-- -- SUBSELECT -- SELECT 1 AS one WHERE 1 IN (SELECT 1); SELECT 1 AS zero WHERE 1 NOT IN (SELECT 1); SELECT 1 AS zero WHERE 1 IN (SELECT 2); -- Set up some simple test tables CREATE TABLE SUBSELECT_TBL ( f1 integer, f2 integer, f3 float ); INSERT INTO SUBSELECT_TBL VALUES (1, 2, 3); INSERT INTO SUBSELECT_TBL VALUES (2, 3, 4); INSERT INTO SUBSELECT_TBL VALUES (3, 4, 5); INSERT INTO SUBSELECT_TBL VALUES (1, 1, 1); INSERT INTO SUBSELECT_TBL VALUES (2, 2, 2); INSERT INTO SUBSELECT_TBL VALUES (3, 3, 3); INSERT INTO SUBSELECT_TBL VALUES (6, 7, 8); INSERT INTO SUBSELECT_TBL VALUES (8, 9, NULL); SELECT '' AS eight, * FROM SUBSELECT_TBL; -- Uncorrelated subselects SELECT '' AS two, f1 AS "Constant Select" FROM SUBSELECT_TBL WHERE f1 IN (SELECT 1); SELECT '' AS six, f1 AS "Uncorrelated Field" FROM SUBSELECT_TBL WHERE f1 IN (SELECT f2 FROM SUBSELECT_TBL); SELECT '' AS six, f1 AS "Uncorrelated Field" FROM SUBSELECT_TBL WHERE f1 IN (SELECT f2 FROM SUBSELECT_TBL WHERE f2 IN (SELECT f1 FROM SUBSELECT_TBL)); SELECT '' AS three, f1, f2 FROM SUBSELECT_TBL WHERE (f1, f2) NOT IN (SELECT f2, CAST(f3 AS int4) FROM SUBSELECT_TBL WHERE f3 IS NOT NULL); -- Correlated subselects SELECT '' AS six, f1 AS "Correlated Field", f2 AS "Second Field" FROM SUBSELECT_TBL upper WHERE f1 IN (SELECT f2 FROM SUBSELECT_TBL WHERE f1 = upper.f1); SELECT '' AS six, f1 AS "Correlated Field", f3 AS "Second Field" FROM SUBSELECT_TBL upper WHERE f1 IN (SELECT f2 FROM SUBSELECT_TBL WHERE CAST(upper.f2 AS float) = f3); SELECT '' AS six, f1 AS "Correlated Field", f3 AS "Second Field" FROM SUBSELECT_TBL upper WHERE f3 IN (SELECT upper.f1 + f2 FROM SUBSELECT_TBL WHERE f2 = CAST(f3 AS integer)); SELECT '' AS five, f1 AS "Correlated Field" FROM SUBSELECT_TBL WHERE (f1, f2) IN (SELECT f2, CAST(f3 AS int4) FROM SUBSELECT_TBL WHERE f3 IS NOT NULL); -- -- Use some existing tables in the regression test -- SELECT '' AS eight, ss.f1 AS "Correlated Field", ss.f3 AS "Second Field" FROM SUBSELECT_TBL ss WHERE f1 NOT IN (SELECT f1+1 FROM INT4_TBL WHERE f1 != ss.f1 AND f1 < 2147483647); select q1, float8(count(*)) / (select count(*) from int8_tbl) from int8_tbl group by q1 order by q1; -- -- Test cases to catch unpleasant interactions between IN-join processing -- and subquery pullup. -- select count(*) from (select 1 from tenk1 a where unique1 IN (select hundred from tenk1 b)) ss; select count(distinct ss.ten) from (select ten from tenk1 a where unique1 IN (select hundred from tenk1 b)) ss; select count(*) from (select 1 from tenk1 a where unique1 IN (select distinct hundred from tenk1 b)) ss; select count(distinct ss.ten) from (select ten from tenk1 a where unique1 IN (select distinct hundred from tenk1 b)) ss; -- -- Test case to catch problems with multiply nested sub-SELECTs not getting -- recalculated properly. Per bug report from Didier Moens. -- CREATE TABLE orderstest ( approver_ref integer, po_ref integer, ordercancelled boolean ); INSERT INTO orderstest VALUES (1, 1, false); INSERT INTO orderstest VALUES (66, 5, false); INSERT INTO orderstest VALUES (66, 6, false); INSERT INTO orderstest VALUES (66, 7, false); INSERT INTO orderstest VALUES (66, 1, true); INSERT INTO orderstest VALUES (66, 8, false); INSERT INTO orderstest VALUES (66, 1, false); INSERT INTO orderstest VALUES (77, 1, false); INSERT INTO orderstest VALUES (1, 1, false); INSERT INTO orderstest VALUES (66, 1, false); INSERT INTO orderstest VALUES (1, 1, false); CREATE VIEW orders_view AS SELECT *, (SELECT CASE WHEN ord.approver_ref=1 THEN '---' ELSE 'Approved' END) AS "Approved", (SELECT CASE WHEN ord.ordercancelled THEN 'Cancelled' ELSE (SELECT CASE WHEN ord.po_ref=1 THEN (SELECT CASE WHEN ord.approver_ref=1 THEN '---' ELSE 'Approved' END) ELSE 'PO' END) END) AS "Status", (CASE WHEN ord.ordercancelled THEN 'Cancelled' ELSE (CASE WHEN ord.po_ref=1 THEN (CASE WHEN ord.approver_ref=1 THEN '---' ELSE 'Approved' END) ELSE 'PO' END) END) AS "Status_OK" FROM orderstest ord; SELECT * FROM orders_view; DROP TABLE orderstest cascade;