2154 lines
103 KiB
MySQL
2154 lines
103 KiB
MySQL
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--DO NOT MODIFY THIS FILE, IT IS GENERATED AUTOMATICALLY FROM SOURCES
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-- Complain if script is sourced in psql, rather than via CREATE EXTENSION
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\echo Use "CREATE EXTENSION observatory" to load this file. \quit
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-- Version number of the extension release
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CREATE OR REPLACE FUNCTION cdb_observatory_version()
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RETURNS text AS $$
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SELECT '1.0.5'::text;
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$$ language 'sql' STABLE STRICT;
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-- Internal identifier of the installed extension instence
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-- e.g. 'dev' for current development version
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CREATE OR REPLACE FUNCTION _cdb_observatory_internal_version()
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RETURNS text AS $$
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SELECT installed_version FROM pg_available_extensions where name='observatory' and pg_available_extensions IS NOT NULL;
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$$ language 'sql' STABLE STRICT;
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CREATE OR REPLACE FUNCTION cdb_observatory._OBS_ConnectRemoteTable(fdw_name text, schema_name text, user_dbname text, user_hostname text, username text, user_tablename text, user_schema text)
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RETURNS void
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AS $$
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DECLARE
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row record;
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option record;
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connection_str json;
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BEGIN
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-- Build connection string
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connection_str := '{"server":{"extensions":"postgis", "dbname":"'
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|| user_dbname ||'", "host":"' || user_hostname ||'", "port":"6432"}, "users":{"public"'
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|| ':{"user":"' || username ||'", "password":""} } }';
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-- This function tries to be as idempotent as possible, by not creating anything more than once
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-- (not even using IF NOT EXIST to avoid throwing warnings)
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IF NOT EXISTS ( SELECT * FROM pg_extension WHERE extname = 'postgres_fdw') THEN
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CREATE EXTENSION postgres_fdw;
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END IF;
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-- Create FDW first if it does not exist
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IF NOT EXISTS ( SELECT * FROM pg_foreign_server WHERE srvname = fdw_name)
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THEN
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EXECUTE FORMAT('CREATE SERVER %I FOREIGN DATA WRAPPER postgres_fdw', fdw_name);
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END IF;
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-- Set FDW settings
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FOR row IN SELECT p.key, p.value from lateral json_each_text(connection_str->'server') p
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LOOP
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IF NOT EXISTS (WITH a AS (select split_part(unnest(srvoptions), '=', 1) as options from pg_foreign_server where srvname=fdw_name) SELECT * from a where options = row.key)
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THEN
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EXECUTE FORMAT('ALTER SERVER %I OPTIONS (ADD %I %L)', fdw_name, row.key, row.value);
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ELSE
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EXECUTE FORMAT('ALTER SERVER %I OPTIONS (SET %I %L)', fdw_name, row.key, row.value);
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END IF;
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END LOOP;
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-- Create user mappings
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FOR row IN SELECT p.key, p.value from lateral json_each(connection_str->'users') p LOOP
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-- Check if entry on pg_user_mappings exists
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IF NOT EXISTS ( SELECT * FROM pg_user_mappings WHERE srvname = fdw_name AND usename = row.key ) THEN
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EXECUTE FORMAT ('CREATE USER MAPPING FOR %I SERVER %I', row.key, fdw_name);
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END IF;
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-- Update user mapping settings
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FOR option IN SELECT o.key, o.value from lateral json_each_text(row.value) o LOOP
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IF NOT EXISTS (WITH a AS (select split_part(unnest(umoptions), '=', 1) as options from pg_user_mappings WHERE srvname = fdw_name AND usename = row.key) SELECT * from a where options = option.key) THEN
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EXECUTE FORMAT('ALTER USER MAPPING FOR %I SERVER %I OPTIONS (ADD %I %L)', row.key, fdw_name, option.key, option.value);
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ELSE
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EXECUTE FORMAT('ALTER USER MAPPING FOR %I SERVER %I OPTIONS (SET %I %L)', row.key, fdw_name, option.key, option.value);
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END IF;
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END LOOP;
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END LOOP;
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-- Create schema if it does not exist.
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IF NOT EXISTS ( SELECT * from pg_namespace WHERE nspname=fdw_name) THEN
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EXECUTE FORMAT ('CREATE SCHEMA %I', fdw_name);
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END IF;
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-- Bring the remote cdb_tablemetadata
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IF NOT EXISTS ( SELECT * FROM PG_CLASS WHERE relnamespace = (SELECT oid FROM pg_namespace WHERE nspname=fdw_name) and relname='cdb_tablemetadata') THEN
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EXECUTE FORMAT ('CREATE FOREIGN TABLE %I.cdb_tablemetadata (tabname text, updated_at timestamp with time zone) SERVER %I OPTIONS (table_name ''cdb_tablemetadata_text'', schema_name ''public'', updatable ''false'')', fdw_name, fdw_name);
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END IF;
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-- Import target table
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EXECUTE FORMAT ('IMPORT FOREIGN SCHEMA %I LIMIT TO (%I) from SERVER %I INTO %I', user_schema, user_tablename, fdw_name, schema_name);
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END;
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$$ LANGUAGE PLPGSQL;
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-- Returns the table name with geoms for the given geometry_id
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-- TODO probably needs to take in the column_id array to get the relevant
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-- table where there is multiple sources for a column from multiple
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-- geometries.
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CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GeomTable(
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geom geometry(Geometry, 4326),
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geometry_id text,
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time_span text DEFAULT NULL
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)
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RETURNS TEXT
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AS $$
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DECLARE
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result text;
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BEGIN
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EXECUTE '
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SELECT tablename FROM observatory.OBS_table
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WHERE id IN (
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SELECT table_id
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FROM observatory.OBS_table tab,
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observatory.OBS_column_table coltable,
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observatory.OBS_column col
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WHERE type ILIKE ''geometry''
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AND coltable.column_id = col.id
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AND coltable.table_id = tab.id
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AND col.id = $1
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AND CASE WHEN $3::TEXT IS NOT NULL THEN timespan ILIKE $3::TEXT ELSE TRUE END
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ORDER BY timespan DESC LIMIT 1
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)
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'
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USING geometry_id, geom, time_span
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INTO result;
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return result;
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END;
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$$ LANGUAGE plpgsql;
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-- A function that gets the column data for multiple columns
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-- Old: OBS_GetColumnData
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CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetColumnData(
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geometry_id text,
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column_ids text[],
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timespan text
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)
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RETURNS SETOF JSON
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AS $$
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BEGIN
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-- figure out highest-weight geometry_id/timespan pair for the first data column
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-- TODO this should be done for each data column separately
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IF geometry_id IS NULL OR timespan IS NULL THEN
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EXECUTE '
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SELECT data_t.timespan timespan, geom_c.id boundary_id
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FROM observatory.obs_table data_t,
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observatory.obs_column_table data_ct,
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observatory.obs_column data_c,
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observatory.obs_column_table geoid_ct,
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observatory.obs_column_to_column c2c,
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observatory.obs_column geom_c
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WHERE data_c.id = $2
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AND data_ct.column_id = data_c.id
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AND data_ct.table_id = data_t.id
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AND geoid_ct.table_id = data_t.id
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AND geoid_ct.column_id = c2c.source_id
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AND c2c.reltype = ''geom_ref''
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AND geom_c.id = c2c.target_id
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AND CASE WHEN $3 IS NULL THEN True ELSE $3 = timespan END
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AND CASE WHEN $1 IS NULL THEN True ELSE $1 = geom_c.id END
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ORDER BY geom_c.weight DESC,
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data_t.timespan DESC
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LIMIT 1
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' INTO timespan, geometry_id
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USING geometry_id, (column_ids)[1], timespan;
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END IF;
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RETURN QUERY
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EXECUTE '
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WITH geomref AS (
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SELECT ct.table_id id
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FROM observatory.OBS_column_to_column c2c,
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observatory.OBS_column_table ct
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WHERE c2c.reltype = ''geom_ref''
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AND c2c.target_id = $1
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AND c2c.source_id = ct.column_id
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),
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column_ids as (
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select row_number() over () as no, a.column_id as column_id from (select unnest($2) as column_id) a
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)
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SELECT row_to_json(a) from (
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select colname,
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tablename,
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aggregate,
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name,
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type,
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c.description,
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$1 AS boundary_id
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FROM column_ids, observatory.OBS_column c, observatory.OBS_column_table ct, observatory.OBS_table t
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WHERE column_ids.column_id = c.id
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AND c.id = ct.column_id
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AND t.id = ct.table_id
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AND t.timespan = $3
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AND t.id in (SELECT id FROM geomref)
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order by column_ids.no
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) a
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'
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USING geometry_id, column_ids, timespan
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RETURN;
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END;
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$$ LANGUAGE plpgsql;
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--Test point cause Stuart always seems to make random points in the water
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CREATE OR REPLACE FUNCTION cdb_observatory._TestPoint()
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RETURNS geometry(Point, 4326)
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AS $$
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BEGIN
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-- new york city
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RETURN ST_SetSRID(ST_Point( -73.936669, 40.704512), 4326);
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END;
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$$ LANGUAGE plpgsql;
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--Test polygon cause Stuart always seems to make random points in the water
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-- TODO: remove as it's not used anywhere?
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CREATE OR REPLACE FUNCTION cdb_observatory._TestArea()
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RETURNS geometry(Geometry, 4326)
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AS $$
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BEGIN
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-- Buffer NYC point by 500 meters
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RETURN ST_Buffer(cdb_observatory._TestPoint()::geography, 500)::geometry;
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END;
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$$ LANGUAGE plpgsql;
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--Problematic test area that tends to cause errors
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CREATE OR REPLACE FUNCTION cdb_observatory._ProblemTestArea()
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RETURNS geometry(Geometry, 4326)
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AS $$
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BEGIN
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RETURN ST_Translate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
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
--Used to expand a column based response to a table based one. Give it the desired
|
||
|
--columns and it will return a partial query for rolling them out to a table.
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_BuildSnapshotQuery(names text[])
|
||
|
RETURNS TEXT
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
q text;
|
||
|
i numeric;
|
||
|
BEGIN
|
||
|
|
||
|
q := 'SELECT ';
|
||
|
|
||
|
FOR i IN 1..array_upper(names,1)
|
||
|
LOOP
|
||
|
q = q || format(' vals[%s] As %I', i, names[i]);
|
||
|
IF i < array_upper(names, 1) THEN
|
||
|
q= q || ',';
|
||
|
END IF;
|
||
|
END LOOP;
|
||
|
RETURN q;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- Function that replaces all non digits or letters with _ trims and lowercases the
|
||
|
-- passed measure name
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_StandardizeMeasureName(measure_name text)
|
||
|
RETURNS text
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
result text;
|
||
|
BEGIN
|
||
|
-- Turn non letter or digits to _
|
||
|
result = regexp_replace(measure_name, '[^\dA-Za-z]+','_', 'g');
|
||
|
-- Remove duplicate _'s
|
||
|
result = regexp_replace(result,'_{2,}','_', 'g');
|
||
|
-- Trim _'s from beginning and end
|
||
|
result = trim(both '_' from result);
|
||
|
result = lower(result);
|
||
|
RETURN result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- Function that returns the currently deployed obs_dump_version from the
|
||
|
-- remote table of the same name.
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_DumpVersion(
|
||
|
)
|
||
|
RETURNS TEXT
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
result text;
|
||
|
BEGIN
|
||
|
EXECUTE '
|
||
|
SELECT MAX(dump_id) FROM observatory.obs_dump_version
|
||
|
' INTO result;
|
||
|
RETURN result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
--For Longer term Dev
|
||
|
|
||
|
|
||
|
--Break out table definitions to types
|
||
|
--Automate type creation from a script, something like
|
||
|
----CREATE OR REPLACE FUNCTION OBS_Get<%=tag_name%>(geom GEOMETRY)
|
||
|
----RETURNS TABLE(
|
||
|
----<%=get_dimensions_for_tag(tag_name)%>
|
||
|
----AS $$
|
||
|
----DECLARE
|
||
|
----target_cols text[];
|
||
|
----names text[];
|
||
|
----vals NUMERIC[];-
|
||
|
----q text;
|
||
|
----BEGIN
|
||
|
----target_cols := Array[<%=get_dimensions_for_tag(tag_name)%>],
|
||
|
|
||
|
|
||
|
--Functions for augmenting specific tables
|
||
|
--------------------------------------------------------------------------------
|
||
|
|
||
|
-- Creates a table of demographic snapshot
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetDemographicSnapshot(geom geometry(Geometry, 4326),
|
||
|
time_span text DEFAULT NULL,
|
||
|
boundary_id text DEFAULT NULL)
|
||
|
RETURNS SETOF JSON
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
target_cols text[];
|
||
|
BEGIN
|
||
|
|
||
|
IF time_span IS NULL THEN
|
||
|
time_span = '2010 - 2014';
|
||
|
END IF;
|
||
|
|
||
|
IF boundary_id IS NULL THEN
|
||
|
boundary_id = 'us.census.tiger.block_group';
|
||
|
END IF;
|
||
|
|
||
|
target_cols := Array['us.census.acs.B01003001',
|
||
|
'us.census.acs.B01001002',
|
||
|
'us.census.acs.B01001026',
|
||
|
'us.census.acs.B01002001',
|
||
|
'us.census.acs.B03002003',
|
||
|
'us.census.acs.B03002004',
|
||
|
'us.census.acs.B03002006',
|
||
|
'us.census.acs.B03002012',
|
||
|
'us.census.acs.B03002005',
|
||
|
'us.census.acs.B03002008',
|
||
|
'us.census.acs.B03002009',
|
||
|
'us.census.acs.B03002002',
|
||
|
--'not_us_citizen_pop',
|
||
|
--'workers_16_and_over',
|
||
|
--'commuters_by_car_truck_van',
|
||
|
--'commuters_drove_alone',
|
||
|
--'commuters_by_carpool',
|
||
|
--'commuters_by_public_transportation',
|
||
|
--'commuters_by_bus',
|
||
|
--'commuters_by_subway_or_elevated',
|
||
|
--'walked_to_work',
|
||
|
--'worked_at_home',
|
||
|
--'children',
|
||
|
'us.census.acs.B11001001',
|
||
|
--'population_3_years_over',
|
||
|
--'in_school',
|
||
|
--'in_grades_1_to_4',
|
||
|
--'in_grades_5_to_8',
|
||
|
--'in_grades_9_to_12',
|
||
|
--'in_undergrad_college',
|
||
|
'us.census.acs.B15003001',
|
||
|
'us.census.acs.B15003017',
|
||
|
'us.census.acs.B15003019',
|
||
|
'us.census.acs.B15003020',
|
||
|
'us.census.acs.B15003021',
|
||
|
'us.census.acs.B15003022',
|
||
|
'us.census.acs.B15003023',
|
||
|
--'pop_5_years_over',
|
||
|
--'speak_only_english_at_home',
|
||
|
--'speak_spanish_at_home',
|
||
|
--'pop_determined_poverty_status',
|
||
|
--'poverty',
|
||
|
'us.census.acs.B19013001',
|
||
|
'us.census.acs.B19083001',
|
||
|
'us.census.acs.B19301001',
|
||
|
'us.census.acs.B25001001',
|
||
|
'us.census.acs.B25002003',
|
||
|
'us.census.acs.B25004002',
|
||
|
'us.census.acs.B25004004',
|
||
|
'us.census.acs.B25058001',
|
||
|
'us.census.acs.B25071001',
|
||
|
'us.census.acs.B25075001',
|
||
|
'us.census.acs.B25075025',
|
||
|
'us.census.acs.B25081002',
|
||
|
--'pop_15_and_over',
|
||
|
--'pop_never_married',
|
||
|
--'pop_now_married',
|
||
|
--'pop_separated',
|
||
|
--'pop_widowed',
|
||
|
--'pop_divorced',
|
||
|
'us.census.acs.B08134001',
|
||
|
'us.census.acs.B08134002',
|
||
|
'us.census.acs.B08134003',
|
||
|
'us.census.acs.B08134004',
|
||
|
'us.census.acs.B08134005',
|
||
|
'us.census.acs.B08134006',
|
||
|
'us.census.acs.B08134007',
|
||
|
'us.census.acs.B08134008',
|
||
|
'us.census.acs.B08134009',
|
||
|
'us.census.acs.B08134010',
|
||
|
'us.census.acs.B08135001',
|
||
|
'us.census.acs.B19001002',
|
||
|
'us.census.acs.B19001003',
|
||
|
'us.census.acs.B19001004',
|
||
|
'us.census.acs.B19001005',
|
||
|
'us.census.acs.B19001006',
|
||
|
'us.census.acs.B19001007',
|
||
|
'us.census.acs.B19001008',
|
||
|
'us.census.acs.B19001009',
|
||
|
'us.census.acs.B19001010',
|
||
|
'us.census.acs.B19001011',
|
||
|
'us.census.acs.B19001012',
|
||
|
'us.census.acs.B19001013',
|
||
|
'us.census.acs.B19001014',
|
||
|
'us.census.acs.B19001015',
|
||
|
'us.census.acs.B19001016',
|
||
|
'us.census.acs.B19001017'];
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
'select * from cdb_observatory._OBS_Get($1, $2, $3, $4 )'
|
||
|
USING geom, target_cols, time_span, boundary_id
|
||
|
RETURN;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
--Base functions for performing augmentation
|
||
|
----------------------------------------------------------------------------------------
|
||
|
|
||
|
-- Base augmentation fucntion.
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_Get(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
column_ids text[],
|
||
|
time_span text,
|
||
|
geometry_level text
|
||
|
)
|
||
|
RETURNS SETOF JSON
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
results json[];
|
||
|
geom_table_name text;
|
||
|
names text[];
|
||
|
query text;
|
||
|
data_table_info json[];
|
||
|
BEGIN
|
||
|
|
||
|
EXECUTE
|
||
|
'SELECT array_agg(_obs_getcolumndata)
|
||
|
FROM cdb_observatory._OBS_GetColumnData($1, $2, $3);'
|
||
|
INTO data_table_info
|
||
|
USING geometry_level, column_ids, time_span;
|
||
|
|
||
|
IF geometry_level IS NULL THEN
|
||
|
geometry_level = data_table_info[1]->>'boundary_id';
|
||
|
END IF;
|
||
|
|
||
|
geom_table_name := cdb_observatory._OBS_GeomTable(geom, geometry_level);
|
||
|
|
||
|
IF geom_table_name IS NULL
|
||
|
THEN
|
||
|
--raise notice 'Point % is outside of the data region', ST_AsText(geom);
|
||
|
-- TODO this should return JSON
|
||
|
RETURN QUERY SELECT '{}'::json;
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
IF data_table_info IS NULL THEN
|
||
|
--raise notice 'Cannot find data table for boundary ID %, column_ids %, and time_span %', geometry_level, column_ids, time_span;
|
||
|
END IF;
|
||
|
|
||
|
IF ST_GeometryType(geom) = 'ST_Point'
|
||
|
THEN
|
||
|
--raise notice 'geom_table_name %, data_table_info %', geom_table_name, data_table_info::json[];
|
||
|
results := cdb_observatory._OBS_GetPoints(geom,
|
||
|
geom_table_name,
|
||
|
data_table_info);
|
||
|
|
||
|
ELSIF ST_GeometryType(geom) IN ('ST_Polygon', 'ST_MultiPolygon')
|
||
|
THEN
|
||
|
results := cdb_observatory._OBS_GetPolygons(geom,
|
||
|
geom_table_name,
|
||
|
data_table_info);
|
||
|
END IF;
|
||
|
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT unnest($1)
|
||
|
$query$
|
||
|
USING results;
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
-- If the variable of interest is just a rate return it as such,
|
||
|
-- otherwise normalize it to the census block area and return that
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetPoints(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
geom_table_name text, -- TODO: change to boundary_id
|
||
|
data_table_info json[]
|
||
|
)
|
||
|
RETURNS json[]
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
result NUMERIC[];
|
||
|
json_result json[];
|
||
|
query text;
|
||
|
i int;
|
||
|
geoid text;
|
||
|
data_geoid_colname text;
|
||
|
geom_geoid_colname text;
|
||
|
area NUMERIC;
|
||
|
BEGIN
|
||
|
|
||
|
-- TODO we're assuming our geom_table has only one geom_ref column
|
||
|
-- we *really* should pass in both geom_table_name and boundary_id
|
||
|
-- TODO tablename should not be passed here (use boundary_id)
|
||
|
EXECUTE
|
||
|
format('SELECT ct.colname
|
||
|
FROM observatory.obs_column_to_column c2c,
|
||
|
observatory.obs_column_table ct,
|
||
|
observatory.obs_table t
|
||
|
WHERE c2c.reltype = ''geom_ref''
|
||
|
AND ct.column_id = c2c.source_id
|
||
|
AND ct.table_id = t.id
|
||
|
AND t.tablename = %L'
|
||
|
, (data_table_info)[1]->>'tablename')
|
||
|
INTO data_geoid_colname;
|
||
|
EXECUTE
|
||
|
format('SELECT ct.colname
|
||
|
FROM observatory.obs_column_to_column c2c,
|
||
|
observatory.obs_column_table ct,
|
||
|
observatory.obs_table t
|
||
|
WHERE c2c.reltype = ''geom_ref''
|
||
|
AND ct.column_id = c2c.source_id
|
||
|
AND ct.table_id = t.id
|
||
|
AND t.tablename = %L'
|
||
|
, geom_table_name)
|
||
|
INTO geom_geoid_colname;
|
||
|
|
||
|
EXECUTE
|
||
|
format('SELECT %I
|
||
|
FROM observatory.%I
|
||
|
WHERE ST_Within($1, the_geom)',
|
||
|
geom_geoid_colname,
|
||
|
geom_table_name)
|
||
|
USING geom
|
||
|
INTO geoid;
|
||
|
|
||
|
--raise notice 'geoid is %, geometry table is % ', geoid, geom_table_name;
|
||
|
|
||
|
EXECUTE
|
||
|
format('SELECT ST_Area(the_geom::geography) / (1000 * 1000)
|
||
|
FROM observatory.%I
|
||
|
WHERE %I = %L',
|
||
|
geom_table_name,
|
||
|
geom_geoid_colname,
|
||
|
geoid)
|
||
|
INTO area;
|
||
|
|
||
|
IF area IS NULL
|
||
|
THEN
|
||
|
--raise notice 'No geometry at %', ST_AsText(geom);
|
||
|
END IF;
|
||
|
|
||
|
query := 'SELECT Array[';
|
||
|
FOR i IN 1..array_upper(data_table_info, 1)
|
||
|
LOOP
|
||
|
IF area is NULL OR area = 0
|
||
|
THEN
|
||
|
-- give back null values
|
||
|
query := query || format('NULL::numeric ');
|
||
|
ELSIF ((data_table_info)[i])->>'aggregate' != 'sum'
|
||
|
THEN
|
||
|
-- give back full variable
|
||
|
query := query || format('%I ', ((data_table_info)[i])->>'colname');
|
||
|
ELSE
|
||
|
-- give back variable normalized by area of geography
|
||
|
query := query || format('%I/%s ',
|
||
|
((data_table_info)[i])->>'colname',
|
||
|
area);
|
||
|
END IF;
|
||
|
|
||
|
IF i < array_upper(data_table_info, 1)
|
||
|
THEN
|
||
|
query := query || ',';
|
||
|
END IF;
|
||
|
END LOOP;
|
||
|
|
||
|
query := query || format(' ]::numeric[]
|
||
|
FROM observatory.%I
|
||
|
WHERE %I.%I = %L
|
||
|
',
|
||
|
((data_table_info)[1])->>'tablename',
|
||
|
((data_table_info)[1])->>'tablename',
|
||
|
data_geoid_colname,
|
||
|
geoid
|
||
|
);
|
||
|
|
||
|
EXECUTE
|
||
|
query
|
||
|
INTO result
|
||
|
USING geom;
|
||
|
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT array_agg(row_to_json(t)) FROM (
|
||
|
SELECT values As value,
|
||
|
meta->>'name' As name,
|
||
|
meta->>'tablename' As tablename,
|
||
|
meta->>'aggregate' As aggregate,
|
||
|
meta->>'type' As type,
|
||
|
meta->>'description' As description
|
||
|
FROM (SELECT unnest($1) As values, unnest($2) As meta) b
|
||
|
) t
|
||
|
$query$
|
||
|
INTO json_result
|
||
|
USING result, data_table_info;
|
||
|
|
||
|
RETURN json_result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetMeasure(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
measure_id TEXT,
|
||
|
normalize TEXT DEFAULT NULL,
|
||
|
boundary_id TEXT DEFAULT NULL,
|
||
|
time_span TEXT DEFAULT NULL
|
||
|
)
|
||
|
RETURNS NUMERIC
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
geom_type TEXT;
|
||
|
map_type TEXT;
|
||
|
numer_aggregate TEXT;
|
||
|
numer_colname TEXT;
|
||
|
numer_geomref_colname TEXT;
|
||
|
numer_tablename TEXT;
|
||
|
denom_colname TEXT;
|
||
|
denom_geomref_colname TEXT;
|
||
|
denom_tablename TEXT;
|
||
|
geom_colname TEXT;
|
||
|
geom_geomref_colname TEXT;
|
||
|
geom_tablename TEXT;
|
||
|
result NUMERIC;
|
||
|
sql TEXT;
|
||
|
numer_name TEXT;
|
||
|
BEGIN
|
||
|
geom := ST_SnapToGrid(geom, 0.000001);
|
||
|
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT numer_aggregate, numer_colname, numer_geomref_colname, numer_tablename,
|
||
|
denom_colname, denom_geomref_colname, denom_tablename,
|
||
|
geom_colname, geom_geomref_colname, geom_tablename, numer_name
|
||
|
FROM observatory.obs_meta
|
||
|
WHERE (geom_id = $1 OR ($1 = ''))
|
||
|
AND numer_id = $2
|
||
|
AND (numer_timespan = $3 OR ($3 = ''))
|
||
|
ORDER BY geom_weight DESC, numer_timespan DESC
|
||
|
LIMIT 1
|
||
|
$query$
|
||
|
INTO numer_aggregate, numer_colname, numer_geomref_colname, numer_tablename,
|
||
|
denom_colname, denom_geomref_colname, denom_tablename,
|
||
|
geom_colname, geom_geomref_colname, geom_tablename, numer_name
|
||
|
USING COALESCE(boundary_id, ''), measure_id, COALESCE(time_span, '');
|
||
|
|
||
|
IF ST_GeometryType(geom) = 'ST_Point' THEN
|
||
|
geom_type := 'point';
|
||
|
ELSIF ST_GeometryType(geom) IN ('ST_Polygon', 'ST_MultiPolygon') THEN
|
||
|
geom_type := 'polygon';
|
||
|
geom := ST_Buffer(geom, 0.000001);
|
||
|
ELSE
|
||
|
RAISE EXCEPTION 'Invalid geometry type (%), can only handle ''ST_Point'', ''ST_Polygon'', and ''ST_MultiPolygon''',
|
||
|
ST_GeometryType(geom);
|
||
|
END IF;
|
||
|
|
||
|
IF normalize ILIKE 'area' AND numer_aggregate ILIKE 'sum' THEN
|
||
|
map_type := 'areaNormalized';
|
||
|
ELSIF normalize ILIKE 'denominator' THEN
|
||
|
map_type := 'denominated';
|
||
|
ELSE
|
||
|
-- defaults: area normalization for point if it's possible and none for
|
||
|
-- polygon or non-summable point
|
||
|
IF geom_type = 'point' AND numer_aggregate ILIKE 'sum' THEN
|
||
|
map_type := 'areaNormalized';
|
||
|
ELSE
|
||
|
map_type := 'predenominated';
|
||
|
END IF;
|
||
|
END IF;
|
||
|
|
||
|
IF geom_type = 'point' THEN
|
||
|
IF map_type = 'areaNormalized' THEN
|
||
|
sql = format('WITH _geom AS (SELECT ST_Area(geom.%I::Geography) / 1000000 area, geom.%I geom_ref
|
||
|
FROM observatory.%I geom
|
||
|
WHERE ST_Within(%L, geom.%I)
|
||
|
LIMIT 1)
|
||
|
SELECT numer.%I / (SELECT area FROM _geom)
|
||
|
FROM observatory.%I numer
|
||
|
WHERE numer.%I = (SELECT geom_ref FROM _geom)',
|
||
|
geom_colname, geom_geomref_colname, geom_tablename,
|
||
|
geom, geom_colname, numer_colname, numer_tablename,
|
||
|
numer_geomref_colname);
|
||
|
ELSIF map_type = 'denominated' THEN
|
||
|
sql = format('SELECT numer.%I / NULLIF((SELECT denom.%I FROM observatory.%I denom WHERE denom.%I = numer.%I LIMIT 1), 0)
|
||
|
FROM observatory.%I numer
|
||
|
WHERE numer.%I = (SELECT geom.%I FROM observatory.%I geom WHERE ST_Within(%L, geom.%I) LIMIT 1)',
|
||
|
numer_colname, denom_colname, denom_tablename,
|
||
|
denom_geomref_colname, numer_geomref_colname,
|
||
|
numer_tablename,
|
||
|
numer_geomref_colname, geom_geomref_colname,
|
||
|
geom_tablename, geom, geom_colname);
|
||
|
ELSIF map_type = 'predenominated' THEN
|
||
|
sql = format('SELECT numer.%I
|
||
|
FROM observatory.%I numer
|
||
|
WHERE numer.%I = (SELECT geom.%I FROM observatory.%I geom WHERE ST_Within(%L, geom.%I) LIMIT 1)',
|
||
|
numer_colname, numer_tablename,
|
||
|
numer_geomref_colname, geom_geomref_colname, geom_tablename,
|
||
|
geom, geom_colname);
|
||
|
END IF;
|
||
|
ELSIF geom_type = 'polygon' THEN
|
||
|
IF map_type = 'areaNormalized' THEN
|
||
|
sql = format('WITH _geom AS (SELECT ST_Area(ST_Intersection(%L, geom.%I))
|
||
|
/ ST_Area(geom.%I) overlap, geom.%I geom_ref
|
||
|
FROM observatory.%I geom
|
||
|
WHERE ST_Intersects(%L, geom.%I)
|
||
|
AND ST_Area(ST_Intersection(%L, geom.%I)) / ST_Area(geom.%I) > 0)
|
||
|
SELECT SUM(numer.%I * (SELECT _geom.overlap FROM _geom WHERE _geom.geom_ref = numer.%I)) /
|
||
|
(ST_Area(%L::Geography) / 1000000)
|
||
|
FROM observatory.%I numer
|
||
|
WHERE numer.%I = ANY ((SELECT ARRAY_AGG(geom_ref) FROM _geom)::TEXT[])',
|
||
|
geom, geom_colname, geom_colname,
|
||
|
geom_geomref_colname, geom_tablename,
|
||
|
geom, geom_colname,
|
||
|
geom, geom_colname, geom_colname,
|
||
|
numer_colname, numer_geomref_colname,
|
||
|
geom, numer_tablename,
|
||
|
numer_geomref_colname);
|
||
|
ELSIF map_type = 'denominated' THEN
|
||
|
sql = format('WITH _geom AS (SELECT ST_Area(ST_Intersection(%L, geom.%I))
|
||
|
/ ST_Area(geom.%I) overlap, geom.%I geom_ref
|
||
|
FROM observatory.%I geom
|
||
|
WHERE ST_Intersects(%L, geom.%I)
|
||
|
AND ST_Area(ST_Intersection(%L, geom.%I)) / ST_Area(geom.%I) > 0),
|
||
|
_denom AS (SELECT denom.%I, denom.%I geom_ref
|
||
|
FROM observatory.%I denom
|
||
|
WHERE denom.%I = ANY ((SELECT ARRAY_AGG(geom_ref) FROM _geom)::TEXT[]))
|
||
|
SELECT SUM(numer.%I * (SELECT _geom.overlap FROM _geom WHERE _geom.geom_ref = numer.%I)) /
|
||
|
SUM((SELECT _denom.%I * (SELECT _geom.overlap
|
||
|
FROM _geom
|
||
|
WHERE _geom.geom_ref = _denom.geom_ref)
|
||
|
FROM _denom WHERE _denom.geom_ref = numer.%I))
|
||
|
FROM observatory.%I numer
|
||
|
WHERE numer.%I = ANY ((SELECT ARRAY_AGG(geom_ref) FROM _geom)::TEXT[])',
|
||
|
geom, geom_colname,
|
||
|
geom_colname, geom_geomref_colname,
|
||
|
geom_tablename,
|
||
|
geom, geom_colname,
|
||
|
geom, geom_colname, geom_colname,
|
||
|
denom_colname, denom_geomref_colname,
|
||
|
denom_tablename,
|
||
|
denom_geomref_colname,
|
||
|
numer_colname, numer_geomref_colname,
|
||
|
denom_colname,
|
||
|
numer_geomref_colname,
|
||
|
numer_tablename,
|
||
|
numer_geomref_colname);
|
||
|
ELSIF map_type = 'predenominated' THEN
|
||
|
IF numer_aggregate NOT ILIKE 'sum' THEN
|
||
|
RAISE EXCEPTION 'Cannot calculate "%" (%) for custom area as it cannot be summed, use ST_PointOnSurface instead',
|
||
|
numer_name, measure_id;
|
||
|
ELSE
|
||
|
sql = format('WITH _geom AS (SELECT ST_Area(ST_Intersection(%L, geom.%I))
|
||
|
/ ST_Area(geom.%I) overlap, geom.%I geom_ref
|
||
|
FROM observatory.%I geom
|
||
|
WHERE ST_Intersects(%L, geom.%I)
|
||
|
AND ST_Area(ST_Intersection(%L, geom.%I)) / ST_Area(geom.%I) > 0)
|
||
|
SELECT SUM(numer.%I * (SELECT _geom.overlap FROM _geom WHERE _geom.geom_ref = numer.%I))
|
||
|
FROM observatory.%I numer
|
||
|
WHERE numer.%I = ANY ((SELECT ARRAY_AGG(geom_ref) FROM _geom)::TEXT[])',
|
||
|
geom, geom_colname, geom_colname,
|
||
|
geom_geomref_colname, geom_tablename,
|
||
|
geom, geom_colname,
|
||
|
geom, geom_colname, geom_colname,
|
||
|
numer_colname, numer_geomref_colname,
|
||
|
numer_tablename,
|
||
|
numer_geomref_colname);
|
||
|
END IF;
|
||
|
END IF;
|
||
|
END IF;
|
||
|
|
||
|
EXECUTE sql INTO result;
|
||
|
RETURN result;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetMeasureById(
|
||
|
geom_ref TEXT,
|
||
|
measure_id TEXT,
|
||
|
boundary_id TEXT,
|
||
|
time_span TEXT DEFAULT NULL
|
||
|
)
|
||
|
RETURNS NUMERIC
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
target_table TEXT;
|
||
|
colname TEXT;
|
||
|
measure_val NUMERIC;
|
||
|
data_geoid_colname TEXT;
|
||
|
BEGIN
|
||
|
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT numer_colname, numer_geomref_colname, numer_tablename
|
||
|
FROM observatory.obs_meta
|
||
|
WHERE (geom_id = $1 OR ($1 = ''))
|
||
|
AND numer_id = $2
|
||
|
AND (numer_timespan = $3 OR ($3 = ''))
|
||
|
ORDER BY geom_weight DESC, numer_timespan DESC
|
||
|
LIMIT 1
|
||
|
$query$
|
||
|
INTO colname, data_geoid_colname, target_table
|
||
|
USING COALESCE(boundary_id, ''), measure_id, COALESCE(time_span, '');
|
||
|
|
||
|
--RAISE DEBUG 'target_table %, colname %', target_table, colname;
|
||
|
|
||
|
EXECUTE format(
|
||
|
'SELECT %I
|
||
|
FROM observatory.%I data
|
||
|
WHERE data.%I = %L',
|
||
|
colname,
|
||
|
target_table,
|
||
|
data_geoid_colname, geom_ref)
|
||
|
INTO measure_val;
|
||
|
|
||
|
RETURN measure_val;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetCategory(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
category_id TEXT,
|
||
|
boundary_id TEXT DEFAULT NULL,
|
||
|
time_span TEXT DEFAULT NULL
|
||
|
)
|
||
|
RETURNS TEXT
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
data_table TEXT;
|
||
|
geom_table TEXT;
|
||
|
colname TEXT;
|
||
|
data_geomref_colname TEXT;
|
||
|
geom_geomref_colname TEXT;
|
||
|
geom_colname TEXT;
|
||
|
category_val TEXT;
|
||
|
category_share NUMERIC;
|
||
|
BEGIN
|
||
|
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT numer_colname, numer_geomref_colname, numer_tablename,
|
||
|
geom_geomref_colname, geom_colname, geom_tablename
|
||
|
FROM observatory.obs_meta
|
||
|
WHERE (geom_id = $1 OR ($1 = ''))
|
||
|
AND numer_id = $2
|
||
|
AND (numer_timespan = $3 OR ($3 = ''))
|
||
|
ORDER BY geom_weight DESC, numer_timespan DESC
|
||
|
LIMIT 1
|
||
|
$query$
|
||
|
INTO colname, data_geomref_colname, data_table,
|
||
|
geom_geomref_colname, geom_colname, geom_table
|
||
|
USING COALESCE(boundary_id, ''), category_id, COALESCE(time_span, '');
|
||
|
|
||
|
IF ST_GeometryType(geom) = 'ST_Point' THEN
|
||
|
EXECUTE format(
|
||
|
'SELECT data.%I
|
||
|
FROM observatory.%I data, observatory.%I geom
|
||
|
WHERE data.%I = geom.%I
|
||
|
AND ST_WITHIN(%L, geom.%I) ',
|
||
|
colname, data_table, geom_table, data_geomref_colname,
|
||
|
geom_geomref_colname, geom, geom_colname)
|
||
|
INTO category_val;
|
||
|
ELSE
|
||
|
-- favor the category with the most area
|
||
|
EXECUTE format(
|
||
|
'SELECT data.%I category, SUM(overlap_fraction) category_share
|
||
|
FROM observatory.%I data, (
|
||
|
SELECT ST_Area(
|
||
|
ST_Intersection(%L, a.%I)
|
||
|
) / ST_Area(%L) AS overlap_fraction, a.%I geomref
|
||
|
FROM observatory.%I as a
|
||
|
WHERE %L && a.%I) _overlaps
|
||
|
WHERE data.%I = _overlaps.geomref
|
||
|
GROUP BY category
|
||
|
ORDER BY SUM(overlap_fraction) DESC
|
||
|
LIMIT 1',
|
||
|
colname, data_table,
|
||
|
geom, geom_colname, geom, geom_geomref_colname,
|
||
|
geom_table, geom, geom_colname, data_geomref_colname)
|
||
|
INTO category_val, category_share;
|
||
|
END IF;
|
||
|
|
||
|
RETURN category_val;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetUSCensusMeasure(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
name TEXT,
|
||
|
normalize TEXT DEFAULT NULL,
|
||
|
boundary_id TEXT DEFAULT NULL,
|
||
|
time_span TEXT DEFAULT NULL
|
||
|
)
|
||
|
RETURNS NUMERIC AS $$
|
||
|
DECLARE
|
||
|
standardized_name text;
|
||
|
measure_id text;
|
||
|
result NUMERIC;
|
||
|
BEGIN
|
||
|
standardized_name = cdb_observatory._OBS_StandardizeMeasureName(name);
|
||
|
|
||
|
EXECUTE $string$
|
||
|
SELECT c.id
|
||
|
FROM observatory.obs_column c
|
||
|
JOIN observatory.obs_column_tag ct
|
||
|
ON c.id = ct.column_id
|
||
|
WHERE cdb_observatory._OBS_StandardizeMeasureName(c.name) = $1
|
||
|
AND ct.tag_id ILIKE 'us.census%'
|
||
|
$string$
|
||
|
INTO measure_id
|
||
|
USING standardized_name;
|
||
|
|
||
|
EXECUTE 'SELECT cdb_observatory.OBS_GetMeasure($1, $2, $3, $4, $5)'
|
||
|
INTO result
|
||
|
USING geom, measure_id, normalize, boundary_id, time_span;
|
||
|
RETURN result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetUSCensusCategory(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
name TEXT,
|
||
|
boundary_id TEXT DEFAULT NULL,
|
||
|
time_span TEXT DEFAULT NULL
|
||
|
)
|
||
|
RETURNS TEXT AS $$
|
||
|
DECLARE
|
||
|
standardized_name text;
|
||
|
category_id text;
|
||
|
result TEXT;
|
||
|
BEGIN
|
||
|
standardized_name = cdb_observatory._OBS_StandardizeMeasureName(name);
|
||
|
|
||
|
EXECUTE $string$
|
||
|
SELECT c.id
|
||
|
FROM observatory.obs_column c
|
||
|
--JOIN observatory.obs_column_tag ct
|
||
|
-- ON c.id = ct.column_id
|
||
|
WHERE cdb_observatory._OBS_StandardizeMeasureName(c.name) = $1
|
||
|
AND c.type ILIKE 'TEXT'
|
||
|
AND c.id ILIKE 'us.census%' -- TODO this should be done by tag
|
||
|
--AND ct.tag_id = 'us.census.acs.demographics'
|
||
|
$string$
|
||
|
INTO category_id
|
||
|
USING standardized_name;
|
||
|
|
||
|
EXECUTE 'SELECT cdb_observatory.OBS_GetCategory($1, $2, $3, $4)'
|
||
|
INTO result
|
||
|
USING geom, category_id, boundary_id, time_span;
|
||
|
RETURN result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetPopulation(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
normalize TEXT DEFAULT NULL,
|
||
|
boundary_id TEXT DEFAULT NULL,
|
||
|
time_span TEXT DEFAULT NULL
|
||
|
)
|
||
|
RETURNS NUMERIC
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
population_measure_id TEXT;
|
||
|
result NUMERIC;
|
||
|
BEGIN
|
||
|
-- TODO use a super-column for global pop
|
||
|
population_measure_id := 'us.census.acs.B01003001';
|
||
|
|
||
|
EXECUTE format('SELECT cdb_observatory.OBS_GetMeasure(
|
||
|
%L, %L, %L, %L, %L
|
||
|
) LIMIT 1', geom, population_measure_id, normalize, boundary_id, time_span)
|
||
|
INTO result;
|
||
|
|
||
|
return result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetPolygons(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
geom_table_name text,
|
||
|
data_table_info json[]
|
||
|
)
|
||
|
RETURNS json[]
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
result numeric[];
|
||
|
json_result json[];
|
||
|
q_select text;
|
||
|
q_sum text;
|
||
|
q text;
|
||
|
i NUMERIC;
|
||
|
data_geoid_colname text;
|
||
|
geom_geoid_colname text;
|
||
|
BEGIN
|
||
|
|
||
|
-- TODO we're assuming our geom_table has only one geom_ref column
|
||
|
-- we *really* should pass in both geom_table_name and boundary_id
|
||
|
-- TODO tablename should not be passed here (use boundary_id)
|
||
|
EXECUTE
|
||
|
format('SELECT ct.colname
|
||
|
FROM observatory.obs_column_to_column c2c,
|
||
|
observatory.obs_column_table ct,
|
||
|
observatory.obs_table t
|
||
|
WHERE c2c.reltype = ''geom_ref''
|
||
|
AND ct.column_id = c2c.source_id
|
||
|
AND ct.table_id = t.id
|
||
|
AND t.tablename = %L'
|
||
|
, (data_table_info)[1]->>'tablename')
|
||
|
INTO data_geoid_colname;
|
||
|
EXECUTE
|
||
|
format('SELECT ct.colname
|
||
|
FROM observatory.obs_column_to_column c2c,
|
||
|
observatory.obs_column_table ct,
|
||
|
observatory.obs_table t
|
||
|
WHERE c2c.reltype = ''geom_ref''
|
||
|
AND ct.column_id = c2c.source_id
|
||
|
AND ct.table_id = t.id
|
||
|
AND t.tablename = %L'
|
||
|
, geom_table_name)
|
||
|
INTO geom_geoid_colname;
|
||
|
|
||
|
q_select := format('SELECT %I, ', data_geoid_colname);
|
||
|
q_sum := 'SELECT Array[';
|
||
|
|
||
|
FOR i IN 1..array_upper(data_table_info, 1)
|
||
|
LOOP
|
||
|
q_select := q_select || format( '%I ', ((data_table_info)[i])->>'colname');
|
||
|
|
||
|
IF ((data_table_info)[i])->>'aggregate' ='sum'
|
||
|
THEN
|
||
|
q_sum := q_sum || format('sum(overlap_fraction * COALESCE(%I, 0)) ',((data_table_info)[i])->>'colname',((data_table_info)[i])->>'colname');
|
||
|
ELSE
|
||
|
q_sum := q_sum || ' NULL::numeric ';
|
||
|
END IF;
|
||
|
|
||
|
IF i < array_upper(data_table_info,1)
|
||
|
THEN
|
||
|
q_select := q_select || format(',');
|
||
|
q_sum := q_sum || format(',');
|
||
|
END IF;
|
||
|
END LOOP;
|
||
|
|
||
|
q := format('
|
||
|
WITH _overlaps As (
|
||
|
SELECT ST_Area(
|
||
|
ST_Intersection($1, a.the_geom)
|
||
|
) / ST_Area(a.the_geom) As overlap_fraction,
|
||
|
%I
|
||
|
FROM observatory.%I As a
|
||
|
WHERE $1 && a.the_geom
|
||
|
),
|
||
|
values As (
|
||
|
', geom_geoid_colname, geom_table_name);
|
||
|
|
||
|
q := q || q_select || format('FROM observatory.%I ', ((data_table_info)[1]->>'tablename'));
|
||
|
|
||
|
q := format(q || ' ) ' || q_sum || ' ]::numeric[] FROM _overlaps, values
|
||
|
WHERE values.%I = _overlaps.%I', data_geoid_colname, geom_geoid_colname);
|
||
|
|
||
|
EXECUTE
|
||
|
q
|
||
|
INTO result
|
||
|
USING geom;
|
||
|
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT array_agg(row_to_json(t)) FROM (
|
||
|
SELECT values As value,
|
||
|
meta->>'name' As name,
|
||
|
meta->>'tablename' As tablename,
|
||
|
meta->>'aggregate' As aggregate,
|
||
|
meta->>'type' As type,
|
||
|
meta->>'description' As description
|
||
|
FROM (SELECT unnest($1) As values, unnest($2) As meta) b
|
||
|
) t
|
||
|
$query$
|
||
|
INTO json_result
|
||
|
USING result, data_table_info;
|
||
|
|
||
|
RETURN json_result;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetSegmentSnapshot(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
boundary_id text DEFAULT NULL
|
||
|
)
|
||
|
RETURNS JSON
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
target_cols text[];
|
||
|
result json;
|
||
|
seg_name Text;
|
||
|
geom_id Text;
|
||
|
q Text;
|
||
|
segment_names Text[];
|
||
|
BEGIN
|
||
|
IF boundary_id IS NULL THEN
|
||
|
boundary_id = 'us.census.tiger.census_tract';
|
||
|
END IF;
|
||
|
target_cols := Array[
|
||
|
'us.census.acs.B01003001_quantile',
|
||
|
'us.census.acs.B01001002_quantile',
|
||
|
'us.census.acs.B01001026_quantile',
|
||
|
'us.census.acs.B01002001_quantile',
|
||
|
'us.census.acs.B03002003_quantile',
|
||
|
'us.census.acs.B03002004_quantile',
|
||
|
'us.census.acs.B03002006_quantile',
|
||
|
'us.census.acs.B03002012_quantile',
|
||
|
'us.census.acs.B05001006_quantile',--
|
||
|
'us.census.acs.B08006001_quantile',--
|
||
|
'us.census.acs.B08006002_quantile',--
|
||
|
'us.census.acs.B08006008_quantile',--
|
||
|
'us.census.acs.B08006009_quantile',--
|
||
|
'us.census.acs.B08006011_quantile',--
|
||
|
'us.census.acs.B08006015_quantile',--
|
||
|
'us.census.acs.B08006017_quantile',--
|
||
|
'us.census.acs.B09001001_quantile',--
|
||
|
'us.census.acs.B11001001_quantile',
|
||
|
'us.census.acs.B14001001_quantile',--
|
||
|
'us.census.acs.B14001002_quantile',--
|
||
|
'us.census.acs.B14001005_quantile',--
|
||
|
'us.census.acs.B14001006_quantile',--
|
||
|
'us.census.acs.B14001007_quantile',--
|
||
|
'us.census.acs.B14001008_quantile',--
|
||
|
'us.census.acs.B15003001_quantile',
|
||
|
'us.census.acs.B15003017_quantile',
|
||
|
'us.census.acs.B15003022_quantile',
|
||
|
'us.census.acs.B15003023_quantile',
|
||
|
'us.census.acs.B16001001_quantile',--
|
||
|
'us.census.acs.B16001002_quantile',--
|
||
|
'us.census.acs.B16001003_quantile',--
|
||
|
'us.census.acs.B17001001_quantile',--
|
||
|
'us.census.acs.B17001002_quantile',--
|
||
|
'us.census.acs.B19013001_quantile',
|
||
|
'us.census.acs.B19083001_quantile',
|
||
|
'us.census.acs.B19301001_quantile',
|
||
|
'us.census.acs.B25001001_quantile',
|
||
|
'us.census.acs.B25002003_quantile',
|
||
|
'us.census.acs.B25004002_quantile',
|
||
|
'us.census.acs.B25004004_quantile',
|
||
|
'us.census.acs.B25058001_quantile',
|
||
|
'us.census.acs.B25071001_quantile',
|
||
|
'us.census.acs.B25075001_quantile',
|
||
|
'us.census.acs.B25075025_quantile'
|
||
|
];
|
||
|
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT array_agg(_OBS_GetCategories->>'category')
|
||
|
FROM cdb_observatory._OBS_GetCategories(
|
||
|
$1,
|
||
|
Array['us.census.spielman_singleton_segments.X10', 'us.census.spielman_singleton_segments.X55'],
|
||
|
$2)
|
||
|
$query$
|
||
|
INTO segment_names
|
||
|
USING geom, boundary_id;
|
||
|
|
||
|
q :=
|
||
|
format($query$
|
||
|
WITH a As (
|
||
|
SELECT
|
||
|
array_agg(_OBS_GET->>'name') As names,
|
||
|
array_agg(_OBS_GET->>'value') As vals
|
||
|
FROM cdb_observatory._OBS_Get($1,
|
||
|
$2,
|
||
|
'2010 - 2014',
|
||
|
$3)
|
||
|
|
||
|
), percentiles As (
|
||
|
%s
|
||
|
FROM a)
|
||
|
SELECT row_to_json(r) FROM
|
||
|
( SELECT $4 as x10_segment, $5 as x55_segment, percentiles.*
|
||
|
FROM percentiles) r
|
||
|
$query$, cdb_observatory._OBS_BuildSnapshotQuery(target_cols)) results;
|
||
|
|
||
|
|
||
|
EXECUTE
|
||
|
q
|
||
|
into result
|
||
|
USING geom, target_cols, boundary_id, segment_names[1], segment_names[2];
|
||
|
|
||
|
return result;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
--Get categorical variables from point
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetCategories(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
dimension_names text[],
|
||
|
boundary_id text DEFAULT NULL,
|
||
|
time_span text DEFAULT NULL
|
||
|
)
|
||
|
RETURNS SETOF JSON as $$
|
||
|
DECLARE
|
||
|
geom_table_name text;
|
||
|
geoid text;
|
||
|
names text[];
|
||
|
results text[];
|
||
|
query text;
|
||
|
data_table_info json[];
|
||
|
BEGIN
|
||
|
|
||
|
IF time_span IS NULL THEN
|
||
|
time_span = '2010 - 2014';
|
||
|
END IF;
|
||
|
|
||
|
IF boundary_id IS NULL THEN
|
||
|
boundary_id = 'us.census.tiger.block_group';
|
||
|
END IF;
|
||
|
|
||
|
geom_table_name := cdb_observatory._OBS_GeomTable(geom, boundary_id);
|
||
|
|
||
|
IF geom_table_name IS NULL
|
||
|
THEN
|
||
|
--raise notice 'Point % is outside of the data region', ST_AsText(geom);
|
||
|
RETURN QUERY SELECT '{}'::text[], '{}'::text[];
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
EXECUTE '
|
||
|
SELECT array_agg(_obs_getcolumndata)
|
||
|
FROM cdb_observatory._OBS_GetColumnData($1, $2, $3);
|
||
|
'
|
||
|
INTO data_table_info
|
||
|
USING boundary_id, dimension_names, time_span;
|
||
|
|
||
|
IF data_table_info IS NULL
|
||
|
THEN
|
||
|
--raise notice 'No data table found for this location';
|
||
|
RETURN QUERY SELECT NULL::json;
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
EXECUTE
|
||
|
format('SELECT geoid
|
||
|
FROM observatory.%I
|
||
|
WHERE the_geom && $1',
|
||
|
geom_table_name)
|
||
|
USING geom
|
||
|
INTO geoid;
|
||
|
|
||
|
IF geoid IS NULL
|
||
|
THEN
|
||
|
--raise notice 'No geometry id for this location';
|
||
|
RETURN QUERY SELECT NULL::json;
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
query := 'SELECT ARRAY[';
|
||
|
|
||
|
FOR i IN 1..array_upper(data_table_info, 1)
|
||
|
LOOP
|
||
|
query = query || format('%I ', lower(((data_table_info)[i])->>'colname'));
|
||
|
IF i < array_upper(data_table_info, 1)
|
||
|
THEN
|
||
|
query := query || ',';
|
||
|
END IF;
|
||
|
END LOOP;
|
||
|
|
||
|
query := query || format(' ]::text[]
|
||
|
FROM observatory.%I
|
||
|
WHERE %I.geoid = %L
|
||
|
',
|
||
|
((data_table_info)[1])->>'tablename',
|
||
|
((data_table_info)[1])->>'tablename',
|
||
|
geoid
|
||
|
);
|
||
|
|
||
|
EXECUTE
|
||
|
query
|
||
|
INTO results
|
||
|
USING geom;
|
||
|
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
$query$
|
||
|
SELECT row_to_json(t) FROM (
|
||
|
SELECT categories As category,
|
||
|
meta->>'name' As name,
|
||
|
meta->>'tablename' As tablename,
|
||
|
meta->>'aggregate' As aggregate,
|
||
|
meta->>'type' As type,
|
||
|
meta->>'description' As description
|
||
|
FROM (SELECT unnest($1) As categories,
|
||
|
unnest($2) As meta) As b
|
||
|
) t
|
||
|
$query$
|
||
|
USING results, data_table_info;
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
-- return a table that contains a string match based on input
|
||
|
-- TODO: implement search for timespan
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_SearchTables(
|
||
|
search_term text,
|
||
|
time_span text DEFAULT NULL
|
||
|
)
|
||
|
RETURNS table(tablename text, timespan text)
|
||
|
As $$
|
||
|
DECLARE
|
||
|
out_var text[];
|
||
|
BEGIN
|
||
|
|
||
|
IF time_span IS NULL
|
||
|
THEN
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
'SELECT tablename::text, timespan::text
|
||
|
FROM observatory.obs_table t
|
||
|
JOIN observatory.obs_column_table ct
|
||
|
ON ct.table_id = t.id
|
||
|
JOIN observatory.obs_column c
|
||
|
ON ct.column_id = c.id
|
||
|
WHERE c.type ILIKE ''geometry''
|
||
|
AND c.id = $1'
|
||
|
USING search_term;
|
||
|
RETURN;
|
||
|
ELSE
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
'SELECT tablename::text, timespan::text
|
||
|
FROM observatory.obs_table t
|
||
|
JOIN observatory.obs_column_table ct
|
||
|
ON ct.table_id = t.id
|
||
|
JOIN observatory.obs_column c
|
||
|
ON ct.column_id = c.id
|
||
|
WHERE c.type ILIKE ''geometry''
|
||
|
AND c.id = $1
|
||
|
AND t.timespan = $2'
|
||
|
USING search_term, time_span;
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql IMMUTABLE;
|
||
|
|
||
|
-- Functions used to search the observatory for measures
|
||
|
--------------------------------------------------------------------------------
|
||
|
-- TODO allow the user to specify the boundary to search for measures
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_Search(
|
||
|
search_term text,
|
||
|
relevant_boundary text DEFAULT null
|
||
|
)
|
||
|
RETURNS TABLE(id text, description text, name text, aggregate text, source text) as $$
|
||
|
DECLARE
|
||
|
boundary_term text;
|
||
|
BEGIN
|
||
|
IF relevant_boundary then
|
||
|
boundary_term = '';
|
||
|
else
|
||
|
boundary_term = '';
|
||
|
END IF;
|
||
|
|
||
|
RETURN QUERY
|
||
|
EXECUTE format($string$
|
||
|
SELECT id::text, description::text,
|
||
|
name::text,
|
||
|
aggregate::text,
|
||
|
NULL::TEXT source -- TODO use tags
|
||
|
FROM observatory.OBS_column
|
||
|
where name ilike '%%' || %L || '%%'
|
||
|
or description ilike '%%' || %L || '%%'
|
||
|
%s
|
||
|
$string$, search_term, search_term,boundary_term);
|
||
|
RETURN;
|
||
|
END
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
-- Functions to return the geometry levels that a point is part of
|
||
|
--------------------------------------------------------------------------------
|
||
|
-- TODO add test response
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetAvailableBoundaries(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
timespan text DEFAULT null)
|
||
|
RETURNS TABLE(boundary_id text, description text, time_span text, tablename text) as $$
|
||
|
DECLARE
|
||
|
timespan_query TEXT DEFAULT '';
|
||
|
BEGIN
|
||
|
|
||
|
IF timespan != NULL
|
||
|
THEN
|
||
|
timespan_query = format('AND timespan = %L', timespan);
|
||
|
END IF;
|
||
|
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
$string$
|
||
|
SELECT
|
||
|
column_id::text As column_id,
|
||
|
obs_column.description::text As description,
|
||
|
timespan::text As timespan,
|
||
|
tablename::text As tablename
|
||
|
FROM
|
||
|
observatory.OBS_table,
|
||
|
observatory.OBS_column_table,
|
||
|
observatory.OBS_column
|
||
|
WHERE
|
||
|
observatory.OBS_column_table.column_id = observatory.obs_column.id AND
|
||
|
observatory.OBS_column_table.table_id = observatory.obs_table.id
|
||
|
AND
|
||
|
observatory.OBS_column.type = 'Geometry'
|
||
|
AND
|
||
|
ST_Intersects($1, st_setsrid(observatory.obs_table.the_geom, 4326))
|
||
|
$string$ || timespan_query
|
||
|
USING geom;
|
||
|
RETURN;
|
||
|
END
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
-- Data Observatory -- Welcome to the Future
|
||
|
-- These Data Observatory functions provide access to boundary polyons (and
|
||
|
-- their ids) such as those available through the US Census Tiger, Who's on
|
||
|
-- First, the Spanish Census, and so on
|
||
|
|
||
|
|
||
|
-- OBS_GetBoundary
|
||
|
--
|
||
|
-- Returns the boundary polygon(s) that overlap with the input point geometry.
|
||
|
-- From an input point geometry, find the boundary which intersects with the
|
||
|
-- centroid of the input geometry
|
||
|
-- Inputs:
|
||
|
-- geom geometry: input point geometry
|
||
|
-- boundary_id text: source id of boundaries
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- boundary geometry: geometry boundary that intersects with geom, is at the
|
||
|
-- resolution requested with boundary_id, and time_span
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetBoundary(
|
||
|
geom geometry(Point, 4326),
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL)
|
||
|
RETURNS geometry(Geometry, 4326)
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
boundary geometry(Geometry, 4326);
|
||
|
target_table text;
|
||
|
BEGIN
|
||
|
|
||
|
-- TODO: Check if SRID = 4326, if not transform?
|
||
|
|
||
|
-- if not a point, raise error
|
||
|
IF ST_GeometryType(geom) != 'ST_Point'
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Invalid geometry type (%), expecting ''ST_Point''', ST_GeometryType(geom);
|
||
|
END IF;
|
||
|
|
||
|
-- choose appropriate table based on time_span
|
||
|
IF time_span IS NULL
|
||
|
THEN
|
||
|
SELECT x.target_tables INTO target_table
|
||
|
FROM cdb_observatory._OBS_SearchTables(boundary_id,
|
||
|
time_span) As x(target_tables,
|
||
|
timespans)
|
||
|
ORDER BY x.timespans DESC
|
||
|
LIMIT 1;
|
||
|
ELSE
|
||
|
-- TODO: modify for only one table returned instead of arbitrarily choosing
|
||
|
-- one with LIMIT 1 (could be conflict between clipped vs non-clipped
|
||
|
-- boundaries in the metadata tables)
|
||
|
SELECT x.target_tables INTO target_table
|
||
|
FROM cdb_observatory._OBS_SearchTables(boundary_id,
|
||
|
time_span) As x(target_tables,
|
||
|
timespans)
|
||
|
WHERE x.timespans = time_span
|
||
|
LIMIT 1;
|
||
|
END IF;
|
||
|
|
||
|
-- if no tables are found, raise notice and return null
|
||
|
IF target_table IS NULL
|
||
|
THEN
|
||
|
--RAISE NOTICE 'No boundaries found for ''%'' in ''%''', ST_AsText(geom), boundary_id;
|
||
|
RETURN NULL::geometry;
|
||
|
END IF;
|
||
|
|
||
|
--RAISE NOTICE 'target_table: %', target_table;
|
||
|
|
||
|
-- return the first boundary in intersections
|
||
|
EXECUTE format(
|
||
|
'SELECT the_geom
|
||
|
FROM observatory.%I
|
||
|
WHERE ST_Intersects($1, the_geom)
|
||
|
LIMIT 1', target_table)
|
||
|
INTO boundary
|
||
|
USING geom;
|
||
|
|
||
|
RETURN boundary;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- OBS_GetBoundaryId
|
||
|
--
|
||
|
-- retrieves the boundary identifier (e.g., '36047' = Kings County/Brooklyn, NY)
|
||
|
-- corresponding to the location geom and boundary types (e.g.,
|
||
|
-- us.census.tiger.county)
|
||
|
|
||
|
-- Inputs:
|
||
|
-- geom geometry: location where the boundary is requested to overlap with
|
||
|
-- boundary_id text: source id of boundaries (e.g., us.census.tiger.county)
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- geometry_id text: identifier of the geometry which overlaps with the input
|
||
|
-- point geom in the table corresponding to boundary_id and
|
||
|
-- time_span
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetBoundaryId(
|
||
|
geom geometry(Point, 4326),
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL
|
||
|
)
|
||
|
RETURNS text
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
output_id text;
|
||
|
target_table text;
|
||
|
geoid_colname text;
|
||
|
BEGIN
|
||
|
|
||
|
-- If not point, raise error
|
||
|
IF ST_GeometryType(geom) != 'ST_Point'
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Invalid geometry type (%), expecting ''ST_Point''', ST_GeometryType(geom);
|
||
|
END IF;
|
||
|
|
||
|
-- choose appropriate table based on time_span
|
||
|
IF time_span IS NULL
|
||
|
THEN
|
||
|
SELECT x.target_tables INTO target_table
|
||
|
FROM cdb_observatory._OBS_SearchTables(boundary_id,
|
||
|
time_span) As x(target_tables,
|
||
|
timespans)
|
||
|
ORDER BY x.timespans DESC
|
||
|
LIMIT 1;
|
||
|
ELSE
|
||
|
SELECT x.target_tables INTO target_table
|
||
|
FROM cdb_observatory._OBS_SearchTables(boundary_id,
|
||
|
time_span) As x(target_tables,
|
||
|
timespans)
|
||
|
WHERE x.timespans = time_span
|
||
|
LIMIT 1;
|
||
|
END IF;
|
||
|
|
||
|
-- if no tables are found, raise notice and return null
|
||
|
IF target_table IS NULL
|
||
|
THEN
|
||
|
--RAISE NOTICE 'Warning: No boundaries found for ''%''', boundary_id;
|
||
|
RETURN NULL::text;
|
||
|
END IF;
|
||
|
|
||
|
EXECUTE
|
||
|
format('SELECT ct.colname
|
||
|
FROM observatory.obs_column_to_column c2c,
|
||
|
observatory.obs_column_table ct,
|
||
|
observatory.obs_table t
|
||
|
WHERE c2c.reltype = ''geom_ref''
|
||
|
AND ct.column_id = c2c.source_id
|
||
|
AND ct.table_id = t.id
|
||
|
AND t.tablename = %L'
|
||
|
, target_table)
|
||
|
INTO geoid_colname;
|
||
|
|
||
|
--RAISE NOTICE 'target_table: %, geoid_colname: %', target_table, geoid_colname;
|
||
|
|
||
|
-- return geometry id column value
|
||
|
EXECUTE format(
|
||
|
'SELECT %I::text
|
||
|
FROM observatory.%I
|
||
|
WHERE ST_Intersects($1, the_geom)
|
||
|
LIMIT 1', geoid_colname, target_table)
|
||
|
INTO output_id
|
||
|
USING geom;
|
||
|
|
||
|
RETURN output_id;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
-- OBS_GetBoundaryById
|
||
|
--
|
||
|
-- Given a geometry reference (e.g., geoid for US Census), and it's geometry
|
||
|
-- level (see OBS_ListGeomColumns() for all available boundary ids), give back
|
||
|
-- the boundary that corresponds to that geometry_id, boundary_id, and
|
||
|
-- time_span
|
||
|
|
||
|
-- Inputs:
|
||
|
-- geometry_id text: geometry id of the requested boundary
|
||
|
-- boundary_id text: source id of boundaries (e.g., us.census.tiger.county)
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- boundary geometry: geometry boundary that matches geometry_id, is at the
|
||
|
-- resolution requested with boundary_id, and time_span
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetBoundaryById(
|
||
|
geometry_id text, -- ex: '36047'
|
||
|
boundary_id text, -- ex: 'us.census.tiger.county'
|
||
|
time_span text DEFAULT NULL -- ex: '2009'
|
||
|
)
|
||
|
RETURNS geometry(geometry, 4326)
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
boundary geometry(geometry, 4326);
|
||
|
target_table text;
|
||
|
geoid_colname text;
|
||
|
geom_colname text;
|
||
|
BEGIN
|
||
|
|
||
|
SELECT * INTO geoid_colname, target_table, geom_colname
|
||
|
FROM cdb_observatory._OBS_GetGeometryMetadata(boundary_id);
|
||
|
|
||
|
--RAISE NOTICE '%', target_table;
|
||
|
|
||
|
IF target_table IS NULL
|
||
|
THEN
|
||
|
--RAISE NOTICE 'No geometries found';
|
||
|
RETURN NULL::geometry;
|
||
|
END IF;
|
||
|
|
||
|
-- retrieve boundary
|
||
|
EXECUTE
|
||
|
format(
|
||
|
'SELECT %I
|
||
|
FROM observatory.%I
|
||
|
WHERE %I = $1
|
||
|
LIMIT 1', geom_colname, target_table, geoid_colname)
|
||
|
INTO boundary
|
||
|
USING geometry_id;
|
||
|
|
||
|
RETURN boundary;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- _OBS_GetBoundariesByGeometry
|
||
|
-- internal function for retrieving geometries based on an input geometry
|
||
|
-- see OBS_GetBoundariesByGeometry or OBS_GetBoundariesByPointAndRadius for
|
||
|
-- more information
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetBoundariesByGeometry(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL,
|
||
|
overlap_type text DEFAULT NULL)
|
||
|
RETURNS TABLE(the_geom geometry, geom_refs text)
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
boundary geometry(Geometry, 4326);
|
||
|
geom_colname text;
|
||
|
geoid_colname text;
|
||
|
target_table text;
|
||
|
BEGIN
|
||
|
overlap_type := COALESCE(overlap_type, 'intersects');
|
||
|
-- check inputs
|
||
|
IF lower(overlap_type) NOT IN ('contains', 'intersects', 'within')
|
||
|
THEN
|
||
|
-- recognized overlap type (map to ST_Contains, ST_Intersects, and ST_Within)
|
||
|
RAISE EXCEPTION 'Overlap type ''%'' is not an accepted type (choose intersects, within, or contains)', overlap_type;
|
||
|
ELSIF ST_GeometryType(geom) NOT IN ('ST_Polygon', 'ST_MultiPolygon')
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Invalid geometry type (%), expecting ''ST_MultiPolygon'' or ''ST_Polygon''', ST_GeometryType(geom);
|
||
|
END IF;
|
||
|
|
||
|
-- TODO: add timespan in search
|
||
|
-- TODO: add overlap info in search
|
||
|
SELECT * INTO geoid_colname, target_table, geom_colname
|
||
|
FROM cdb_observatory._OBS_GetGeometryMetadata(boundary_id);
|
||
|
|
||
|
-- if no tables are found, raise notice and return null
|
||
|
IF target_table IS NULL
|
||
|
THEN
|
||
|
--RAISE NOTICE 'No boundaries found for bounding box ''%'' in ''%''', ST_AsText(geom), boundary_id;
|
||
|
RETURN QUERY SELECT NULL::geometry, NULL::text;
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
--RAISE NOTICE 'target_table: %', target_table;
|
||
|
|
||
|
-- return first boundary in intersections
|
||
|
RETURN QUERY
|
||
|
EXECUTE format(
|
||
|
'SELECT %I, %I::text
|
||
|
FROM observatory.%I
|
||
|
WHERE ST_%s($1, the_geom)
|
||
|
', geom_colname, geoid_colname, target_table, overlap_type)
|
||
|
USING geom;
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- OBS_GetBoundariesByGeometry
|
||
|
--
|
||
|
-- Given a bounding box (or a polygon), and it's geometry level (see
|
||
|
-- OBS_ListGeomColumns() for all available boundary ids), give back the
|
||
|
-- boundaries that are contained within the bounding box polygon and the
|
||
|
-- associated geometry ids
|
||
|
|
||
|
-- Inputs:
|
||
|
-- geom geometry: bounding box (or polygon) of the region of interest
|
||
|
-- boundary_id text: source id of boundaries (e.g., us.census.tiger.county)
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- table with the following columns
|
||
|
-- boundary geometry: geometry boundary that is contained within the input
|
||
|
-- bounding box at the requested geometry level
|
||
|
-- with boundary_id, and time_span
|
||
|
-- geom_refs text: geometry identifiers (e.g., geoid for the US Census)
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetBoundariesByGeometry(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL,
|
||
|
overlap_type text DEFAULT NULL)
|
||
|
RETURNS TABLE(the_geom geometry, geom_refs text)
|
||
|
AS $$
|
||
|
BEGIN
|
||
|
|
||
|
RETURN QUERY SELECT *
|
||
|
FROM cdb_observatory._OBS_GetBoundariesByGeometry(
|
||
|
geom,
|
||
|
boundary_id,
|
||
|
time_span,
|
||
|
overlap_type
|
||
|
);
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- OBS_GetBoundariesByPointAndRadius
|
||
|
--
|
||
|
-- Given a point and radius, and it's geometry level (see
|
||
|
-- OBS_ListGeomColumns() for all available boundary ids), give back the
|
||
|
-- boundaries that are contained within the point buffered by radius meters and
|
||
|
-- the associated geometry ids
|
||
|
|
||
|
-- Inputs:
|
||
|
-- geom geometry: point geometry centered on area of interest
|
||
|
-- radius numeric: radius (in meters) of a circle centered on geom for
|
||
|
-- selecting polygons
|
||
|
-- boundary_id text: source id of boundaries (e.g., us.census.tiger.county)
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- table with the following columns
|
||
|
-- boundary geometry: geometry boundary that is contained within the input
|
||
|
-- bounding box at the requested geometry level
|
||
|
-- with boundary_id, and time_span
|
||
|
-- geom_refs text: geometry identifiers (e.g., geoid for the US Census)
|
||
|
--
|
||
|
-- TODO: move to ST_DWithin instead of buffer + intersects?
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetBoundariesByPointAndRadius(
|
||
|
geom geometry(Point, 4326), -- point
|
||
|
radius numeric, -- radius in meters
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL,
|
||
|
overlap_type text DEFAULT NULL)
|
||
|
RETURNS TABLE(the_geom geometry, geom_refs text)
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
circle_boundary geometry(Geometry, 4326);
|
||
|
BEGIN
|
||
|
|
||
|
IF ST_GeometryType(geom) != 'ST_Point'
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Input geometry ''%'' is not a point', ST_AsText(geom);
|
||
|
ELSE
|
||
|
circle_boundary := ST_Buffer(geom::geography, radius)::geometry;
|
||
|
END IF;
|
||
|
|
||
|
RETURN QUERY SELECT *
|
||
|
FROM cdb_observatory._OBS_GetBoundariesByGeometry(
|
||
|
circle_boundary,
|
||
|
boundary_id,
|
||
|
time_span,
|
||
|
overlap_type);
|
||
|
RETURN;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- _OBS_GetPointsByGeometry
|
||
|
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetPointsByGeometry(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL,
|
||
|
overlap_type text DEFAULT NULL)
|
||
|
RETURNS TABLE(the_geom geometry, geom_refs text)
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
boundary geometry(Geometry, 4326);
|
||
|
geom_colname text;
|
||
|
geoid_colname text;
|
||
|
target_table text;
|
||
|
BEGIN
|
||
|
overlap_type := COALESCE(overlap_type, 'intersects');
|
||
|
|
||
|
IF lower(overlap_type) NOT IN ('contains', 'within', 'intersects')
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Overlap type ''%'' is not an accepted type (choose intersects, within, or contains)', overlap_type;
|
||
|
ELSIF ST_GeometryType(geom) NOT IN ('ST_Polygon', 'ST_MultiPolygon')
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Invalid geometry type (%), expecting ''ST_MultiPolygon'' or ''ST_Polygon''', ST_GeometryType(geom);
|
||
|
END IF;
|
||
|
|
||
|
SELECT * INTO geoid_colname, target_table, geom_colname
|
||
|
FROM cdb_observatory._OBS_GetGeometryMetadata(boundary_id);
|
||
|
|
||
|
-- if no tables are found, raise notice and return null
|
||
|
IF target_table IS NULL
|
||
|
THEN
|
||
|
--RAISE NOTICE 'No boundaries found for bounding box ''%'' in ''%''', ST_AsText(geom), boundary_id;
|
||
|
RETURN QUERY SELECT NULL::geometry, NULL::text;
|
||
|
RETURN;
|
||
|
END IF;
|
||
|
|
||
|
--RAISE NOTICE 'target_table: %', target_table;
|
||
|
|
||
|
-- return first boundary in intersections
|
||
|
RETURN QUERY
|
||
|
EXECUTE format(
|
||
|
'SELECT ST_PointOnSurface(%I) As %s, %I::text
|
||
|
FROM observatory.%I
|
||
|
WHERE ST_%s($1, the_geom)
|
||
|
', geom_colname, geom_colname, geoid_colname, target_table, overlap_type)
|
||
|
USING geom;
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- OBS_GetPointsByGeometry
|
||
|
--
|
||
|
-- Given a polygon, and it's geometry level (see
|
||
|
-- OBS_ListGeomColumns() for all available boundary ids), give back a point
|
||
|
-- which lies in a boundary from the requested geometry level that is contained
|
||
|
-- within the bounding box polygon and the associated geometry ids
|
||
|
--
|
||
|
-- Inputs:
|
||
|
-- geom geometry: bounding box (or polygon) of the region of interest
|
||
|
-- boundary_id text: source id of boundaries (e.g., us.census.tiger.county)
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- table with the following columns
|
||
|
-- boundary geometry: point that lies on a boundary that is contained within
|
||
|
-- the input bounding box at the requested geometry
|
||
|
-- level with boundary_id, and time_span
|
||
|
-- geom_refs text: geometry identifiers (e.g., geoid for the US Census)
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetPointsByGeometry(
|
||
|
geom geometry(Geometry, 4326),
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL,
|
||
|
overlap_type text DEFAULT NULL)
|
||
|
RETURNS TABLE(the_geom geometry, geom_refs text)
|
||
|
AS $$
|
||
|
BEGIN
|
||
|
|
||
|
RETURN QUERY SELECT *
|
||
|
FROM cdb_observatory._OBS_GetPointsByGeometry(
|
||
|
geom,
|
||
|
boundary_id,
|
||
|
time_span,
|
||
|
overlap_type);
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
-- OBS_GetBoundariesByPointAndRadius
|
||
|
--
|
||
|
-- Given a point and radius, and it's geometry level (see
|
||
|
-- OBS_ListGeomColumns() for all available boundary ids), give back the
|
||
|
-- boundaries that are contained within the point buffered by radius meters and
|
||
|
-- the associated geometry ids
|
||
|
|
||
|
-- Inputs:
|
||
|
-- geom geometry: point geometry centered on area of interest
|
||
|
-- radius numeric: radius (in meters) of a circle centered on geom for
|
||
|
-- selecting polygons
|
||
|
-- boundary_id text: source id of boundaries (e.g., us.census.tiger.county)
|
||
|
-- see function OBS_ListGeomColumns for all avaiable
|
||
|
-- boundary ids
|
||
|
-- time_span text: time span that the geometries were collected (optional)
|
||
|
--
|
||
|
-- Output:
|
||
|
-- table with the following columns
|
||
|
-- boundary geometry: geometry boundary that is contained within the input
|
||
|
-- bounding box at the requested geometry level
|
||
|
-- with boundary_id, and time_span
|
||
|
-- geom_refs text: geometry identifiers (e.g., geoid for the US Census)
|
||
|
--
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory.OBS_GetPointsByPointAndRadius(
|
||
|
geom geometry(Point, 4326), -- point
|
||
|
radius numeric, -- radius in meters
|
||
|
boundary_id text,
|
||
|
time_span text DEFAULT NULL,
|
||
|
overlap_type text DEFAULT NULL)
|
||
|
RETURNS TABLE(the_geom geometry, geom_refs text)
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
circle_boundary geometry(Geometry, 4326);
|
||
|
BEGIN
|
||
|
|
||
|
IF ST_GeometryType(geom) != 'ST_Point'
|
||
|
THEN
|
||
|
RAISE EXCEPTION 'Input geometry ''%'' is not a point', ST_AsText(geom);
|
||
|
ELSE
|
||
|
circle_boundary := ST_Buffer(geom::geography, radius)::geometry;
|
||
|
END IF;
|
||
|
|
||
|
RETURN QUERY SELECT *
|
||
|
FROM cdb_observatory._OBS_GetPointsByGeometry(
|
||
|
ST_Buffer(geom::geography, radius)::geometry,
|
||
|
boundary_id,
|
||
|
time_span,
|
||
|
overlap_type);
|
||
|
RETURN;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
|
||
|
-- _OBS_GetGeometryMetadata()
|
||
|
-- TODO: add timespan in search
|
||
|
-- TODO: add choice of clipped versus not clipped
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetGeometryMetadata(boundary_id text)
|
||
|
RETURNS table(geoid_colname text, target_table text, geom_colname text)
|
||
|
AS $$
|
||
|
BEGIN
|
||
|
|
||
|
RETURN QUERY
|
||
|
EXECUTE
|
||
|
format($string$
|
||
|
SELECT geoid_ct.colname::text As geoid_colname,
|
||
|
tablename::text,
|
||
|
geom_ct.colname::text As geom_colname
|
||
|
FROM observatory.obs_column_table As geoid_ct,
|
||
|
observatory.obs_table As geom_t,
|
||
|
observatory.obs_column_table As geom_ct,
|
||
|
observatory.obs_column As geom_c
|
||
|
WHERE geoid_ct.column_id
|
||
|
IN (
|
||
|
SELECT source_id
|
||
|
FROM observatory.obs_column_to_column
|
||
|
WHERE reltype = 'geom_ref'
|
||
|
AND target_id = '%s'
|
||
|
)
|
||
|
AND geoid_ct.table_id = geom_t.id AND
|
||
|
geom_t.id = geom_ct.table_id AND
|
||
|
geom_ct.column_id = geom_c.id AND
|
||
|
geom_c.type ILIKE 'geometry' AND
|
||
|
geom_c.id = '%s'
|
||
|
$string$, boundary_id, boundary_id);
|
||
|
RETURN;
|
||
|
-- AND geom_t.timespan = '%s' <-- put in requested year
|
||
|
-- TODO: filter by clipped vs. not so appropriate tablename are unique
|
||
|
-- so the limit 1 can be removed
|
||
|
RETURN;
|
||
|
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
CREATE TYPE cdb_observatory.ds_fdw_metadata as (schemaname text, tabname text, servername text);
|
||
|
CREATE TYPE cdb_observatory.ds_return_metadata as (colnames text[], coltypes text[]);
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_ConnectUserTable(username text, orgname text, user_db_role text, input_schema text, dbname text, host_addr text, table_name text)
|
||
|
RETURNS cdb_observatory.ds_fdw_metadata
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
fdw_server text;
|
||
|
fdw_import_schema text;
|
||
|
connection_str json;
|
||
|
import_foreign_schema_q text;
|
||
|
epoch_timestamp text;
|
||
|
BEGIN
|
||
|
|
||
|
SELECT extract(epoch from now() at time zone 'utc')::int INTO epoch_timestamp;
|
||
|
fdw_server := 'fdw_server_' || username || '_' || epoch_timestamp;
|
||
|
fdw_import_schema:= fdw_server;
|
||
|
|
||
|
-- Import foreign table
|
||
|
EXECUTE FORMAT ('SELECT cdb_observatory._OBS_ConnectRemoteTable(%L, %L, %L, %L, %L, %L, %L)', fdw_server, fdw_import_schema, dbname, host_addr, user_db_role, table_name, input_schema);
|
||
|
|
||
|
RETURN (fdw_import_schema::text, table_name::text, fdw_server::text);
|
||
|
|
||
|
EXCEPTION
|
||
|
WHEN others THEN
|
||
|
-- Disconnect user imported table. Delete schema and FDW server.
|
||
|
EXECUTE 'DROP FOREIGN TABLE IF EXISTS ' || fdw_import_schema || '.' || table_name;
|
||
|
EXECUTE 'DROP SCHEMA IF EXISTS ' || fdw_import_schema || ' CASCADE';
|
||
|
EXECUTE 'DROP SERVER IF EXISTS ' || fdw_server || ' CASCADE;';
|
||
|
RETURN (null, null, null);
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql SECURITY DEFINER;
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_GetReturnMetadata(username text, orgname text, function_name text, params json)
|
||
|
RETURNS cdb_observatory.ds_return_metadata
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
colnames text[];
|
||
|
coltypes text[];
|
||
|
requested_measures text[];
|
||
|
measure text;
|
||
|
BEGIN
|
||
|
|
||
|
-- Simple mock, there should be real logic in here.
|
||
|
|
||
|
IF $3 NOT ILIKE 'GetMeasure' OR $3 IS NULL THEN
|
||
|
RAISE 'This function is not supported yet: %', $3;
|
||
|
END IF;
|
||
|
|
||
|
SELECT translate($4::json->>'tag_name','[]', '{}')::text[] INTO requested_measures;
|
||
|
|
||
|
FOREACH measure IN ARRAY requested_measures
|
||
|
LOOP
|
||
|
IF NOT measure ILIKE ANY (Array['total_pop', 'pop_16_over']::text[]) THEN
|
||
|
RAISE 'This measure is not supported yet: %', measure;
|
||
|
END IF;
|
||
|
SELECT array_append(colnames, measure) INTO colnames;
|
||
|
SELECT array_append(coltypes, 'double precision'::text) INTO coltypes;
|
||
|
|
||
|
END LOOP;
|
||
|
|
||
|
RETURN (colnames::text[], coltypes::text[]);
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql;
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_FetchJoinFdwTableData(username text, orgname text, table_schema text, table_name text, function_name text, params json)
|
||
|
RETURNS SETOF record
|
||
|
AS $$
|
||
|
DECLARE
|
||
|
data_query text;
|
||
|
tag_name text[];
|
||
|
tag text;
|
||
|
tags_list text;
|
||
|
tags_query text;
|
||
|
rec RECORD;
|
||
|
BEGIN
|
||
|
SELECT translate($6::json->>'tag_name','[]', '{}')::text[] INTO tag_name;
|
||
|
SELECT array_to_string(tag_name, ',') INTO tags_list;
|
||
|
tags_query := '';
|
||
|
|
||
|
FOREACH tag IN ARRAY tag_name
|
||
|
LOOP
|
||
|
SELECT tags_query || ' sum(' || tag || '/fraction)::double precision as ' || tag || ', ' INTO tags_query;
|
||
|
|
||
|
END LOOP;
|
||
|
|
||
|
-- Simple mock, there should be real logic in here.
|
||
|
data_query := '(WITH _areas AS(SELECT ST_Area(a.the_geom::geography)'
|
||
|
|| '/ (1000 * 1000) as fraction, a.geoid, b.cartodb_id FROM '
|
||
|
|| 'observatory.obs_c6fb99c47d61289fbb8e561ff7773799d3fcc308 as a, '
|
||
|
|| table_schema || '.' || table_name || ' AS b '
|
||
|
|| 'WHERE b.the_geom && a.the_geom ), values AS (SELECT geoid, '
|
||
|
|| tags_list
|
||
|
|| ' FROM observatory.obs_1a098da56badf5f32e336002b0a81708c40d29cd ) '
|
||
|
|| 'SELECT '
|
||
|
|| tags_query
|
||
|
|| ' cartodb_id::int FROM _areas, values '
|
||
|
|| 'WHERE values.geoid = _areas.geoid GROUP BY cartodb_id);';
|
||
|
|
||
|
|
||
|
FOR rec IN EXECUTE data_query
|
||
|
LOOP
|
||
|
RETURN NEXT rec;
|
||
|
END LOOP;
|
||
|
RETURN;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql SECURITY DEFINER;
|
||
|
|
||
|
|
||
|
CREATE OR REPLACE FUNCTION cdb_observatory._OBS_DisconnectUserTable(username text, orgname text, table_schema text, table_name text, servername text)
|
||
|
RETURNS boolean
|
||
|
AS $$
|
||
|
BEGIN
|
||
|
EXECUTE 'DROP FOREIGN TABLE IF EXISTS "' || table_schema || '".' || table_name;
|
||
|
EXECUTE 'DROP SCHEMA IF EXISTS ' || table_schema || ' CASCADE';
|
||
|
EXECUTE 'DROP SERVER IF EXISTS ' || servername || ' CASCADE;';
|
||
|
RETURN true;
|
||
|
END;
|
||
|
$$ LANGUAGE plpgsql SECURITY DEFINER;
|
||
|
-- Placeholder for permission tweaks at creation time.
|
||
|
-- Make sure by default there are no permissions for publicuser
|
||
|
-- NOTE: this happens at extension creation time, as part of an implicit transaction.
|
||
|
-- REVOKE ALL PRIVILEGES ON SCHEMA cdb_observatory FROM PUBLIC, publicuser CASCADE;
|
||
|
|
||
|
-- Grant permissions on the schema to publicuser (but just the schema)
|
||
|
-- GRANT USAGE ON SCHEMA cdb_crankshaft TO publicuser;
|
||
|
|
||
|
-- Revoke execute permissions on all functions in the schema by default
|
||
|
-- REVOKE EXECUTE ON ALL FUNCTIONS IN SCHEMA cdb_observatory FROM PUBLIC, publicuser;
|