parent_place_id INTO out_postcode; END IF; IF out_postcode IS NULL THEN out_postcode := getNearestPostcode(out_partition, place_centroid); END IF; newpoints := 0; insert into location_property_aux (place_id, partition, parent_place_id, housenumber, postcode, centroid) values (nextval('seq_place'), out_partition, out_parent_place_id, in_housenumber, out_postcode, place_centroid); newpoints := newpoints + 1; RETURN newpoints; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_osm_rel_members(members TEXT[], member TEXT) RETURNS TEXT[] AS $$ DECLARE result TEXT[]; i INTEGER; BEGIN FOR i IN 1..ARRAY_UPPER(members,1) BY 2 LOOP IF members[i+1] = member THEN result := result || members[i]; END IF; END LOOP; return result; END; $$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION get_osm_rel_members(members TEXT[], memberLabels TEXT[]) RETURNS SETOF TEXT AS $$ DECLARE i INTEGER; BEGIN FOR i IN 1..ARRAY_UPPER(members,1) BY 2 LOOP IF members[i+1] = ANY(memberLabels) THEN RETURN NEXT members[i]; END IF; END LOOP; RETURN; END; $$ LANGUAGE plpgsql;