CREATE TABLE rngfunc2(rngfuncid int, f2 int); INSERT INTO rngfunc2 VALUES(1, 11); INSERT INTO rngfunc2 VALUES(2, 22); INSERT INTO rngfunc2 VALUES(1, 111); CREATE FUNCTION rngfunct(int) returns setof rngfunc2 as 'SELECT * FROM rngfunc2 WHERE rngfuncid = $1 ORDER BY f2;' LANGUAGE SQL; -- function with ORDINALITY select * from rngfunct(1) with ordinality as z(a,b,ord); select * from rngfunct(1) with ordinality as z(a,b,ord) where b > 100; -- ordinal 2, not 1 -- ordinality vs. column names and types select a,b,ord from rngfunct(1) with ordinality as z(a,b,ord); select a,ord from unnest(array['a','b']) with ordinality as z(a,ord); select * from unnest(array['a','b']) with ordinality as z(a,ord); select a,ord from unnest(array[1.0::float8]) with ordinality as z(a,ord); select * from unnest(array[1.0::float8]) with ordinality as z(a,ord); select row_to_json(s.*) from generate_series(11,14) with ordinality s; -- ordinality vs. views create temporary view vw_ord as select * from (values (1)) v(n) join rngfunct(1) with ordinality as z(a,b,ord) on (n=ord); select * from vw_ord; select definition from pg_views where viewname='vw_ord'; drop view vw_ord; -- multiple functions select * from rows from(rngfunct(1),rngfunct(2)) with ordinality as z(a,b,c,d,ord); create temporary view vw_ord as select * from (values (1)) v(n) join rows from(rngfunct(1),rngfunct(2)) with ordinality as z(a,b,c,d,ord) on (n=ord); select * from vw_ord; select definition from pg_views where viewname='vw_ord'; drop view vw_ord; -- expansions of unnest() select * from unnest(array[10,20],array['foo','bar'],array[1.0]); select * from unnest(array[10,20],array['foo','bar'],array[1.0]) with ordinality as z(a,b,c,ord); select * from rows from(unnest(array[10,20],array['foo','bar'],array[1.0])) with ordinality as z(a,b,c,ord); select * from rows from(unnest(array[10,20],array['foo','bar']), generate_series(101,102)) with ordinality as z(a,b,c,ord); create temporary view vw_ord as select * from unnest(array[10,20],array['foo','bar'],array[1.0]) as z(a,b,c); select * from vw_ord; select definition from pg_views where viewname='vw_ord'; drop view vw_ord; create temporary view vw_ord as select * from rows from(unnest(array[10,20],array['foo','bar'],array[1.0])) as z(a,b,c); select * from vw_ord; select definition from pg_views where viewname='vw_ord'; drop view vw_ord; create temporary view vw_ord as select * from rows from(unnest(array[10,20],array['foo','bar']), generate_series(1,2)) as z(a,b,c); select * from vw_ord; select definition from pg_views where viewname='vw_ord'; drop view vw_ord; -- ordinality and multiple functions vs. rewind and reverse scan begin; declare rf_cur scroll cursor for select * from rows from(generate_series(1,5),generate_series(1,2)) with ordinality as g(i,j,o); fetch all from rf_cur; fetch backward all from rf_cur; fetch all from rf_cur; fetch next from rf_cur; fetch next from rf_cur; fetch prior from rf_cur; fetch absolute 1 from rf_cur; fetch next from rf_cur; fetch next from rf_cur; fetch next from rf_cur; fetch prior from rf_cur; fetch prior from rf_cur; fetch prior from rf_cur; commit; -- function with implicit LATERAL select * from rngfunc2, rngfunct(rngfunc2.rngfuncid) z where rngfunc2.f2 = z.f2; -- function with implicit LATERAL and explicit ORDINALITY select * from rngfunc2, rngfunct(rngfunc2.rngfuncid) with ordinality as z(rngfuncid,f2,ord) where rngfunc2.f2 = z.f2; -- function in subselect select * from rngfunc2 where f2 in (select f2 from rngfunct(rngfunc2.rngfuncid) z where z.rngfuncid = rngfunc2.rngfuncid) ORDER BY 1,2; -- function in subselect select * from rngfunc2 where f2 in (select f2 from rngfunct(1) z where z.rngfuncid = rngfunc2.rngfuncid) ORDER BY 1,2; -- function in subselect select * from rngfunc2 where f2 in (select f2 from rngfunct(rngfunc2.rngfuncid) z where z.rngfuncid = 1) ORDER BY 1,2; -- nested functions select rngfunct.rngfuncid, rngfunct.f2 from rngfunct(sin(pi()/2)::int) ORDER BY 1,2; CREATE TABLE rngfunc (rngfuncid int, rngfuncsubid int, rngfuncname text, primary key(rngfuncid,rngfuncsubid)); INSERT INTO rngfunc VALUES(1,1,'Joe'); INSERT INTO rngfunc VALUES(1,2,'Ed'); INSERT INTO rngfunc VALUES(2,1,'Mary'); -- sql, proretset = f, prorettype = b CREATE FUNCTION getrngfunc1(int) RETURNS int AS 'SELECT $1;' LANGUAGE SQL; SELECT * FROM getrngfunc1(1) AS t1; SELECT * FROM getrngfunc1(1) WITH ORDINALITY AS t1(v,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc1(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc1(1) WITH ORDINALITY as t1(v,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- sql, proretset = t, prorettype = b CREATE FUNCTION getrngfunc2(int) RETURNS setof int AS 'SELECT rngfuncid FROM rngfunc WHERE rngfuncid = $1;' LANGUAGE SQL; SELECT * FROM getrngfunc2(1) AS t1; SELECT * FROM getrngfunc2(1) WITH ORDINALITY AS t1(v,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc2(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc2(1) WITH ORDINALITY AS t1(v,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- sql, proretset = t, prorettype = b CREATE FUNCTION getrngfunc3(int) RETURNS setof text AS 'SELECT rngfuncname FROM rngfunc WHERE rngfuncid = $1;' LANGUAGE SQL; SELECT * FROM getrngfunc3(1) AS t1; SELECT * FROM getrngfunc3(1) WITH ORDINALITY AS t1(v,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc3(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc3(1) WITH ORDINALITY AS t1(v,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- sql, proretset = f, prorettype = c CREATE FUNCTION getrngfunc4(int) RETURNS rngfunc AS 'SELECT * FROM rngfunc WHERE rngfuncid = $1;' LANGUAGE SQL; SELECT * FROM getrngfunc4(1) AS t1; SELECT * FROM getrngfunc4(1) WITH ORDINALITY AS t1(a,b,c,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc4(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc4(1) WITH ORDINALITY AS t1(a,b,c,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- sql, proretset = t, prorettype = c CREATE FUNCTION getrngfunc5(int) RETURNS setof rngfunc AS 'SELECT * FROM rngfunc WHERE rngfuncid = $1;' LANGUAGE SQL; SELECT * FROM getrngfunc5(1) AS t1; SELECT * FROM getrngfunc5(1) WITH ORDINALITY AS t1(a,b,c,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc5(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc5(1) WITH ORDINALITY AS t1(a,b,c,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- sql, proretset = f, prorettype = record CREATE FUNCTION getrngfunc6(int) RETURNS RECORD AS 'SELECT * FROM rngfunc WHERE rngfuncid = $1;' LANGUAGE SQL; SELECT * FROM getrngfunc6(1) AS t1(rngfuncid int, rngfuncsubid int, rngfuncname text); SELECT * FROM ROWS FROM( getrngfunc6(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text) ) WITH ORDINALITY; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc6(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM ROWS FROM( getrngfunc6(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text) ) WITH ORDINALITY; SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- sql, proretset = t, prorettype = record CREATE FUNCTION getrngfunc7(int) RETURNS setof record AS 'SELECT * FROM rngfunc WHERE rngfuncid = $1;' LANGUAGE SQL; SELECT * FROM getrngfunc7(1) AS t1(rngfuncid int, rngfuncsubid int, rngfuncname text); SELECT * FROM ROWS FROM( getrngfunc7(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text) ) WITH ORDINALITY; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc7(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM ROWS FROM( getrngfunc7(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text) ) WITH ORDINALITY; SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- plpgsql, proretset = f, prorettype = b CREATE FUNCTION getrngfunc8(int) RETURNS int AS 'DECLARE rngfuncint int; BEGIN SELECT rngfuncid into rngfuncint FROM rngfunc WHERE rngfuncid = $1; RETURN rngfuncint; END;' LANGUAGE plpgsql; SELECT * FROM getrngfunc8(1) AS t1; SELECT * FROM getrngfunc8(1) WITH ORDINALITY AS t1(v,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc8(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc8(1) WITH ORDINALITY AS t1(v,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- plpgsql, proretset = f, prorettype = c CREATE FUNCTION getrngfunc9(int) RETURNS rngfunc AS 'DECLARE rngfunctup rngfunc%ROWTYPE; BEGIN SELECT * into rngfunctup FROM rngfunc WHERE rngfuncid = $1; RETURN rngfunctup; END;' LANGUAGE plpgsql; SELECT * FROM getrngfunc9(1) AS t1; SELECT * FROM getrngfunc9(1) WITH ORDINALITY AS t1(a,b,c,o); CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc9(1); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; CREATE VIEW vw_getrngfunc AS SELECT * FROM getrngfunc9(1) WITH ORDINALITY AS t1(a,b,c,o); SELECT * FROM vw_getrngfunc; DROP VIEW vw_getrngfunc; -- mix 'n match kinds, to exercise expandRTE and related logic select * from rows from(getrngfunc1(1),getrngfunc2(1),getrngfunc3(1),getrngfunc4(1),getrngfunc5(1), getrngfunc6(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text), getrngfunc7(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text), getrngfunc8(1),getrngfunc9(1)) with ordinality as t1(a,b,c,d,e,f,g,h,i,j,k,l,m,o,p,q,r,s,t,u); select * from rows from(getrngfunc9(1),getrngfunc8(1), getrngfunc7(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text), getrngfunc6(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text), getrngfunc5(1),getrngfunc4(1),getrngfunc3(1),getrngfunc2(1),getrngfunc1(1)) with ordinality as t1(a,b,c,d,e,f,g,h,i,j,k,l,m,o,p,q,r,s,t,u); create temporary view vw_rngfunc as select * from rows from(getrngfunc9(1), getrngfunc7(1) AS (rngfuncid int, rngfuncsubid int, rngfuncname text), getrngfunc1(1)) with ordinality as t1(a,b,c,d,e,f,g,n); select * from vw_rngfunc; select pg_get_viewdef('vw_rngfunc'); drop view vw_rngfunc; DROP FUNCTION getrngfunc1(int); DROP FUNCTION getrngfunc2(int); DROP FUNCTION getrngfunc3(int); DROP FUNCTION getrngfunc4(int); DROP FUNCTION getrngfunc5(int); DROP FUNCTION getrngfunc6(int); DROP FUNCTION getrngfunc7(int); DROP FUNCTION getrngfunc8(int); DROP FUNCTION getrngfunc9(int); DROP FUNCTION rngfunct(int); DROP TABLE rngfunc2; DROP TABLE rngfunc; -- Rescan tests -- CREATE TEMPORARY SEQUENCE rngfunc_rescan_seq1; CREATE TEMPORARY SEQUENCE rngfunc_rescan_seq2; CREATE TYPE rngfunc_rescan_t AS (i integer, s bigint); CREATE FUNCTION rngfunc_sql(int,int) RETURNS setof rngfunc_rescan_t AS 'SELECT i, nextval(''rngfunc_rescan_seq1'') FROM generate_series($1,$2) i;' LANGUAGE SQL; -- plpgsql functions use materialize mode CREATE FUNCTION rngfunc_mat(int,int) RETURNS setof rngfunc_rescan_t AS 'begin for i in $1..$2 loop return next (i, nextval(''rngfunc_rescan_seq2'')); end loop; end;' LANGUAGE plpgsql; --invokes ExecReScanFunctionScan - all these cases should materialize the function only once -- LEFT JOIN on a condition that the planner can't prove to be true is used to ensure the function -- is on the inner path of a nestloop join SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN rngfunc_sql(11,13) ON (r+i)<100; SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN rngfunc_sql(11,13) WITH ORDINALITY AS f(i,s,o) ON (r+i)<100; SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN rngfunc_mat(11,13) ON (r+i)<100; SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN rngfunc_mat(11,13) WITH ORDINALITY AS f(i,s,o) ON (r+i)<100; SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN ROWS FROM( rngfunc_sql(11,13), rngfunc_mat(11,13) ) WITH ORDINALITY AS f(i1,s1,i2,s2,o) ON (r+i1+i2)<100; SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN generate_series(11,13) f(i) ON (r+i)<100; SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN generate_series(11,13) WITH ORDINALITY AS f(i,o) ON (r+i)<100; SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN unnest(array[10,20,30]) f(i) ON (r+i)<100; SELECT * FROM (VALUES (1),(2),(3)) v(r) LEFT JOIN unnest(array[10,20,30]) WITH ORDINALITY AS f(i,o) ON (r+i)<100; --invokes ExecReScanFunctionScan with chgParam != NULL (using implied LATERAL) SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_sql(10+r,13); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_sql(10+r,13) WITH ORDINALITY AS f(i,s,o); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_sql(11,10+r); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_sql(11,10+r) WITH ORDINALITY AS f(i,s,o); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (11,12),(13,15),(16,20)) v(r1,r2), rngfunc_sql(r1,r2); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (11,12),(13,15),(16,20)) v(r1,r2), rngfunc_sql(r1,r2) WITH ORDINALITY AS f(i,s,o); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_mat(10+r,13); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_mat(10+r,13) WITH ORDINALITY AS f(i,s,o); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_mat(11,10+r); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), rngfunc_mat(11,10+r) WITH ORDINALITY AS f(i,s,o); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (11,12),(13,15),(16,20)) v(r1,r2), rngfunc_mat(r1,r2); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (11,12),(13,15),(16,20)) v(r1,r2), rngfunc_mat(r1,r2) WITH ORDINALITY AS f(i,s,o); -- selective rescan of multiple functions: SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), ROWS FROM( rngfunc_sql(11,11), rngfunc_mat(10+r,13) ); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), ROWS FROM( rngfunc_sql(10+r,13), rngfunc_mat(11,11) ); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM (VALUES (1),(2),(3)) v(r), ROWS FROM( rngfunc_sql(10+r,13), rngfunc_mat(10+r,13) ); SELECT setval('rngfunc_rescan_seq1',1,false),setval('rngfunc_rescan_seq2',1,false); SELECT * FROM generate_series(1,2) r1, generate_series(r1,3) r2, ROWS FROM( rngfunc_sql(10+r1,13), rngfunc_mat(10+r2,13) ); SELECT * FROM (VALUES (1),(2),(3)) v(r), generate_series(10+r,20-r) f(i); SELECT * FROM (VALUES (1),(2),(3)) v(r), generate_series(10+r,20-r) WITH ORDINALITY AS f(i,o); SELECT * FROM (VALUES (1),(2),(3)) v(r), unnest(array[r*10,r*20,r*30]) f(i); SELECT * FROM (VALUES (1),(2),(3)) v(r), unnest(array[r*10,r*20,r*30]) WITH ORDINALITY AS f(i,o); -- deep nesting SELECT * FROM (VALUES (1),(2),(3)) v1(r1), LATERAL (SELECT r1, * FROM (VALUES (10),(20),(30)) v2(r2) LEFT JOIN generate_series(21,23) f(i) ON ((r2+i)<100) OFFSET 0) s1; SELECT * FROM (VALUES (1),(2),(3)) v1(r1), LATERAL (SELECT r1, * FROM (VALUES (10),(20),(30)) v2(r2) LEFT JOIN generate_series(20+r1,23) f(i) ON ((r2+i)<100) OFFSET 0) s1; SELECT * FROM (VALUES (1),(2),(3)) v1(r1), LATERAL (SELECT r1, * FROM (VALUES (10),(20),(30)) v2(r2) LEFT JOIN generate_series(r2,r2+3) f(i) ON ((r2+i)<100) OFFSET 0) s1; SELECT * FROM (VALUES (1),(2),(3)) v1(r1), LATERAL (SELECT r1, * FROM (VALUES (10),(20),(30)) v2(r2) LEFT JOIN generate_series(r1,2+r2/5) f(i) ON ((r2+i)<100) OFFSET 0) s1; -- check handling of FULL JOIN with multiple lateral references (bug #15741) SELECT * FROM (VALUES (1),(2)) v1(r1) LEFT JOIN LATERAL ( SELECT * FROM generate_series(1, v1.r1) AS gs1 LEFT JOIN LATERAL ( SELECT * FROM generate_series(1, gs1) AS gs2 LEFT JOIN generate_series(1, gs2) AS gs3 ON TRUE ) AS ss1 ON TRUE FULL JOIN generate_series(1, v1.r1) AS gs4 ON FALSE ) AS ss0 ON TRUE; DROP FUNCTION rngfunc_sql(int,int); DROP FUNCTION rngfunc_mat(int,int); DROP SEQUENCE rngfunc_rescan_seq1; DROP SEQUENCE rngfunc_rescan_seq2; -- -- Test cases involving OUT parameters -- CREATE FUNCTION rngfunc(in f1 int, out f2 int) AS 'select $1+1' LANGUAGE sql; SELECT rngfunc(42); SELECT * FROM rngfunc(42); SELECT * FROM rngfunc(42) AS p(x); -- explicit spec of return type is OK CREATE OR REPLACE FUNCTION rngfunc(in f1 int, out f2 int) RETURNS int AS 'select $1+1' LANGUAGE sql; -- error, wrong result type CREATE OR REPLACE FUNCTION rngfunc(in f1 int, out f2 int) RETURNS float AS 'select $1+1' LANGUAGE sql; -- with multiple OUT params you must get a RECORD result CREATE OR REPLACE FUNCTION rngfunc(in f1 int, out f2 int, out f3 text) RETURNS int AS 'select $1+1' LANGUAGE sql; CREATE OR REPLACE FUNCTION rngfunc(in f1 int, out f2 int, out f3 text) RETURNS record AS 'select $1+1' LANGUAGE sql; CREATE OR REPLACE FUNCTION rngfuncr(in f1 int, out f2 int, out text) AS $$select $1-1, $1::text || 'z'$$ LANGUAGE sql; SELECT f1, rngfuncr(f1) FROM int4_tbl; SELECT * FROM rngfuncr(42); SELECT * FROM rngfuncr(42) AS p(a,b); CREATE OR REPLACE FUNCTION rngfuncb(in f1 int, inout f2 int, out text) AS $$select $2-1, $1::text || 'z'$$ LANGUAGE sql; SELECT f1, rngfuncb(f1, f1/2) FROM int4_tbl; SELECT * FROM rngfuncb(42, 99); SELECT * FROM rngfuncb(42, 99) AS p(a,b); -- Can reference function with or without OUT params for DROP, etc DROP FUNCTION rngfunc(int); DROP FUNCTION rngfuncr(in f2 int, out f1 int, out text); DROP FUNCTION rngfuncb(in f1 int, inout f2 int); -- -- For my next trick, polymorphic OUT parameters -- CREATE FUNCTION dup (f1 anyelement, f2 out anyelement, f3 out anyarray) AS 'select $1, array[$1,$1]' LANGUAGE sql; SELECT dup(22); SELECT dup('xyz'); -- fails SELECT dup('xyz'::text); SELECT * FROM dup('xyz'::text); -- fails, as we are attempting to rename first argument CREATE OR REPLACE FUNCTION dup (inout f2 anyelement, out f3 anyarray) AS 'select $1, array[$1,$1]' LANGUAGE sql; DROP FUNCTION dup(anyelement); -- equivalent behavior, though different name exposed for input arg CREATE OR REPLACE FUNCTION dup (inout f2 anyelement, out f3 anyarray) AS 'select $1, array[$1,$1]' LANGUAGE sql; SELECT dup(22); DROP FUNCTION dup(anyelement); -- fails, no way to deduce outputs CREATE FUNCTION bad (f1 int, out f2 anyelement, out f3 anyarray) AS 'select $1, array[$1,$1]' LANGUAGE sql; CREATE FUNCTION dup (f1 anycompatible, f2 anycompatiblearray, f3 out anycompatible, f4 out anycompatiblearray) AS 'select $1, $2' LANGUAGE sql; SELECT dup(22, array[44]); SELECT dup(4.5, array[44]); SELECT dup(22, array[44::bigint]); SELECT *, pg_typeof(f3), pg_typeof(f4) FROM dup(22, array[44::bigint]); DROP FUNCTION dup(f1 anycompatible, f2 anycompatiblearray); CREATE FUNCTION dup (f1 anycompatiblerange, f2 out anycompatible, f3 out anycompatiblearray, f4 out anycompatiblerange) AS 'select lower($1), array[lower($1), upper($1)], $1' LANGUAGE sql; SELECT dup(int4range(4,7)); SELECT dup(numrange(4,7)); SELECT dup(textrange('aaa', 'bbb')); DROP FUNCTION dup(f1 anycompatiblerange); -- fails, no way to deduce outputs CREATE FUNCTION bad (f1 anyarray, out f2 anycompatible, out f3 anycompatiblearray) AS 'select $1, array[$1,$1]' LANGUAGE sql; -- -- table functions -- CREATE OR REPLACE FUNCTION rngfunc() RETURNS TABLE(a int) AS $$ SELECT a FROM generate_series(1,5) a(a) $$ LANGUAGE sql; SELECT * FROM rngfunc(); DROP FUNCTION rngfunc(); CREATE OR REPLACE FUNCTION rngfunc(int) RETURNS TABLE(a int, b int) AS $$ SELECT a, b FROM generate_series(1,$1) a(a), generate_series(1,$1) b(b) $$ LANGUAGE sql; SELECT * FROM rngfunc(3); DROP FUNCTION rngfunc(int); -- case that causes change of typmod knowledge during inlining CREATE OR REPLACE FUNCTION rngfunc() RETURNS TABLE(a varchar(5)) AS $$ SELECT 'hello'::varchar(5) $$ LANGUAGE sql STABLE; SELECT * FROM rngfunc() GROUP BY 1; DROP FUNCTION rngfunc(); -- -- some tests on SQL functions with RETURNING -- create temp table tt(f1 serial, data text); create function insert_tt(text) returns int as $$ insert into tt(data) values($1) returning f1 $$ language sql; select insert_tt('foo'); select insert_tt('bar'); select * from tt; -- insert will execute to completion even if function needs just 1 row create or replace function insert_tt(text) returns int as $$ insert into tt(data) values($1),($1||$1) returning f1 $$ language sql; select insert_tt('fool'); select * from tt; -- setof does what's expected create or replace function insert_tt2(text,text) returns setof int as $$ insert into tt(data) values($1),($2) returning f1 $$ language sql; select insert_tt2('foolish','barrish'); select * from insert_tt2('baz','quux'); select * from tt; -- limit doesn't prevent execution to completion select insert_tt2('foolish','barrish') limit 1; select * from tt; -- triggers will fire, too create function noticetrigger() returns trigger as $$ begin raise notice 'noticetrigger % %', new.f1, new.data; return null; end $$ language plpgsql; create trigger tnoticetrigger after insert on tt for each row execute procedure noticetrigger(); select insert_tt2('foolme','barme') limit 1; select * from tt; -- and rules work create temp table tt_log(f1 int, data text); create rule insert_tt_rule as on insert to tt do also insert into tt_log values(new.*); select insert_tt2('foollog','barlog') limit 1; select * from tt; -- note that nextval() gets executed a second time in the rule expansion, -- which is expected. select * from tt_log; -- test case for a whole-row-variable bug create function rngfunc1(n integer, out a text, out b text) returns setof record language sql as $$ select 'foo ' || i, 'bar ' || i from generate_series(1,$1) i $$; set work_mem='64kB'; select t.a, t, t.a from rngfunc1(10000) t limit 1; reset work_mem; select t.a, t, t.a from rngfunc1(10000) t limit 1; drop function rngfunc1(n integer); -- test use of SQL functions returning record -- this is supported in some cases where the query doesn't specify -- the actual record type ... create function array_to_set(anyarray) returns setof record as $$ select i AS "index", $1[i] AS "value" from generate_subscripts($1, 1) i $$ language sql strict immutable; select array_to_set(array['one', 'two']); select * from array_to_set(array['one', 'two']) as t(f1 int,f2 text); select * from array_to_set(array['one', 'two']); -- fail -- after-the-fact coercion of the columns is now possible, too select * from array_to_set(array['one', 'two']) as t(f1 numeric(4,2),f2 text); -- and if it doesn't work, you get a compile-time not run-time error select * from array_to_set(array['one', 'two']) as t(f1 point,f2 text); -- with "strict", this function can't be inlined in FROM explain (verbose, costs off) select * from array_to_set(array['one', 'two']) as t(f1 numeric(4,2),f2 text); -- but without, it can be: create or replace function array_to_set(anyarray) returns setof record as $$ select i AS "index", $1[i] AS "value" from generate_subscripts($1, 1) i $$ language sql immutable; select array_to_set(array['one', 'two']); select * from array_to_set(array['one', 'two']) as t(f1 int,f2 text); select * from array_to_set(array['one', 'two']) as t(f1 numeric(4,2),f2 text); select * from array_to_set(array['one', 'two']) as t(f1 point,f2 text); explain (verbose, costs off) select * from array_to_set(array['one', 'two']) as t(f1 numeric(4,2),f2 text); create temp table rngfunc(f1 int8, f2 int8); create function testrngfunc() returns record as $$ insert into rngfunc values (1,2) returning *; $$ language sql; select testrngfunc(); select * from testrngfunc() as t(f1 int8,f2 int8); select * from testrngfunc(); -- fail drop function testrngfunc(); create function testrngfunc() returns setof record as $$ insert into rngfunc values (1,2), (3,4) returning *; $$ language sql; select testrngfunc(); select * from testrngfunc() as t(f1 int8,f2 int8); select * from testrngfunc(); -- fail drop function testrngfunc(); -- Check that typmod imposed by a composite type is honored create type rngfunc_type as (f1 numeric(35,6), f2 numeric(35,2)); create function testrngfunc() returns rngfunc_type as $$ select 7.136178319899999964, 7.136178319899999964; $$ language sql immutable; explain (verbose, costs off) select testrngfunc(); select testrngfunc(); explain (verbose, costs off) select * from testrngfunc(); select * from testrngfunc(); create or replace function testrngfunc() returns rngfunc_type as $$ select 7.136178319899999964, 7.136178319899999964; $$ language sql volatile; explain (verbose, costs off) select testrngfunc(); select testrngfunc(); explain (verbose, costs off) select * from testrngfunc(); select * from testrngfunc(); drop function testrngfunc(); create function testrngfunc() returns setof rngfunc_type as $$ select 7.136178319899999964, 7.136178319899999964; $$ language sql immutable; explain (verbose, costs off) select testrngfunc(); select testrngfunc(); explain (verbose, costs off) select * from testrngfunc(); select * from testrngfunc(); create or replace function testrngfunc() returns setof rngfunc_type as $$ select 7.136178319899999964, 7.136178319899999964; $$ language sql volatile; explain (verbose, costs off) select testrngfunc(); select testrngfunc(); explain (verbose, costs off) select * from testrngfunc(); select * from testrngfunc(); create or replace function testrngfunc() returns setof rngfunc_type as $$ select 1, 2 union select 3, 4 order by 1; $$ language sql immutable; explain (verbose, costs off) select testrngfunc(); select testrngfunc(); explain (verbose, costs off) select * from testrngfunc(); select * from testrngfunc(); -- Check a couple of error cases while we're here select * from testrngfunc() as t(f1 int8,f2 int8); -- fail, composite result select * from pg_get_keywords() as t(f1 int8,f2 int8); -- fail, OUT params select * from sin(3) as t(f1 int8,f2 int8); -- fail, scalar result type drop type rngfunc_type cascade; -- -- Check some cases involving added/dropped columns in a rowtype result -- create temp table users (userid text, seq int, email text, todrop bool, moredrop int, enabled bool); insert into users values ('id',1,'email',true,11,true); insert into users values ('id2',2,'email2',true,12,true); alter table users drop column todrop; create or replace function get_first_user() returns users as $$ SELECT * FROM users ORDER BY userid LIMIT 1; $$ language sql stable; SELECT get_first_user(); SELECT * FROM get_first_user(); create or replace function get_users() returns setof users as $$ SELECT * FROM users ORDER BY userid; $$ language sql stable; SELECT get_users(); SELECT * FROM get_users(); SELECT * FROM get_users() WITH ORDINALITY; -- make sure ordinality copes -- multiple functions vs. dropped columns SELECT * FROM ROWS FROM(generate_series(10,11), get_users()) WITH ORDINALITY; SELECT * FROM ROWS FROM(get_users(), generate_series(10,11)) WITH ORDINALITY; -- check that we can cope with post-parsing changes in rowtypes create temp view usersview as SELECT * FROM ROWS FROM(get_users(), generate_series(10,11)) WITH ORDINALITY; select * from usersview; alter table users add column junk text; select * from usersview; alter table users drop column moredrop; -- fail, view has reference -- We used to have a bug that would allow the above to succeed, posing -- hazards for later execution of the view. Check that the internal -- defenses for those hazards haven't bit-rotted, in case some other -- bug with similar symptoms emerges. begin; -- destroy the dependency entry that prevents the DROP: delete from pg_depend where objid = (select oid from pg_rewrite where ev_class = 'usersview'::regclass and rulename = '_RETURN') and refobjsubid = 5 returning pg_describe_object(classid, objid, objsubid) as obj, pg_describe_object(refclassid, refobjid, refobjsubid) as ref, deptype; alter table users drop column moredrop; select * from usersview; -- expect clean failure rollback; alter table users alter column seq type numeric; -- fail, view has reference -- likewise, check we don't crash if the dependency goes wrong begin; -- destroy the dependency entry that prevents the ALTER: delete from pg_depend where objid = (select oid from pg_rewrite where ev_class = 'usersview'::regclass and rulename = '_RETURN') and refobjsubid = 2 returning pg_describe_object(classid, objid, objsubid) as obj, pg_describe_object(refclassid, refobjid, refobjsubid) as ref, deptype; alter table users alter column seq type numeric; select * from usersview; -- expect clean failure rollback; drop view usersview; drop function get_first_user(); drop function get_users(); drop table users; -- check behavior with type coercion required for a set-op create or replace function rngfuncbar() returns setof text as $$ select 'foo'::varchar union all select 'bar'::varchar ; $$ language sql stable; select rngfuncbar(); select * from rngfuncbar(); -- this function is now inlinable, too: explain (verbose, costs off) select * from rngfuncbar(); drop function rngfuncbar(); -- check handling of a SQL function with multiple OUT params (bug #5777) create or replace function rngfuncbar(out integer, out numeric) as $$ select (1, 2.1) $$ language sql; select * from rngfuncbar(); create or replace function rngfuncbar(out integer, out numeric) as $$ select (1, 2) $$ language sql; select * from rngfuncbar(); -- fail create or replace function rngfuncbar(out integer, out numeric) as $$ select (1, 2.1, 3) $$ language sql; select * from rngfuncbar(); -- fail drop function rngfuncbar(); -- check whole-row-Var handling in nested lateral functions (bug #11703) create function extractq2(t int8_tbl) returns int8 as $$ select t.q2 $$ language sql immutable; explain (verbose, costs off) select x from int8_tbl, extractq2(int8_tbl) f(x); select x from int8_tbl, extractq2(int8_tbl) f(x); create function extractq2_2(t int8_tbl) returns table(ret1 int8) as $$ select extractq2(t) offset 0 $$ language sql immutable; explain (verbose, costs off) select x from int8_tbl, extractq2_2(int8_tbl) f(x); select x from int8_tbl, extractq2_2(int8_tbl) f(x); -- without the "offset 0", this function gets optimized quite differently create function extractq2_2_opt(t int8_tbl) returns table(ret1 int8) as $$ select extractq2(t) $$ language sql immutable; explain (verbose, costs off) select x from int8_tbl, extractq2_2_opt(int8_tbl) f(x); select x from int8_tbl, extractq2_2_opt(int8_tbl) f(x); -- check handling of nulls in SRF results (bug #7808) create type rngfunc2 as (a integer, b text); select *, row_to_json(u) from unnest(array[(1,'foo')::rngfunc2, null::rngfunc2]) u; select *, row_to_json(u) from unnest(array[null::rngfunc2, null::rngfunc2]) u; select *, row_to_json(u) from unnest(array[null::rngfunc2, (1,'foo')::rngfunc2, null::rngfunc2]) u; select *, row_to_json(u) from unnest(array[]::rngfunc2[]) u; drop type rngfunc2; -- check handling of functions pulled up into function RTEs (bug #17227) explain (verbose, costs off) select * from (select jsonb_path_query_array(module->'lectures', '$[*]') as lecture from unnest(array['{"lectures": [{"id": "1"}]}'::jsonb]) as unnested_modules(module)) as ss, jsonb_to_recordset(ss.lecture) as j (id text); select * from (select jsonb_path_query_array(module->'lectures', '$[*]') as lecture from unnest(array['{"lectures": [{"id": "1"}]}'::jsonb]) as unnested_modules(module)) as ss, jsonb_to_recordset(ss.lecture) as j (id text);