CREATE EXTENSION pg_ivm; GRANT ALL ON SCHEMA public TO public; -- create a table to use as a basis for views and materialized views in various combinations CREATE TABLE mv_base_a (x int, i int, y int, j int); CREATE TABLE mv_base_b (x int, i int, y int, k int); -- test for base tables with dropped columns ALTER TABLE mv_base_a DROP COLUMN x; ALTER TABLE mv_base_a DROP COLUMN y; ALTER TABLE mv_base_b DROP COLUMN x; ALTER TABLE mv_base_b DROP COLUMN y; INSERT INTO mv_base_a VALUES (1,10), (2,20), (3,30), (4,40), (5,50); INSERT INTO mv_base_b VALUES (1,101), (2,102), (3,103), (4,104); SELECT pgivm.create_immv('mv_ivm_1', 'SELECT i,j,k FROM mv_base_a a INNER JOIN mv_base_b b USING(i)'); SELECT * FROM mv_ivm_1 ORDER BY 1,2,3; -- immediate maintenance BEGIN; INSERT INTO mv_base_b VALUES(5,105); SELECT * FROM mv_ivm_1 ORDER BY 1,2,3; UPDATE mv_base_a SET j = 0 WHERE i = 1; SELECT * FROM mv_ivm_1 ORDER BY 1,2,3; DELETE FROM mv_base_b WHERE (i,k) = (5,105); SELECT * FROM mv_ivm_1 ORDER BY 1,2,3; ROLLBACK; SELECT * FROM mv_ivm_1 ORDER BY 1,2,3; -- test for renaming column name to camel style BEGIN; ALTER TABLE mv_base_a RENAME i TO "I"; ALTER TABLE mv_base_a RENAME j TO "J"; UPDATE mv_base_a SET "J" = 0 WHERE "I" = 1; SELECT * FROM mv_ivm_1 ORDER BY 1,2,3; ROLLBACK; -- TRUNCATE a base table in join views BEGIN; TRUNCATE mv_base_a; SELECT * FROM mv_ivm_1; ROLLBACK; BEGIN; TRUNCATE mv_base_b; SELECT * FROM mv_ivm_1; ROLLBACK; -- some query syntax BEGIN; CREATE FUNCTION ivm_func() RETURNS int LANGUAGE 'sql' AS 'SELECT 1' IMMUTABLE; SELECT pgivm.create_immv('mv_ivm_func', 'SELECT * FROM ivm_func()'); SELECT pgivm.create_immv('mv_ivm_no_tbl', 'SELECT 1'); ROLLBACK; -- result of materialized view have DISTINCT clause or the duplicate result. BEGIN; SELECT pgivm.create_immv('mv_ivm_duplicate', 'SELECT j FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm_distinct', 'SELECT DISTINCT j FROM mv_base_a'); INSERT INTO mv_base_a VALUES(6,20); SELECT * FROM mv_ivm_duplicate ORDER BY 1; SELECT * FROM mv_ivm_distinct ORDER BY 1; DELETE FROM mv_base_a WHERE (i,j) = (2,20); SELECT * FROM mv_ivm_duplicate ORDER BY 1; SELECT * FROM mv_ivm_distinct ORDER BY 1; ROLLBACK; -- support SUM(), COUNT() and AVG() aggregate functions BEGIN; SELECT pgivm.create_immv('mv_ivm_agg', 'SELECT i, SUM(j), COUNT(i), AVG(j) FROM mv_base_a GROUP BY i'); SELECT * FROM mv_ivm_agg ORDER BY 1,2,3,4; INSERT INTO mv_base_a VALUES(2,100); SELECT * FROM mv_ivm_agg ORDER BY 1,2,3,4; UPDATE mv_base_a SET j = 200 WHERE (i,j) = (2,100); SELECT * FROM mv_ivm_agg ORDER BY 1,2,3,4; DELETE FROM mv_base_a WHERE (i,j) = (2,200); SELECT * FROM mv_ivm_agg ORDER BY 1,2,3,4; ROLLBACK; -- support COUNT(*) aggregate function BEGIN; SELECT pgivm.create_immv('mv_ivm_agg', 'SELECT i, SUM(j), COUNT(*) FROM mv_base_a GROUP BY i'); SELECT * FROM mv_ivm_agg ORDER BY 1,2,3; INSERT INTO mv_base_a VALUES(2,100); SELECT * FROM mv_ivm_agg ORDER BY 1,2,3; ROLLBACK; -- TRUNCATE a base table in aggregate views BEGIN; SELECT pgivm.create_immv('mv_ivm_agg', 'SELECT i, SUM(j), COUNT(*) FROM mv_base_a GROUP BY i'); TRUNCATE mv_base_a; SELECT sum, count FROM mv_ivm_agg; SELECT i, SUM(j), COUNT(*) FROM mv_base_a GROUP BY i; ROLLBACK; -- support aggregate functions without GROUP clause BEGIN; SELECT pgivm.create_immv('mv_ivm_group', 'SELECT SUM(j), COUNT(j), AVG(j) FROM mv_base_a'); SELECT * FROM mv_ivm_group ORDER BY 1; INSERT INTO mv_base_a VALUES(6,60); SELECT * FROM mv_ivm_group ORDER BY 1; DELETE FROM mv_base_a; SELECT * FROM mv_ivm_group ORDER BY 1; ROLLBACK; -- TRUNCATE a base table in aggregate views without GROUP clause BEGIN; SELECT pgivm.create_immv('mv_ivm_group', 'SELECT SUM(j), COUNT(j), AVG(j) FROM mv_base_a'); TRUNCATE mv_base_a; SELECT sum, count, avg FROM mv_ivm_group; SELECT SUM(j), COUNT(j), AVG(j) FROM mv_base_a; ROLLBACK; -- resolved issue: When use AVG() function and values is indivisible, result of AVG() is incorrect. BEGIN; SELECT pgivm.create_immv('mv_ivm_avg_bug', 'SELECT i, SUM(j), COUNT(j), AVG(j) FROM mv_base_A GROUP BY i'); SELECT * FROM mv_ivm_avg_bug ORDER BY 1,2,3; INSERT INTO mv_base_a VALUES (1,0), (1,0), (2,30), (2,30); SELECT * FROM mv_ivm_avg_bug ORDER BY 1,2,3; DELETE FROM mv_base_a WHERE (i,j) = (1,0); DELETE FROM mv_base_a WHERE (i,j) = (2,30); SELECT * FROM mv_ivm_avg_bug ORDER BY 1,2,3; ROLLBACK; -- support MIN(), MAX() aggregate functions BEGIN; SELECT pgivm.create_immv('mv_ivm_min_max(i, min_j, max_j)', 'SELECT i, MIN(j), MAX(j) FROM mv_base_a GROUP BY i'); SELECT * FROM mv_ivm_min_max ORDER BY 1,2,3; INSERT INTO mv_base_a VALUES (1,11), (1,12), (2,21), (2,22), (3,31), (3,32), (4,41), (4,42), (5,51), (5,52); SELECT * FROM mv_ivm_min_max ORDER BY 1,2,3; DELETE FROM mv_base_a WHERE (i,j) IN ((1,10), (2,21), (3,32)); SELECT * FROM mv_ivm_min_max ORDER BY 1,2,3; ROLLBACK; -- support MIN(), MAX() aggregate functions without GROUP clause BEGIN; SELECT pgivm.create_immv('mv_ivm_min_max(min_j, max_j)', 'SELECT MIN(j), MAX(j) FROM mv_base_a'); SELECT * FROM mv_ivm_min_max; INSERT INTO mv_base_a VALUES (0,0), (6,60), (7,70); SELECT * FROM mv_ivm_min_max; DELETE FROM mv_base_a WHERE (i,j) IN ((0,0), (7,70)); SELECT * FROM mv_ivm_min_max; DELETE FROM mv_base_a; SELECT * FROM mv_ivm_min_max; ROLLBACK; -- Test MIN/MAX after search_path change BEGIN; SELECT pgivm.create_immv('mv_ivm_min', 'SELECT MIN(j) FROM mv_base_a'); SELECT * FROM mv_ivm_min ORDER BY 1,2,3; CREATE SCHEMA myschema; GRANT ALL ON SCHEMA myschema TO public; CREATE TABLE myschema.mv_base_a (j int); INSERT INTO myschema.mv_base_a VALUES (1); DELETE FROM mv_base_a WHERE (i,j) = (1,10); SELECT * FROM mv_ivm_min ORDER BY 1,2,3; SET search_path TO myschema,public,pg_catalog; DELETE FROM public.mv_base_a WHERE (i,j) = (2,20); SELECT * FROM mv_ivm_min ORDER BY 1,2,3; ROLLBACK; -- aggregate views with column names specified BEGIN; SELECT pgivm.create_immv('mv_ivm_agg(a)', 'SELECT i, SUM(j) FROM mv_base_a GROUP BY i'); INSERT INTO mv_base_a VALUES (1,100), (2,200), (3,300); UPDATE mv_base_a SET j = 2000 WHERE (i,j) = (2,20); DELETE FROM mv_base_a WHERE (i,j) = (3,30); SELECT * FROM mv_ivm_agg ORDER BY 1,2; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_ivm_agg(a,b)', 'SELECT i, SUM(j) FROM mv_base_a GROUP BY i'); INSERT INTO mv_base_a VALUES (1,100), (2,200), (3,300); UPDATE mv_base_a SET j = 2000 WHERE (i,j) = (2,20); DELETE FROM mv_base_a WHERE (i,j) = (3,30); SELECT * FROM mv_ivm_agg ORDER BY 1,2; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_ivm_agg(a,b,c)', 'SELECT i, SUM(j) FROM mv_base_a GROUP BY i'); ROLLBACK; -- support self join view and multiple change on the same table BEGIN; CREATE TABLE base_t (i int, v int); INSERT INTO base_t VALUES (1, 10), (2, 20), (3, 30); SELECT pgivm.create_immv('mv_self(v1, v2)', 'SELECT t1.v, t2.v FROM base_t AS t1 JOIN base_t AS t2 ON t1.i = t2.i'); SELECT * FROM mv_self ORDER BY v1; INSERT INTO base_t VALUES (4,40); DELETE FROM base_t WHERE i = 1; UPDATE base_t SET v = v*10 WHERE i=2; SELECT * FROM mv_self ORDER BY v1; WITH ins_t1 AS (INSERT INTO base_t VALUES (5,50) RETURNING 1), ins_t2 AS (INSERT INTO base_t VALUES (6,60) RETURNING 1), upd_t AS (UPDATE base_t SET v = v + 100 RETURNING 1), dlt_t AS (DELETE FROM base_t WHERE i IN (4,5) RETURNING 1) SELECT NULL; SELECT * FROM mv_self ORDER BY v1; --- with sub-transactions SAVEPOINT p1; INSERT INTO base_t VALUES (7,70); RELEASE SAVEPOINT p1; INSERT INTO base_t VALUES (7,77); SELECT * FROM mv_self ORDER BY v1, v2; ROLLBACK; -- support simultaneous table changes BEGIN; CREATE TABLE base_r (i int, v int); CREATE TABLE base_s (i int, v int); INSERT INTO base_r VALUES (1, 10), (2, 20), (3, 30); INSERT INTO base_s VALUES (1, 100), (2, 200), (3, 300); SELECT pgivm.create_immv('mv(v1, v2)', 'SELECT r.v, s.v FROM base_r AS r JOIN base_s AS s USING(i)');; SELECT * FROM mv ORDER BY v1; WITH ins_r AS (INSERT INTO base_r VALUES (1,11) RETURNING 1), ins_r2 AS (INSERT INTO base_r VALUES (3,33) RETURNING 1), ins_s AS (INSERT INTO base_s VALUES (2,222) RETURNING 1), upd_r AS (UPDATE base_r SET v = v + 1000 WHERE i = 2 RETURNING 1), dlt_s AS (DELETE FROM base_s WHERE i = 3 RETURNING 1) SELECT NULL; SELECT * FROM mv ORDER BY v1; -- support foreign reference constraints BEGIN; CREATE TABLE ri1 (i int PRIMARY KEY); CREATE TABLE ri2 (i int PRIMARY KEY REFERENCES ri1(i) ON UPDATE CASCADE ON DELETE CASCADE, v int); INSERT INTO ri1 VALUES (1),(2),(3); INSERT INTO ri2 VALUES (1),(2),(3); SELECT pgivm.create_immv('mv_ri(i1, i2)', 'SELECT ri1.i, ri2.i FROM ri1 JOIN ri2 USING(i)'); SELECT * FROM mv_ri ORDER BY i1; UPDATE ri1 SET i=10 where i=1; DELETE FROM ri1 WHERE i=2; SELECT * FROM mv_ri ORDER BY i2; ROLLBACK; -- support subquery for using EXISTS() BEGIN; SELECT pgivm.create_immv('mv_ivm_exists_subquery', 'SELECT a.i, a.j FROM mv_base_a a WHERE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i)'); SELECT pgivm.create_immv('mv_ivm_exists_subquery2', 'SELECT a.i,a.j FROM mv_base_a a WHERE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i) AND a.i > 2'); SELECT * FROM mv_ivm_exists_subquery ORDER BY i, j; SELECT * FROM mv_ivm_exists_subquery2 ORDER BY i, j; INSERT INTO mv_base_a VALUES(1,10),(6,60),(3,30),(3,300); SELECT * FROM mv_ivm_exists_subquery ORDER BY i, j; SELECT * FROM mv_ivm_exists_subquery2 ORDER BY i, j; INSERT INTO mv_base_b VALUES(1,101); INSERT INTO mv_base_b VALUES(1,111); INSERT INTO mv_base_b VALUES(2,102); INSERT INTO mv_base_b VALUES(6,106); SELECT * FROM mv_ivm_exists_subquery ORDER BY i, j; SELECT * FROM mv_ivm_exists_subquery2 ORDER BY i, j; UPDATE mv_base_a SET i = 1 WHERE j =60; UPDATE mv_base_b SET i = 10 WHERE k = 101; UPDATE mv_base_b SET k = 1002 WHERE k = 102; SELECT * FROM mv_ivm_exists_subquery ORDER BY i, j; SELECT * FROM mv_ivm_exists_subquery2 ORDER BY i, j; DELETE FROM mv_base_a WHERE (i,j) = (1,60); DELETE FROM mv_base_b WHERE i = 2; SELECT * FROM mv_ivm_exists_subquery ORDER BY i, j; SELECT * FROM mv_ivm_exists_subquery2 ORDER BY i, j; --- EXISTS subquery with tuple duplication and DISTINCT SELECT pgivm.create_immv('mv_ivm_exists_subquery_distinct', 'SELECT DISTINCT a.i, a.j FROM mv_base_a a WHERE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i)'); DELETE FROM mv_base_b WHERE i = 1 or i = 3; INSERT INTO mv_base_b VALUES (1,100), (3,300); SELECT * FROM mv_ivm_exists_subquery ORDER BY i, j; SELECT * FROM mv_ivm_exists_subquery_distinct ORDER BY i, j; ROLLBACK; -- support simple subquery in FROM clause BEGIN; SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT a.i,a.j FROM mv_base_a a,( SELECT * FROM mv_base_b) b WHERE a.i = b.i'); INSERT INTO mv_base_a VALUES(2,20); INSERT INTO mv_base_b VALUES(3,300); SELECT * FROM mv_ivm_subquery ORDER BY i,j; ROLLBACK; -- disallow non-simple subqueries SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT a.i,a.j FROM mv_base_a a, (SELECT i, COUNT(*) FROM mv_base_b GROUP BY i) b WHERE a.i = b.i'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT a.i,a.j FROM mv_base_a a, (SELECT DISTINCT i FROM mv_base_b) b WHERE a.i = b.i'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT i,j FROM mv_base_a WHERE i IN (SELECT i FROM mv_base_b WHERE k < 103 )'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT i,j, (SELECT k FROM mv_base_b LIMIT 1) FROM mv_base_a a'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT i,j, (SELECT k FROM mv_base_b LIMIT 1) + 1 FROM mv_base_a a'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT * FROM generate_series(1, (SELECT k FROM mv_base_b LIMIT 1)) AS v'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT a.j FROM mv_base_a a WHERE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i)'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT a.i,a.j FROM mv_base_a a WHERE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i) OR a.i > 2'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT a.j FROM mv_base_a a WHERE EXISTS(SELECT 1 FROM mv_base_a a2 WHERE EXISTS(SELECT 1 FROM mv_base_b b WHERE a2.i = b.i))'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT EXISTS(SELECT 1 from mv_base_b) FROM mv_base_a a'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT false OR EXISTS(SELECT 1 FROM mv_base_a) FROM mv_base_b'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT * FROM generate_series(1, CASE EXISTS(SELECT 1 FROM mv_base_a) WHEN true THEN 100 ELSE 10 END), mv_base_b'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT * FROM mv_base_a a WHERE CASE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i) WHEN true THEN false ELSE true END'); SELECT pgivm.create_immv('mv_ivm_subquery', 'SELECT * FROM mv_base_a a WHERE true and CASE EXISTS(SELECT 1 FROM mv_base_b b WHERE a.i = b.i) WHEN true THEN false ELSE true END'); -- support join subquery in FROM clause BEGIN; SELECT pgivm.create_immv('mv_ivm_join_subquery', 'SELECT i, j, k FROM ( SELECT i, a.j, b.k FROM mv_base_b b INNER JOIN mv_base_a a USING(i)) tmp'); WITH ai AS (INSERT INTO mv_base_a VALUES (1,11),(2,22) RETURNING 0), bi AS (INSERT INTO mv_base_b VALUES (1,111),(3,133) RETURNING 0), bd AS (DELETE FROM mv_base_b WHERE i = 4 RETURNING 0) SELECT; SELECT * FROM mv_ivm_join_subquery ORDER BY i,j,k; ROLLBACK; BEGIN; -- nested subquery SELECT pgivm.create_immv('mv_ivm_join_subquery', 'SELECT i, j, k FROM ( SELECT i, a.j, b.k FROM mv_base_b b INNER JOIN (SELECT * FROM mv_base_a) a USING(i)) tmp'); WITH ai AS (INSERT INTO mv_base_a VALUES (1,11),(2,22) RETURNING 0), bi AS (INSERT INTO mv_base_b VALUES (1,111),(3,133) RETURNING 0), bd AS (DELETE FROM mv_base_b WHERE i = 4 RETURNING 0) SELECT; SELECT * FROM mv_ivm_join_subquery ORDER BY i,j,k; ROLLBACK; -- support simple CTE BEGIN; SELECT pgivm.create_immv('mv_cte', 'WITH b AS ( SELECT * FROM mv_base_b) SELECT a.i,a.j FROM mv_base_a a, b WHERE a.i = b.i'); INSERT INTO mv_base_a VALUES(2,20); INSERT INTO mv_base_b VALUES(3,300); SELECT * FROM mv_cte ORDER BY i,j; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_cte', 'WITH a AS (SELECT * FROM mv_base_a), b AS ( SELECT * FROM mv_base_b) SELECT a.i,a.j FROM a, b WHERE a.i = b.i'); INSERT INTO mv_base_a VALUES(2,20); INSERT INTO mv_base_b VALUES(3,300); SELECT * FROM mv_cte ORDER BY i,j; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_cte', 'WITH b AS ( SELECT * FROM mv_base_b) SELECT v.i,v.j FROM (WITH a AS (SELECT * FROM mv_base_a) SELECT a.i,a.j FROM a, b WHERE a.i = b.i) v'); INSERT INTO mv_base_a VALUES(2,20); INSERT INTO mv_base_b VALUES(3,300); SELECT * FROM mv_cte ORDER BY i,j; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_cte', 'SELECT * FROM (WITH a AS (SELECT * FROM mv_base_a), b AS ( SELECT * FROM mv_base_b) SELECT a.i,a.j FROM a, b WHERE a.i = b.i) v'); INSERT INTO mv_base_a VALUES(2,20); INSERT INTO mv_base_b VALUES(3,300); SELECT * FROM mv_cte ORDER BY i,j; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_cte', 'WITH b AS ( SELECT * FROM (SELECT * FROM mv_base_b) b2) SELECT v.i,v.j FROM (WITH a AS (SELECT * FROM mv_base_a) SELECT a.i,a.j FROM a, b WHERE a.i = b.i) v'); INSERT INTO mv_base_a VALUES(2,20); INSERT INTO mv_base_b VALUES(3,300); SELECT * FROM mv_cte ORDER BY i,j; ROLLBACK; BEGIN; SELECT pgivm.create_immv('mv_cte', 'WITH x AS ( SELECT i, a.j, b.k FROM mv_base_b b INNER JOIN mv_base_a a USING(i)) SELECT * FROM x'); WITH ai AS (INSERT INTO mv_base_a VALUES (1,11),(2,22) RETURNING 0), bi AS (INSERT INTO mv_base_b VALUES (1,111),(3,133) RETURNING 0), bd AS (DELETE FROM mv_base_b WHERE i = 4 RETURNING 0) SELECT; SELECT * FROM mv_cte ORDER BY i,j,k; ROLLBACK; -- nested CTE BEGIN; SELECT pgivm.create_immv('mv_ivm_nested_cte', 'WITH v AS ( WITH a AS (SELECT * FROM mv_base_a) SELECT i, a.j, b.k FROM mv_base_b b INNER JOIN a USING(i)) SELECT * FROM v'); WITH ai AS (INSERT INTO mv_base_a VALUES (1,11),(2,22) RETURNING 0), bi AS (INSERT INTO mv_base_b VALUES (1,111),(3,133) RETURNING 0), bd AS (DELETE FROM mv_base_b WHERE i = 4 RETURNING 0) SELECT; SELECT * FROM mv_ivm_nested_cte ORDER BY i,j,k; ROLLBACK; -- Multiply-referenced CTE BEGIN; CREATE TABLE base_t (i int, v int); INSERT INTO base_t VALUES (1, 10), (2, 20), (3, 30); SELECT pgivm.create_immv('mv_cte_multi(v1, v2)', 'WITH t AS (SELECT * FROM base_t) SELECT t1.v, t2.v FROM t AS t1 JOIN t AS t2 ON t1.i = t2.i'); SELECT * FROM mv_cte_multi ORDER BY v1; INSERT INTO base_t VALUES (4,40); DELETE FROM base_t WHERE i = 1; UPDATE base_t SET v = v*10 WHERE i=2; SELECT * FROM mv_cte_multi ORDER BY v1; WITH ins_t1 AS (INSERT INTO base_t VALUES (5,50) RETURNING 1), ins_t2 AS (INSERT INTO base_t VALUES (6,60) RETURNING 1), upd_t AS (UPDATE base_t SET v = v + 100 RETURNING 1), dlt_t AS (DELETE FROM base_t WHERE i IN (4,5) RETURNING 1) SELECT NULL; SELECT * FROM mv_cte_multi ORDER BY v1; ROLLBACK; --- disallow not-simple CTE SELECT pgivm.create_immv('mv_cte_fail', 'WITH b AS (SELECT i, COUNT(*) FROM mv_base_b GROUP BY i) SELECT a.i,a.j FROM mv_base_a a, b WHERE a.i = b.i'); SELECT pgivm.create_immv('mv_cte_fail', 'WITH b AS (SELECT DISTINCT i FROM mv_base_b) SELECT a.i,a.j FROM mv_base_a a, b WHERE a.i = b.i'); SELECT pgivm.create_immv('mv_cte_fail', 'WITH a AS (SELECT i, j FROM mv_base_a) SELECT a.i,a.j FROM a WHERE EXISTS(WITH b AS (SELECT i FROM mv_base_b) SELECT 1 FROM b WHERE a.i = b.i)'); -- unreferenced CTE SELECT pgivm.create_immv('mv_cte_fail', 'WITH b AS (SELECT * FROM mv_base_b) SELECT * FROM mv_base_a a'); -- views including NULL BEGIN; CREATE TABLE base_t (i int, v int); INSERT INTO base_t VALUES (1,10),(2, NULL); SELECT pgivm.create_immv('mv', 'SELECT * FROM base_t'); SELECT * FROM mv ORDER BY i; UPDATE base_t SET v = 20 WHERE i = 2; SELECT * FROM mv ORDER BY i; ROLLBACK; BEGIN; CREATE TABLE base_t (i int); SELECT pgivm.create_immv('mv', 'SELECT * FROM base_t'); SELECT * FROM mv ORDER BY i; INSERT INTO base_t VALUES (1),(NULL); SELECT * FROM mv ORDER BY i; ROLLBACK; BEGIN; CREATE TABLE base_t (i int, v int); INSERT INTO base_t VALUES (NULL, 1), (NULL, 2), (1, 10), (1, 20); SELECT pgivm.create_immv('mv', 'SELECT i, sum(v) FROM base_t GROUP BY i'); SELECT * FROM mv ORDER BY i; UPDATE base_t SET v = v * 10; SELECT * FROM mv ORDER BY i; ROLLBACK; BEGIN; CREATE TABLE base_t (i int, v int); INSERT INTO base_t VALUES (NULL, 1), (NULL, 2), (NULL, 3), (NULL, 4), (NULL, 5); SELECT pgivm.create_immv('mv', 'SELECT i, min(v), max(v) FROM base_t GROUP BY i'); SELECT * FROM mv ORDER BY i; DELETE FROM base_t WHERE v = 1; SELECT * FROM mv ORDER BY i; DELETE FROM base_t WHERE v = 3; SELECT * FROM mv ORDER BY i; DELETE FROM base_t WHERE v = 5; SELECT * FROM mv ORDER BY i; ROLLBACK; -- IMMV containing user defined type BEGIN; CREATE TYPE mytype; CREATE FUNCTION mytype_in(cstring) RETURNS mytype AS 'int4in' LANGUAGE INTERNAL STRICT IMMUTABLE; CREATE FUNCTION mytype_out(mytype) RETURNS cstring AS 'int4out' LANGUAGE INTERNAL STRICT IMMUTABLE; CREATE TYPE mytype ( LIKE = int4, INPUT = mytype_in, OUTPUT = mytype_out ); CREATE FUNCTION mytype_eq(mytype, mytype) RETURNS bool AS 'int4eq' LANGUAGE INTERNAL STRICT IMMUTABLE; CREATE FUNCTION mytype_lt(mytype, mytype) RETURNS bool AS 'int4lt' LANGUAGE INTERNAL STRICT IMMUTABLE; CREATE FUNCTION mytype_cmp(mytype, mytype) RETURNS integer AS 'btint4cmp' LANGUAGE INTERNAL STRICT IMMUTABLE; CREATE OPERATOR = ( leftarg = mytype, rightarg = mytype, procedure = mytype_eq); CREATE OPERATOR < ( leftarg = mytype, rightarg = mytype, procedure = mytype_lt); CREATE OPERATOR CLASS mytype_ops DEFAULT FOR TYPE mytype USING btree AS OPERATOR 1 <, OPERATOR 3 = , FUNCTION 1 mytype_cmp(mytype,mytype); CREATE TABLE t_mytype (x mytype); SELECT pgivm.create_immv('mv_mytype', 'SELECT * FROM t_mytype'); INSERT INTO t_mytype VALUES ('1'::mytype); SELECT * FROM mv_mytype; ROLLBACK; -- outer join is not supported SELECT pgivm.create_immv('mv(a,b)', 'SELECT a.i, b.i FROM mv_base_a a LEFT JOIN mv_base_b b ON a.i=b.i'); -- contain system column SELECT pgivm.create_immv('mv_ivm01', 'SELECT i,j,xmin FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm02', 'SELECT i,j FROM mv_base_a WHERE xmin = ''610'''); SELECT pgivm.create_immv('mv_ivm03', 'SELECT i,j,xmin::text AS x_min FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm04', 'SELECT i,j,xidsend(xmin) AS x_min FROM mv_base_a'); -- contain ORDER BY SELECT pgivm.create_immv('mv_ivm07', 'SELECT i,j,k FROM mv_base_a a INNER JOIN mv_base_b b USING(i) ORDER BY i,j,k'); -- contain HAVING SELECT pgivm.create_immv('mv_ivm08', 'SELECT i,j,k FROM mv_base_a a INNER JOIN mv_base_b b USING(i) GROUP BY i,j,k HAVING SUM(i) > 5'); -- contain GROUP BY without aggregate SELECT pgivm.create_immv('mv_ivm08', 'SELECT i,j FROM mv_base_a GROUP BY i,j'); -- contain view or materialized view CREATE VIEW b_view AS SELECT i,k FROM mv_base_b; CREATE MATERIALIZED VIEW b_mview AS SELECT i,k FROM mv_base_b; SELECT pgivm.create_immv('mv_ivm07', 'SELECT a.i,a.j FROM mv_base_a a,b_view b WHERE a.i = b.i'); SELECT pgivm.create_immv('mv_ivm08', 'SELECT a.i,a.j FROM mv_base_a a,b_mview b WHERE a.i = b.i'); -- contain mutable functions SELECT pgivm.create_immv('mv_ivm12', 'SELECT i,j FROM mv_base_a WHERE i = random()::int'); -- LIMIT/OFFSET is not supported SELECT pgivm.create_immv('mv_ivm13', 'SELECT i,j FROM mv_base_a LIMIT 10 OFFSET 5'); -- DISTINCT ON is not supported SELECT pgivm.create_immv('mv_ivm14', 'SELECT DISTINCT ON(i) i, j FROM mv_base_a'); -- TABLESAMPLE clause is not supported SELECT pgivm.create_immv('mv_ivm15', 'SELECT i, j FROM mv_base_a TABLESAMPLE SYSTEM(50)'); -- window functions are not supported SELECT pgivm.create_immv('mv_ivm16', 'SELECT *, cume_dist() OVER (ORDER BY i) AS rank FROM mv_base_a'); -- aggregate function with some options is not supported SELECT pgivm.create_immv('mv_ivm17', 'SELECT COUNT(*) FILTER(WHERE i < 3) FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm18', 'SELECT COUNT(DISTINCT i) FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm19', 'SELECT array_agg(j ORDER BY i DESC) FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm20', 'SELECT i,SUM(j) FROM mv_base_a GROUP BY GROUPING SETS((i),())'); -- inheritance parent is not supported BEGIN; CREATE TABLE parent (i int, v int); CREATE TABLE child_a(options text) INHERITS(parent); SELECT pgivm.create_immv('mv_ivm21', 'SELECT * FROM parent'); ROLLBACK; -- UNION statement is not supported SELECT pgivm.create_immv('mv_ivm22', 'SELECT i,j FROM mv_base_a UNION ALL SELECT i,k FROM mv_base_b'); -- DISTINCT clause in nested query are not supported SELECT pgivm.create_immv('mv_ivm23', 'SELECT * FROM (SELECT DISTINCT i,j FROM mv_base_a) AS tmp');; -- empty target list is not allowed with IVM SELECT pgivm.create_immv('mv_ivm25', 'SELECT FROM mv_base_a'); -- FOR UPDATE/SHARE is not supported SELECT pgivm.create_immv('mv_ivm26', 'SELECT i,j FROM mv_base_a FOR UPDATE'); SELECT pgivm.create_immv('mv_ivm27', 'SELECT * FROM (SELECT i,j FROM mv_base_a FOR UPDATE) AS tmp;'); -- tartget list cannot contain ivm column that start with '__ivm' SELECT pgivm.create_immv('mv_ivm28', 'SELECT i AS "__ivm_count__" FROM mv_base_a'); -- expressions specified in GROUP BY must appear in the target list. SELECT pgivm.create_immv('mv_ivm29', 'SELECT COUNT(i) FROM mv_base_a GROUP BY i;'); -- experssions containing an aggregate is not supported SELECT pgivm.create_immv('mv_ivm30', 'SELECT sum(i)*0.5 FROM mv_base_a'); SELECT pgivm.create_immv('mv_ivm31', 'SELECT sum(i)/sum(j) FROM mv_base_a'); -- VALUES is not supported SELECT pgivm.create_immv('mv_ivm_only_values1', 'values(1)'); SELECT pgivm.create_immv('mv_ivm_only_values2', 'SELECT * FROM (values(1)) AS tmp'); -- views containing base tables with Row Level Security DROP USER IF EXISTS regress_ivm_admin; DROP USER IF EXISTS regress_ivm_user; CREATE USER regress_ivm_admin; CREATE USER regress_ivm_user; --- create a table with RLS SET SESSION AUTHORIZATION regress_ivm_admin; CREATE TABLE rls_tbl(id int, data text, owner name); INSERT INTO rls_tbl VALUES (1,'foo','regress_ivm_user'), (2,'bar','postgres'); CREATE TABLE num_tbl(id int, num text); INSERT INTO num_tbl VALUES (1,'one'), (2,'two'), (3,'three'), (4,'four'), (5,'five'), (6,'six'); --- Users can access only their own rows CREATE POLICY rls_tbl_policy ON rls_tbl FOR SELECT TO PUBLIC USING(owner = current_user); ALTER TABLE rls_tbl ENABLE ROW LEVEL SECURITY; GRANT ALL on rls_tbl TO PUBLIC; GRANT ALL on num_tbl TO PUBLIC; --- create a view owned by regress_ivm_user SET SESSION AUTHORIZATION regress_ivm_user; SELECT pgivm.create_immv('ivm_rls', 'SELECT * FROM rls_tbl'); SELECT id, data, owner FROM ivm_rls ORDER BY 1,2,3; RESET SESSION AUTHORIZATION; --- inserts rows owned by different users INSERT INTO rls_tbl VALUES (3,'baz','regress_ivm_user'), (4,'qux','postgres'); SELECT id, data, owner FROM ivm_rls ORDER BY 1,2,3; --- combination of diffent kinds of commands WITH i AS (INSERT INTO rls_tbl VALUES(5,'quux','postgres'), (6,'corge','regress_ivm_user')), u AS (UPDATE rls_tbl SET owner = 'postgres' WHERE id = 1), u2 AS (UPDATE rls_tbl SET owner = 'regress_ivm_user' WHERE id = 2) SELECT; SELECT id, data, owner FROM ivm_rls ORDER BY 1,2,3; --- SET SESSION AUTHORIZATION regress_ivm_user; SELECT pgivm.create_immv('ivm_rls2', 'SELECT * FROM rls_tbl JOIN num_tbl USING(id)'); RESET SESSION AUTHORIZATION; WITH x AS (UPDATE rls_tbl SET data = data || '_2' where id in (3,4)), y AS (UPDATE num_tbl SET num = num || '_2' where id in (3,4)) SELECT; SELECT * FROM ivm_rls2 ORDER BY 1,2,3; DROP TABLE rls_tbl CASCADE; DROP TABLE num_tbl CASCADE; DROP USER regress_ivm_user; DROP USER regress_ivm_admin; -- automatic index creation BEGIN; CREATE TABLE base_a (i int primary key, j int); CREATE TABLE base_b (i int primary key, j int); --- group by: create an index SELECT pgivm.create_immv('mv_idx1', 'SELECT i, sum(j) FROM base_a GROUP BY i'); --- distinct: create an index SELECT pgivm.create_immv('mv_idx2', 'SELECT DISTINCT j FROM base_a'); --- with all pkey columns: create an index SELECT pgivm.create_immv('mv_idx3(i_a, i_b)', 'SELECT a.i, b.i FROM base_a a, base_b b'); --- missing some pkey columns: no index SELECT pgivm.create_immv('mv_idx4', 'SELECT j FROM base_a'); SELECT pgivm.create_immv('mv_idx5', 'SELECT a.i, b.j FROM base_a a, base_b b'); --- subqueries: create an index SELECT pgivm.create_immv('mv_idx6(i_a, i_b)', 'SELECT a.i, b.i FROM (SELECT * FROM base_a) a, (SELECT * FROM base_b) b'); --- with set-returning function: no index SELECT pgivm.create_immv('mv_idx7', 'SELECT i FROM base_a, generate_series(1,10)'); ROLLBACK; -- type that doesn't have default operator class for access method btree BEGIN; CREATE TABLE table_json (j json); SELECT pgivm.create_immv('mv_json', 'SELECT * from table_json'); ROLLBACK; -- prevent IMMV chanages INSERT INTO mv_ivm_1 VALUES(1,1,1); UPDATE mv_ivm_1 SET k = 1 WHERE i = 1; DELETE FROM mv_ivm_1; TRUNCATE mv_ivm_1; -- get_immv_def function SELECT immvrelid, pgivm.get_immv_def(immvrelid) FROM pgivm.pg_ivm_immv ORDER BY 1; -- mv_base_b is not immv SELECT 'mv_base_b'::regclass, pgivm.get_immv_def('mv_base_b'); DROP TABLE mv_base_b CASCADE; DROP TABLE mv_base_a CASCADE;