ALTER SEQUENCE pg_catalog.pg_dist_shardid_seq RESTART 840000; ALTER SEQUENCE pg_catalog.pg_dist_jobid_seq RESTART 840000; -- =================================================================== -- test router planner functionality for single shard select queries -- =================================================================== CREATE TABLE articles_hash ( id bigint NOT NULL, author_id bigint NOT NULL, title varchar(20) NOT NULL, word_count integer ); -- Check for the existence of line 'DEBUG: Creating router plan' -- to determine if router planner is used. -- this table is used in a CTE test CREATE TABLE authors_hash ( name text, id bigint ); -- this table is used in router executor tests CREATE TABLE articles_single_shard_hash (LIKE articles_hash); SELECT master_create_distributed_table('articles_hash', 'author_id', 'hash'); SELECT master_create_distributed_table('articles_single_shard_hash', 'author_id', 'hash'); -- test when a table is distributed but no shards created yet SELECT count(*) from articles_hash; SELECT master_create_worker_shards('articles_hash', 2, 1); SELECT master_create_worker_shards('articles_single_shard_hash', 1, 1); -- create a bunch of test data INSERT INTO articles_hash VALUES ( 1, 1, 'arsenous', 9572); INSERT INTO articles_hash VALUES ( 2, 2, 'abducing', 13642); INSERT INTO articles_hash VALUES ( 3, 3, 'asternal', 10480); INSERT INTO articles_hash VALUES ( 4, 4, 'altdorfer', 14551); INSERT INTO articles_hash VALUES ( 5, 5, 'aruru', 11389); INSERT INTO articles_hash VALUES ( 6, 6, 'atlases', 15459); INSERT INTO articles_hash VALUES ( 7, 7, 'aseptic', 12298); INSERT INTO articles_hash VALUES ( 8, 8, 'agatized', 16368); INSERT INTO articles_hash VALUES ( 9, 9, 'alligate', 438); INSERT INTO articles_hash VALUES (10, 10, 'aggrandize', 17277); INSERT INTO articles_hash VALUES (11, 1, 'alamo', 1347); INSERT INTO articles_hash VALUES (12, 2, 'archiblast', 18185); INSERT INTO articles_hash VALUES (13, 3, 'aseyev', 2255); INSERT INTO articles_hash VALUES (14, 4, 'andesite', 19094); INSERT INTO articles_hash VALUES (15, 5, 'adversa', 3164); INSERT INTO articles_hash VALUES (16, 6, 'allonym', 2); INSERT INTO articles_hash VALUES (17, 7, 'auriga', 4073); INSERT INTO articles_hash VALUES (18, 8, 'assembly', 911); INSERT INTO articles_hash VALUES (19, 9, 'aubergiste', 4981); INSERT INTO articles_hash VALUES (20, 10, 'absentness', 1820); INSERT INTO articles_hash VALUES (21, 1, 'arcading', 5890); INSERT INTO articles_hash VALUES (22, 2, 'antipope', 2728); INSERT INTO articles_hash VALUES (23, 3, 'abhorring', 6799); INSERT INTO articles_hash VALUES (24, 4, 'audacious', 3637); INSERT INTO articles_hash VALUES (25, 5, 'antehall', 7707); INSERT INTO articles_hash VALUES (26, 6, 'abington', 4545); INSERT INTO articles_hash VALUES (27, 7, 'arsenous', 8616); INSERT INTO articles_hash VALUES (28, 8, 'aerophyte', 5454); INSERT INTO articles_hash VALUES (29, 9, 'amateur', 9524); INSERT INTO articles_hash VALUES (30, 10, 'andelee', 6363); INSERT INTO articles_hash VALUES (31, 1, 'athwartships', 7271); INSERT INTO articles_hash VALUES (32, 2, 'amazon', 11342); INSERT INTO articles_hash VALUES (33, 3, 'autochrome', 8180); INSERT INTO articles_hash VALUES (34, 4, 'amnestied', 12250); INSERT INTO articles_hash VALUES (35, 5, 'aminate', 9089); INSERT INTO articles_hash VALUES (36, 6, 'ablation', 13159); INSERT INTO articles_hash VALUES (37, 7, 'archduchies', 9997); INSERT INTO articles_hash VALUES (38, 8, 'anatine', 14067); INSERT INTO articles_hash VALUES (39, 9, 'anchises', 10906); INSERT INTO articles_hash VALUES (40, 10, 'attemper', 14976); INSERT INTO articles_hash VALUES (41, 1, 'aznavour', 11814); INSERT INTO articles_hash VALUES (42, 2, 'ausable', 15885); INSERT INTO articles_hash VALUES (43, 3, 'affixal', 12723); INSERT INTO articles_hash VALUES (44, 4, 'anteport', 16793); INSERT INTO articles_hash VALUES (45, 5, 'afrasia', 864); INSERT INTO articles_hash VALUES (46, 6, 'atlanta', 17702); INSERT INTO articles_hash VALUES (47, 7, 'abeyance', 1772); INSERT INTO articles_hash VALUES (48, 8, 'alkylic', 18610); INSERT INTO articles_hash VALUES (49, 9, 'anyone', 2681); INSERT INTO articles_hash VALUES (50, 10, 'anjanette', 19519); SET citus.task_executor_type TO 'real-time'; SET citus.large_table_shard_count TO 2; SET client_min_messages TO 'DEBUG2'; -- insert a single row for the test INSERT INTO articles_single_shard_hash VALUES (50, 10, 'anjanette', 19519); -- single-shard tests -- test simple select for a single row SELECT * FROM articles_hash WHERE author_id = 10 AND id = 50; -- get all titles by a single author SELECT title FROM articles_hash WHERE author_id = 10; -- try ordering them by word count SELECT title, word_count FROM articles_hash WHERE author_id = 10 ORDER BY word_count DESC NULLS LAST; -- look at last two articles by an author SELECT title, id FROM articles_hash WHERE author_id = 5 ORDER BY id LIMIT 2; -- find all articles by two authors in same shard -- but plan is not router executable due to order by SELECT title, author_id FROM articles_hash WHERE author_id = 7 OR author_id = 8 ORDER BY author_id ASC, id; -- same query is router executable with no order by SELECT title, author_id FROM articles_hash WHERE author_id = 7 OR author_id = 8; -- add in some grouping expressions, still on same shard -- having queries unsupported in Citus SELECT author_id, sum(word_count) AS corpus_size FROM articles_hash WHERE author_id = 1 OR author_id = 7 OR author_id = 8 OR author_id = 10 GROUP BY author_id HAVING sum(word_count) > 1000 ORDER BY sum(word_count) DESC; -- however having clause is supported if it goes to a single shard SELECT author_id, sum(word_count) AS corpus_size FROM articles_hash WHERE author_id = 1 GROUP BY author_id HAVING sum(word_count) > 1000 ORDER BY sum(word_count) DESC; -- query is a single shard query but can't do shard pruning, -- not router-plannable due to <= and IN SELECT * FROM articles_hash WHERE author_id <= 1; SELECT * FROM articles_hash WHERE author_id IN (1, 3); -- queries with CTEs are supported WITH first_author AS ( SELECT id FROM articles_hash WHERE author_id = 1) SELECT * FROM first_author; -- queries with CTEs are supported even if CTE is not referenced inside query WITH first_author AS ( SELECT id FROM articles_hash WHERE author_id = 1) SELECT title FROM articles_hash WHERE author_id = 1; -- two CTE joins are supported if they go to the same worker WITH id_author AS ( SELECT id, author_id FROM articles_hash WHERE author_id = 1), id_title AS (SELECT id, title from articles_hash WHERE author_id = 1) SELECT * FROM id_author, id_title WHERE id_author.id = id_title.id; WITH id_author AS ( SELECT id, author_id FROM articles_hash WHERE author_id = 1), id_title AS (SELECT id, title from articles_hash WHERE author_id = 3) SELECT * FROM id_author, id_title WHERE id_author.id = id_title.id; -- CTE joins are not supported if table shards are at different workers WITH id_author AS ( SELECT id, author_id FROM articles_hash WHERE author_id = 1), id_title AS (SELECT id, title from articles_hash WHERE author_id = 2) SELECT * FROM id_author, id_title WHERE id_author.id = id_title.id; -- recursive CTEs are supported when filtered on partition column CREATE TABLE company_employees (company_id int, employee_id int, manager_id int); SELECT master_create_distributed_table('company_employees', 'company_id', 'hash'); SELECT master_create_worker_shards('company_employees', 4, 1); INSERT INTO company_employees values(1, 1, 0); INSERT INTO company_employees values(1, 2, 1); INSERT INTO company_employees values(1, 3, 1); INSERT INTO company_employees values(1, 4, 2); INSERT INTO company_employees values(1, 5, 4); INSERT INTO company_employees values(3, 1, 0); INSERT INTO company_employees values(3, 15, 1); INSERT INTO company_employees values(3, 3, 1); -- find employees at top 2 level within company hierarchy WITH RECURSIVE hierarchy as ( SELECT *, 1 AS level FROM company_employees WHERE company_id = 1 and manager_id = 0 UNION SELECT ce.*, (h.level+1) FROM hierarchy h JOIN company_employees ce ON (h.employee_id = ce.manager_id AND h.company_id = ce.company_id AND ce.company_id = 1)) SELECT * FROM hierarchy WHERE LEVEL <= 2; -- query becomes not router plannble and gets rejected -- if filter on company is dropped WITH RECURSIVE hierarchy as ( SELECT *, 1 AS level FROM company_employees WHERE company_id = 1 and manager_id = 0 UNION SELECT ce.*, (h.level+1) FROM hierarchy h JOIN company_employees ce ON (h.employee_id = ce.manager_id AND h.company_id = ce.company_id)) SELECT * FROM hierarchy WHERE LEVEL <= 2; -- logically wrong query, query involves different shards -- from the same table, but still router plannable due to -- shard being placed on the same worker. WITH RECURSIVE hierarchy as ( SELECT *, 1 AS level FROM company_employees WHERE company_id = 3 and manager_id = 0 UNION SELECT ce.*, (h.level+1) FROM hierarchy h JOIN company_employees ce ON (h.employee_id = ce.manager_id AND h.company_id = ce.company_id AND ce.company_id = 2)) SELECT * FROM hierarchy WHERE LEVEL <= 2; -- grouping sets are supported on single shard SELECT id, substring(title, 2, 1) AS subtitle, count(*) FROM articles_hash WHERE author_id = 1 or author_id = 3 GROUP BY GROUPING SETS ((id),(subtitle)); -- grouping sets are not supported on multiple shards SELECT id, substring(title, 2, 1) AS subtitle, count(*) FROM articles_hash WHERE author_id = 1 or author_id = 2 GROUP BY GROUPING SETS ((id),(subtitle)); -- queries which involve functions in FROM clause are supported if it goes to a single worker. SELECT * FROM articles_hash, position('om' in 'Thomas') WHERE author_id = 1; SELECT * FROM articles_hash, position('om' in 'Thomas') WHERE author_id = 1 or author_id = 3; -- they are not supported if multiple workers are involved SELECT * FROM articles_hash, position('om' in 'Thomas') WHERE author_id = 1 or author_id = 2; -- subqueries are not supported in WHERE clause in Citus SELECT * FROM articles_hash WHERE author_id IN (SELECT id FROM authors_hash WHERE name LIKE '%a'); SELECT * FROM articles_hash WHERE author_id IN (SELECT author_id FROM articles_hash WHERE author_id = 1 or author_id = 3); SELECT * FROM articles_hash WHERE author_id = (SELECT 1); -- subqueries are supported in FROM clause but they are not router plannable SELECT articles_hash.id,test.word_count FROM articles_hash, (SELECT id, word_count FROM articles_hash) AS test WHERE test.id = articles_hash.id ORDER BY articles_hash.id; SELECT articles_hash.id,test.word_count FROM articles_hash, (SELECT id, word_count FROM articles_hash) AS test WHERE test.id = articles_hash.id and articles_hash.author_id = 1 ORDER BY articles_hash.id; -- subqueries are not supported in SELECT clause SELECT a.title AS name, (SELECT a2.id FROM articles_single_shard_hash a2 WHERE a.id = a2.id LIMIT 1) AS special_price FROM articles_hash a; -- simple lookup query SELECT * FROM articles_hash WHERE author_id = 1; -- below query hits a single shard, router plannable SELECT * FROM articles_hash WHERE author_id = 1 OR author_id = 17; -- below query hits two shards, not router plannable + not router executable -- handled by real-time executor SELECT * FROM articles_hash WHERE author_id = 1 OR author_id = 18; -- rename the output columns SELECT id as article_id, word_count * id as random_value FROM articles_hash WHERE author_id = 1; -- we can push down co-located joins to a single worker SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, articles_hash b WHERE a.author_id = 10 and a.author_id = b.author_id LIMIT 3; -- following join is router plannable since the same worker -- has both shards SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, articles_single_shard_hash b WHERE a.author_id = 10 and a.author_id = b.author_id LIMIT 3; -- following join is not router plannable since there are no -- workers containing both shards, added a CTE to make this fail -- at logical planner WITH single_shard as (SELECT * FROM articles_single_shard_hash) SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, single_shard b WHERE a.author_id = 2 and a.author_id = b.author_id LIMIT 3; -- single shard select with limit is router plannable SELECT * FROM articles_hash WHERE author_id = 1 LIMIT 3; -- single shard select with limit + offset is router plannable SELECT * FROM articles_hash WHERE author_id = 1 LIMIT 2 OFFSET 1; -- single shard select with limit + offset + order by is router plannable SELECT * FROM articles_hash WHERE author_id = 1 ORDER BY id desc LIMIT 2 OFFSET 1; -- single shard select with group by on non-partition column is router plannable SELECT id FROM articles_hash WHERE author_id = 1 GROUP BY id; -- single shard select with distinct is router plannable SELECT distinct id FROM articles_hash WHERE author_id = 1; -- single shard aggregate is router plannable SELECT avg(word_count) FROM articles_hash WHERE author_id = 2; -- max, min, sum, count are router plannable on single shard SELECT max(word_count) as max, min(word_count) as min, sum(word_count) as sum, count(word_count) as cnt FROM articles_hash WHERE author_id = 2; -- queries with aggregates and group by supported on single shard SELECT max(word_count) FROM articles_hash WHERE author_id = 1 GROUP BY author_id; -- router plannable union queries are supported (SELECT * FROM articles_hash WHERE author_id = 1) UNION (SELECT * FROM articles_hash WHERE author_id = 3); SELECT * FROM ( (SELECT * FROM articles_hash WHERE author_id = 1) UNION (SELECT * FROM articles_hash WHERE author_id = 3)) uu; (SELECT LEFT(title, 1) FROM articles_hash WHERE author_id = 1) UNION (SELECT LEFT(title, 1) FROM articles_hash WHERE author_id = 3); (SELECT LEFT(title, 1) FROM articles_hash WHERE author_id = 1) INTERSECT (SELECT LEFT(title, 1) FROM articles_hash WHERE author_id = 3); (SELECT LEFT(title, 2) FROM articles_hash WHERE author_id = 1) EXCEPT (SELECT LEFT(title, 2) FROM articles_hash WHERE author_id = 3); -- union queries are not supported if not router plannable -- there is an inconsistency on shard pruning between -- ubuntu/mac disabling log messages for this queries only SET client_min_messages to 'NOTICE'; (SELECT * FROM articles_hash WHERE author_id = 1) UNION (SELECT * FROM articles_hash WHERE author_id = 2); SELECT * FROM ( (SELECT * FROM articles_hash WHERE author_id = 1) UNION (SELECT * FROM articles_hash WHERE author_id = 2)) uu; -- error out for queries with repartition jobs SELECT * FROM articles_hash a, articles_hash b WHERE a.id = b.id AND a.author_id = 1; -- queries which hit more than 1 shards are not router plannable or executable -- handled by real-time executor SELECT * FROM articles_hash WHERE author_id >= 1 AND author_id <= 3; SET citus.task_executor_type TO 'real-time'; -- Test various filtering options for router plannable check SET client_min_messages to 'DEBUG2'; -- this is definitely single shard -- and router plannable SELECT * FROM articles_hash WHERE author_id = 1 and author_id >= 1; -- not router plannable due to or SELECT * FROM articles_hash WHERE author_id = 1 or id = 1; -- router plannable SELECT * FROM articles_hash WHERE author_id = 1 and (id = 1 or id = 41); -- router plannable SELECT * FROM articles_hash WHERE author_id = 1 and (id = random()::int * 0); -- not router plannable due to function call on the right side SELECT * FROM articles_hash WHERE author_id = (random()::int * 0 + 1); -- not router plannable due to or SELECT * FROM articles_hash WHERE author_id = 1 or id = 1; -- router plannable due to abs(-1) getting converted to 1 by postgresql SELECT * FROM articles_hash WHERE author_id = abs(-1); -- not router plannable due to abs() function SELECT * FROM articles_hash WHERE 1 = abs(author_id); -- not router plannable due to abs() function SELECT * FROM articles_hash WHERE author_id = abs(author_id - 2); -- router plannable, function on different field SELECT * FROM articles_hash WHERE author_id = 1 and (id = abs(id - 2)); -- not router plannable due to is true SELECT * FROM articles_hash WHERE (author_id = 1) is true; -- router plannable, (boolean expression) = true is collapsed to (boolean expression) SELECT * FROM articles_hash WHERE (author_id = 1) = true; -- router plannable, between operator is on another column SELECT * FROM articles_hash WHERE (author_id = 1) and id between 0 and 20; -- router plannable, partition column expression is and'ed to rest SELECT * FROM articles_hash WHERE (author_id = 1) and (id = 1 or id = 31) and title like '%s'; -- router plannable, order is changed SELECT * FROM articles_hash WHERE (id = 1 or id = 31) and title like '%s' and (author_id = 1); -- router plannable SELECT * FROM articles_hash WHERE (title like '%s' or title like 'a%') and (author_id = 1); -- router plannable SELECT * FROM articles_hash WHERE (title like '%s' or title like 'a%') and (author_id = 1) and (word_count < 3000 or word_count > 8000); -- window functions are supported if query is router plannable SELECT LAG(title, 1) over (ORDER BY word_count) prev, title, word_count FROM articles_hash WHERE author_id = 5; SELECT LAG(title, 1) over (ORDER BY word_count) prev, title, word_count FROM articles_hash WHERE author_id = 5 ORDER BY word_count DESC; SELECT id, MIN(id) over (order by word_count) FROM articles_hash WHERE author_id = 1; SELECT id, word_count, AVG(word_count) over (order by word_count) FROM articles_hash WHERE author_id = 1; SELECT word_count, rank() OVER (PARTITION BY author_id ORDER BY word_count) FROM articles_hash WHERE author_id = 1; -- window functions are not supported for not router plannable queries SELECT id, MIN(id) over (order by word_count) FROM articles_hash WHERE author_id = 1 or author_id = 2; SELECT LAG(title, 1) over (ORDER BY word_count) prev, title, word_count FROM articles_hash WHERE author_id = 5 or author_id = 2; -- where false queries are router plannable SELECT * FROM articles_hash WHERE false; SELECT * FROM articles_hash WHERE author_id = 1 and false; SELECT * FROM articles_hash WHERE author_id = 1 and 1=0; SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, articles_single_shard_hash b WHERE a.author_id = 10 and a.author_id = b.author_id and false; SELECT * FROM articles_hash WHERE null; -- where false with immutable function returning false SELECT * FROM articles_hash a WHERE a.author_id = 10 and int4eq(1, 2); SELECT * FROM articles_hash a WHERE int4eq(1, 2); SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, articles_single_shard_hash b WHERE a.author_id = 10 and a.author_id = b.author_id and int4eq(1, 1); SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, articles_single_shard_hash b WHERE a.author_id = 10 and a.author_id = b.author_id and int4eq(1, 2); -- stable function returning bool SELECT * FROM articles_hash a WHERE date_ne_timestamp('1954-04-11', '1954-04-11'::timestamp); SELECT a.author_id as first_author, b.word_count as second_word_count FROM articles_hash a, articles_single_shard_hash b WHERE a.author_id = 10 and a.author_id = b.author_id and date_ne_timestamp('1954-04-11', '1954-04-11'::timestamp); -- union/difference /intersection with where false -- this query was not originally router plannable, addition of 1=0 -- makes it router plannable (SELECT * FROM articles_hash WHERE author_id = 1) UNION (SELECT * FROM articles_hash WHERE author_id = 2 and 1=0); (SELECT * FROM articles_hash WHERE author_id = 1) EXCEPT (SELECT * FROM articles_hash WHERE author_id = 2 and 1=0); (SELECT * FROM articles_hash WHERE author_id = 1) INTERSECT (SELECT * FROM articles_hash WHERE author_id = 2 and 1=0); -- CTEs with where false WITH id_author AS ( SELECT id, author_id FROM articles_hash WHERE author_id = 1), id_title AS (SELECT id, title from articles_hash WHERE author_id = 1 and 1=0) SELECT * FROM id_author, id_title WHERE id_author.id = id_title.id; WITH id_author AS ( SELECT id, author_id FROM articles_hash WHERE author_id = 1), id_title AS (SELECT id, title from articles_hash WHERE author_id = 1) SELECT * FROM id_author, id_title WHERE id_author.id = id_title.id and 1=0; WITH RECURSIVE hierarchy as ( SELECT *, 1 AS level FROM company_employees WHERE company_id = 1 and manager_id = 0 UNION SELECT ce.*, (h.level+1) FROM hierarchy h JOIN company_employees ce ON (h.employee_id = ce.manager_id AND h.company_id = ce.company_id AND ce.company_id = 1)) SELECT * FROM hierarchy WHERE LEVEL <= 2 and 1=0; WITH RECURSIVE hierarchy as ( SELECT *, 1 AS level FROM company_employees WHERE company_id = 1 and manager_id = 0 UNION SELECT ce.*, (h.level+1) FROM hierarchy h JOIN company_employees ce ON (h.employee_id = ce.manager_id AND h.company_id = ce.company_id AND ce.company_id = 1 AND 1=0)) SELECT * FROM hierarchy WHERE LEVEL <= 2; WITH RECURSIVE hierarchy as ( SELECT *, 1 AS level FROM company_employees WHERE company_id = 1 and manager_id = 0 AND 1=0 UNION SELECT ce.*, (h.level+1) FROM hierarchy h JOIN company_employees ce ON (h.employee_id = ce.manager_id AND h.company_id = ce.company_id AND ce.company_id = 1)) SELECT * FROM hierarchy WHERE LEVEL <= 2; -- window functions with where false SELECT word_count, rank() OVER (PARTITION BY author_id ORDER BY word_count) FROM articles_hash WHERE author_id = 1 and 1=0; -- complex query hitting a single shard SELECT count(DISTINCT CASE WHEN word_count > 100 THEN id ELSE NULL END) as c FROM articles_hash WHERE author_id = 5; -- same query is not router plannable if hits multiple shards SELECT count(DISTINCT CASE WHEN word_count > 100 THEN id ELSE NULL END) as c FROM articles_hash GROUP BY author_id; -- queries inside transactions can be router plannable BEGIN; SELECT * FROM articles_hash WHERE author_id = 1 ORDER BY id; END; -- cursor queries are router plannable BEGIN; DECLARE test_cursor CURSOR FOR SELECT * FROM articles_hash WHERE author_id = 1 ORDER BY id; FETCH test_cursor; FETCH ALL test_cursor; FETCH test_cursor; -- fetch one row after the last END; -- queries inside copy can be router plannable COPY ( SELECT * FROM articles_hash WHERE author_id = 1 ORDER BY id) TO STDOUT; -- table creation queries inside can be router plannable CREATE TEMP TABLE temp_articles_hash as SELECT * FROM articles_hash WHERE author_id = 1 ORDER BY id; -- router plannable queries may include filter for aggragates SELECT count(*), count(*) FILTER (WHERE id < 3) FROM articles_hash WHERE author_id = 1; -- non-router plannable queries do not support filters SELECT count(*), count(*) FILTER (WHERE id < 3) FROM articles_hash WHERE author_id = 1 or author_id = 2; -- prepare queries can be router plannable PREPARE author_1_articles as SELECT * FROM articles_hash WHERE author_id = 1; EXECUTE author_1_articles; -- parametric prepare queries can be router plannable PREPARE author_articles(int) as SELECT * FROM articles_hash WHERE author_id = $1; EXECUTE author_articles(1); -- queries inside plpgsql functions could be router plannable CREATE OR REPLACE FUNCTION author_articles_max_id() RETURNS int AS $$ DECLARE max_id integer; BEGIN SELECT MAX(id) FROM articles_hash ah WHERE author_id = 1 into max_id; return max_id; END; $$ LANGUAGE plpgsql; SELECT author_articles_max_id(); -- check that function returning setof query are router plannable CREATE OR REPLACE FUNCTION author_articles_id_word_count() RETURNS TABLE(id bigint, word_count int) AS $$ DECLARE BEGIN RETURN QUERY SELECT ah.id, ah.word_count FROM articles_hash ah WHERE author_id = 1; END; $$ LANGUAGE plpgsql; SELECT * FROM author_articles_id_word_count(); -- materialized views can be created for router plannable queries CREATE MATERIALIZED VIEW mv_articles_hash AS SELECT * FROM articles_hash WHERE author_id = 1; SELECT * FROM mv_articles_hash; CREATE MATERIALIZED VIEW mv_articles_hash_error AS SELECT * FROM articles_hash WHERE author_id in (1,2); -- router planner/executor is disabled for task-tracker executor -- following query is router plannable, but router planner is disabled SET citus.task_executor_type to 'task-tracker'; SELECT id FROM articles_hash WHERE author_id = 1; -- insert query is router plannable even under task-tracker INSERT INTO articles_hash VALUES (51, 1, 'amateus', 1814); -- verify insert is successfull (not router plannable and executable) SELECT id FROM articles_hash WHERE author_id = 1; SET client_min_messages to 'NOTICE'; DROP FUNCTION author_articles_max_id(); DROP FUNCTION author_articles_id_word_count(); DROP MATERIALIZED VIEW mv_articles_hash; DROP TABLE articles_hash; DROP TABLE articles_single_shard_hash; DROP TABLE authors_hash; DROP TABLE company_employees;