-- -- CREATE_INDEX -- Create ancillary data structures (i.e. indices) -- -- directory paths are passed to us in environment variables \getenv abs_srcdir PG_ABS_SRCDIR -- -- BTREE -- CREATE INDEX onek_unique1 ON onek USING btree(unique1 int4_ops); CREATE INDEX IF NOT EXISTS onek_unique1 ON onek USING btree(unique1 int4_ops); CREATE INDEX IF NOT EXISTS ON onek USING btree(unique1 int4_ops); CREATE INDEX onek_unique2 ON onek USING btree(unique2 int4_ops); CREATE INDEX onek_hundred ON onek USING btree(hundred int4_ops); CREATE INDEX onek_stringu1 ON onek USING btree(stringu1 name_ops); CREATE INDEX tenk1_unique1 ON tenk1 USING btree(unique1 int4_ops); CREATE INDEX tenk1_unique2 ON tenk1 USING btree(unique2 int4_ops); CREATE INDEX tenk1_hundred ON tenk1 USING btree(hundred int4_ops); CREATE INDEX tenk1_thous_tenthous ON tenk1 (thousand, tenthous); CREATE INDEX tenk2_unique1 ON tenk2 USING btree(unique1 int4_ops); CREATE INDEX tenk2_unique2 ON tenk2 USING btree(unique2 int4_ops); CREATE INDEX tenk2_hundred ON tenk2 USING btree(hundred int4_ops); CREATE INDEX rix ON road USING btree (name text_ops); CREATE INDEX iix ON ihighway USING btree (name text_ops); CREATE INDEX six ON shighway USING btree (name text_ops); -- test comments COMMENT ON INDEX six_wrong IS 'bad index'; COMMENT ON INDEX six IS 'good index'; COMMENT ON INDEX six IS NULL; -- -- BTREE partial indices -- CREATE INDEX onek2_u1_prtl ON onek2 USING btree(unique1 int4_ops) where unique1 < 20 or unique1 > 980; CREATE INDEX onek2_u2_prtl ON onek2 USING btree(unique2 int4_ops) where stringu1 < 'B'; CREATE INDEX onek2_stu1_prtl ON onek2 USING btree(stringu1 name_ops) where onek2.stringu1 >= 'J' and onek2.stringu1 < 'K'; -- -- GiST (rtree-equivalent opclasses only) -- CREATE TABLE slow_emp4000 ( home_base box ); CREATE TABLE fast_emp4000 ( home_base box ); \set filename :abs_srcdir '/data/rect.data' COPY slow_emp4000 FROM :'filename'; INSERT INTO fast_emp4000 SELECT * FROM slow_emp4000; ANALYZE slow_emp4000; ANALYZE fast_emp4000; CREATE INDEX grect2ind ON fast_emp4000 USING gist (home_base); -- we want to work with a point_tbl that includes a null CREATE TEMP TABLE point_tbl AS SELECT * FROM public.point_tbl; INSERT INTO POINT_TBL(f1) VALUES (NULL); CREATE INDEX gpointind ON point_tbl USING gist (f1); CREATE TEMP TABLE gpolygon_tbl AS SELECT polygon(home_base) AS f1 FROM slow_emp4000; INSERT INTO gpolygon_tbl VALUES ( '(1000,0,0,1000)' ); INSERT INTO gpolygon_tbl VALUES ( '(0,1000,1000,1000)' ); CREATE TEMP TABLE gcircle_tbl AS SELECT circle(home_base) AS f1 FROM slow_emp4000; CREATE INDEX ggpolygonind ON gpolygon_tbl USING gist (f1); CREATE INDEX ggcircleind ON gcircle_tbl USING gist (f1); -- -- Test GiST indexes -- -- get non-indexed results for comparison purposes SET enable_seqscan = ON; SET enable_indexscan = OFF; SET enable_bitmapscan = OFF; SELECT * FROM fast_emp4000 WHERE home_base <@ '(200,200),(2000,1000)'::box ORDER BY (home_base[0])[0]; SELECT count(*) FROM fast_emp4000 WHERE home_base && '(1000,1000,0,0)'::box; SELECT count(*) FROM fast_emp4000 WHERE home_base IS NULL; SELECT count(*) FROM gpolygon_tbl WHERE f1 && '(1000,1000,0,0)'::polygon; SELECT count(*) FROM gcircle_tbl WHERE f1 && '<(500,500),500>'::circle; SELECT count(*) FROM point_tbl WHERE f1 <@ box '(0,0,100,100)'; SELECT count(*) FROM point_tbl WHERE box '(0,0,100,100)' @> f1; SELECT count(*) FROM point_tbl WHERE f1 <@ polygon '(0,0),(0,100),(100,100),(50,50),(100,0),(0,0)'; SELECT count(*) FROM point_tbl WHERE f1 <@ circle '<(50,50),50>'; SELECT count(*) FROM point_tbl p WHERE p.f1 << '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 >> '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 <<| '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 |>> '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 ~= '(-5, -12)'; SELECT * FROM point_tbl ORDER BY f1 <-> '0,1'; SELECT * FROM point_tbl WHERE f1 IS NULL; SELECT * FROM point_tbl WHERE f1 IS NOT NULL ORDER BY f1 <-> '0,1'; SELECT * FROM point_tbl WHERE f1 <@ '(-10,-10),(10,10)':: box ORDER BY f1 <-> '0,1'; SELECT * FROM gpolygon_tbl ORDER BY f1 <-> '(0,0)'::point LIMIT 10; SELECT circle_center(f1), round(radius(f1)) as radius FROM gcircle_tbl ORDER BY f1 <-> '(200,300)'::point LIMIT 10; -- Now check the results from plain indexscan SET enable_seqscan = OFF; SET enable_indexscan = ON; SET enable_bitmapscan = OFF; EXPLAIN (COSTS OFF) SELECT * FROM fast_emp4000 WHERE home_base <@ '(200,200),(2000,1000)'::box ORDER BY (home_base[0])[0]; SELECT * FROM fast_emp4000 WHERE home_base <@ '(200,200),(2000,1000)'::box ORDER BY (home_base[0])[0]; EXPLAIN (COSTS OFF) SELECT count(*) FROM fast_emp4000 WHERE home_base && '(1000,1000,0,0)'::box; SELECT count(*) FROM fast_emp4000 WHERE home_base && '(1000,1000,0,0)'::box; EXPLAIN (COSTS OFF) SELECT count(*) FROM fast_emp4000 WHERE home_base IS NULL; SELECT count(*) FROM fast_emp4000 WHERE home_base IS NULL; EXPLAIN (COSTS OFF) SELECT count(*) FROM gpolygon_tbl WHERE f1 && '(1000,1000,0,0)'::polygon; SELECT count(*) FROM gpolygon_tbl WHERE f1 && '(1000,1000,0,0)'::polygon; EXPLAIN (COSTS OFF) SELECT count(*) FROM gcircle_tbl WHERE f1 && '<(500,500),500>'::circle; SELECT count(*) FROM gcircle_tbl WHERE f1 && '<(500,500),500>'::circle; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl WHERE f1 <@ box '(0,0,100,100)'; SELECT count(*) FROM point_tbl WHERE f1 <@ box '(0,0,100,100)'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl WHERE box '(0,0,100,100)' @> f1; SELECT count(*) FROM point_tbl WHERE box '(0,0,100,100)' @> f1; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl WHERE f1 <@ polygon '(0,0),(0,100),(100,100),(50,50),(100,0),(0,0)'; SELECT count(*) FROM point_tbl WHERE f1 <@ polygon '(0,0),(0,100),(100,100),(50,50),(100,0),(0,0)'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl WHERE f1 <@ circle '<(50,50),50>'; SELECT count(*) FROM point_tbl WHERE f1 <@ circle '<(50,50),50>'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl p WHERE p.f1 << '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 << '(0.0, 0.0)'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl p WHERE p.f1 >> '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 >> '(0.0, 0.0)'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl p WHERE p.f1 <<| '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 <<| '(0.0, 0.0)'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl p WHERE p.f1 |>> '(0.0, 0.0)'; SELECT count(*) FROM point_tbl p WHERE p.f1 |>> '(0.0, 0.0)'; EXPLAIN (COSTS OFF) SELECT count(*) FROM point_tbl p WHERE p.f1 ~= '(-5, -12)'; SELECT count(*) FROM point_tbl p WHERE p.f1 ~= '(-5, -12)'; EXPLAIN (COSTS OFF) SELECT * FROM point_tbl ORDER BY f1 <-> '0,1'; SELECT * FROM point_tbl ORDER BY f1 <-> '0,1'; EXPLAIN (COSTS OFF) SELECT * FROM point_tbl WHERE f1 IS NULL; SELECT * FROM point_tbl WHERE f1 IS NULL; EXPLAIN (COSTS OFF) SELECT * FROM point_tbl WHERE f1 IS NOT NULL ORDER BY f1 <-> '0,1'; SELECT * FROM point_tbl WHERE f1 IS NOT NULL ORDER BY f1 <-> '0,1'; EXPLAIN (COSTS OFF) SELECT * FROM point_tbl WHERE f1 <@ '(-10,-10),(10,10)':: box ORDER BY f1 <-> '0,1'; SELECT * FROM point_tbl WHERE f1 <@ '(-10,-10),(10,10)':: box ORDER BY f1 <-> '0,1'; EXPLAIN (COSTS OFF) SELECT * FROM gpolygon_tbl ORDER BY f1 <-> '(0,0)'::point LIMIT 10; SELECT * FROM gpolygon_tbl ORDER BY f1 <-> '(0,0)'::point LIMIT 10; EXPLAIN (COSTS OFF) SELECT circle_center(f1), round(radius(f1)) as radius FROM gcircle_tbl ORDER BY f1 <-> '(200,300)'::point LIMIT 10; SELECT circle_center(f1), round(radius(f1)) as radius FROM gcircle_tbl ORDER BY f1 <-> '(200,300)'::point LIMIT 10; EXPLAIN (COSTS OFF) SELECT point(x,x), (SELECT f1 FROM gpolygon_tbl ORDER BY f1 <-> point(x,x) LIMIT 1) as c FROM generate_series(0,10,1) x; SELECT point(x,x), (SELECT f1 FROM gpolygon_tbl ORDER BY f1 <-> point(x,x) LIMIT 1) as c FROM generate_series(0,10,1) x; -- Now check the results from bitmap indexscan SET enable_seqscan = OFF; SET enable_indexscan = OFF; SET enable_bitmapscan = ON; EXPLAIN (COSTS OFF) SELECT * FROM point_tbl WHERE f1 <@ '(-10,-10),(10,10)':: box ORDER BY f1 <-> '0,1'; SELECT * FROM point_tbl WHERE f1 <@ '(-10,-10),(10,10)':: box ORDER BY f1 <-> '0,1'; RESET enable_seqscan; RESET enable_indexscan; RESET enable_bitmapscan; -- -- GIN over int[] and text[] -- -- Note: GIN currently supports only bitmap scans, not plain indexscans -- CREATE TABLE array_index_op_test ( seqno int4, i int4[], t text[] ); \set filename :abs_srcdir '/data/array.data' COPY array_index_op_test FROM :'filename'; ANALYZE array_index_op_test; SELECT * FROM array_index_op_test WHERE i = '{NULL}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i @> '{NULL}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{NULL}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i <@ '{NULL}' ORDER BY seqno; SET enable_seqscan = OFF; SET enable_indexscan = OFF; SET enable_bitmapscan = ON; CREATE INDEX intarrayidx ON array_index_op_test USING gin (i); explain (costs off) SELECT * FROM array_index_op_test WHERE i @> '{32}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i @> '{32}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{32}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i @> '{17}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{17}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i @> '{32,17}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{32,17}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i <@ '{38,34,32,89}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i = '{47,77}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i = '{}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i @> '{}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i <@ '{}' ORDER BY seqno; CREATE INDEX textarrayidx ON array_index_op_test USING gin (t); explain (costs off) SELECT * FROM array_index_op_test WHERE t @> '{AAAAAAAA72908}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t @> '{AAAAAAAA72908}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t && '{AAAAAAAA72908}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t @> '{AAAAAAAAAA646}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t && '{AAAAAAAAAA646}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t @> '{AAAAAAAA72908,AAAAAAAAAA646}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t && '{AAAAAAAA72908,AAAAAAAAAA646}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t <@ '{AAAAAAAA72908,AAAAAAAAAAAAAAAAAAA17075,AA88409,AAAAAAAAAAAAAAAAAA36842,AAAAAAA48038,AAAAAAAAAAAAAA10611}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t = '{AAAAAAAAAA646,A87088}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t = '{}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t @> '{}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t && '{}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t <@ '{}' ORDER BY seqno; -- And try it with a multicolumn GIN index DROP INDEX intarrayidx, textarrayidx; CREATE INDEX botharrayidx ON array_index_op_test USING gin (i, t); SELECT * FROM array_index_op_test WHERE i @> '{32}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{32}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t @> '{AAAAAAA80240}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t && '{AAAAAAA80240}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i @> '{32}' AND t && '{AAAAAAA80240}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE i && '{32}' AND t @> '{AAAAAAA80240}' ORDER BY seqno; SELECT * FROM array_index_op_test WHERE t = '{}' ORDER BY seqno; RESET enable_seqscan; RESET enable_indexscan; RESET enable_bitmapscan; -- -- Try a GIN index with a lot of items with same key. (GIN creates a posting -- tree when there are enough duplicates) -- CREATE TABLE array_gin_test (a int[]); INSERT INTO array_gin_test SELECT ARRAY[1, g%5, g] FROM generate_series(1, 10000) g; CREATE INDEX array_gin_test_idx ON array_gin_test USING gin (a); SELECT COUNT(*) FROM array_gin_test WHERE a @> '{2}'; DROP TABLE array_gin_test; -- -- Test GIN index's reloptions -- CREATE INDEX gin_relopts_test ON array_index_op_test USING gin (i) WITH (FASTUPDATE=on, GIN_PENDING_LIST_LIMIT=128); \d+ gin_relopts_test -- -- HASH -- CREATE UNLOGGED TABLE unlogged_hash_table (id int4); CREATE INDEX unlogged_hash_index ON unlogged_hash_table USING hash (id int4_ops); DROP TABLE unlogged_hash_table; -- CREATE INDEX hash_ovfl_index ON hash_ovfl_heap USING hash (x int4_ops); -- Test hash index build tuplesorting. Force hash tuplesort using low -- maintenance_work_mem setting and fillfactor: SET maintenance_work_mem = '1MB'; CREATE INDEX hash_tuplesort_idx ON tenk1 USING hash (stringu1 name_ops) WITH (fillfactor = 10); EXPLAIN (COSTS OFF) SELECT count(*) FROM tenk1 WHERE stringu1 = 'TVAAAA'; SELECT count(*) FROM tenk1 WHERE stringu1 = 'TVAAAA'; DROP INDEX hash_tuplesort_idx; RESET maintenance_work_mem; -- -- Test unique null behavior -- CREATE TABLE unique_tbl (i int, t text); CREATE UNIQUE INDEX unique_idx1 ON unique_tbl (i) NULLS DISTINCT; CREATE UNIQUE INDEX unique_idx2 ON unique_tbl (i) NULLS NOT DISTINCT; INSERT INTO unique_tbl VALUES (1, 'one'); INSERT INTO unique_tbl VALUES (2, 'two'); INSERT INTO unique_tbl VALUES (3, 'three'); INSERT INTO unique_tbl VALUES (4, 'four'); INSERT INTO unique_tbl VALUES (5, 'one'); INSERT INTO unique_tbl (t) VALUES ('six'); INSERT INTO unique_tbl (t) VALUES ('seven'); -- error from unique_idx2 DROP INDEX unique_idx1, unique_idx2; INSERT INTO unique_tbl (t) VALUES ('seven'); -- build indexes on filled table CREATE UNIQUE INDEX unique_idx3 ON unique_tbl (i) NULLS DISTINCT; -- ok CREATE UNIQUE INDEX unique_idx4 ON unique_tbl (i) NULLS NOT DISTINCT; -- error DELETE FROM unique_tbl WHERE t = 'seven'; CREATE UNIQUE INDEX unique_idx4 ON unique_tbl (i) NULLS NOT DISTINCT; -- ok now \d unique_tbl \d unique_idx3 \d unique_idx4 SELECT pg_get_indexdef('unique_idx3'::regclass); SELECT pg_get_indexdef('unique_idx4'::regclass); DROP TABLE unique_tbl; -- -- Test functional index -- CREATE TABLE func_index_heap (f1 text, f2 text); CREATE UNIQUE INDEX func_index_index on func_index_heap (textcat(f1,f2)); INSERT INTO func_index_heap VALUES('ABC','DEF'); INSERT INTO func_index_heap VALUES('AB','CDEFG'); INSERT INTO func_index_heap VALUES('QWE','RTY'); -- this should fail because of unique index: INSERT INTO func_index_heap VALUES('ABCD', 'EF'); -- but this shouldn't: INSERT INTO func_index_heap VALUES('QWERTY'); -- while we're here, see that the metadata looks sane \d func_index_heap \d func_index_index -- -- Same test, expressional index -- DROP TABLE func_index_heap; CREATE TABLE func_index_heap (f1 text, f2 text); CREATE UNIQUE INDEX func_index_index on func_index_heap ((f1 || f2) text_ops); INSERT INTO func_index_heap VALUES('ABC','DEF'); INSERT INTO func_index_heap VALUES('AB','CDEFG'); INSERT INTO func_index_heap VALUES('QWE','RTY'); -- this should fail because of unique index: INSERT INTO func_index_heap VALUES('ABCD', 'EF'); -- but this shouldn't: INSERT INTO func_index_heap VALUES('QWERTY'); -- while we're here, see that the metadata looks sane \d func_index_heap \d func_index_index -- this should fail because of unsafe column type (anonymous record) create index on func_index_heap ((f1 || f2), (row(f1, f2))); -- -- Test unique index with included columns -- CREATE TABLE covering_index_heap (f1 int, f2 int, f3 text); CREATE UNIQUE INDEX covering_index_index on covering_index_heap (f1,f2) INCLUDE(f3); INSERT INTO covering_index_heap VALUES(1,1,'AAA'); INSERT INTO covering_index_heap VALUES(1,2,'AAA'); -- this should fail because of unique index on f1,f2: INSERT INTO covering_index_heap VALUES(1,2,'BBB'); -- and this shouldn't: INSERT INTO covering_index_heap VALUES(1,4,'AAA'); -- Try to build index on table that already contains data CREATE UNIQUE INDEX covering_pkey on covering_index_heap (f1,f2) INCLUDE(f3); -- Try to use existing covering index as primary key ALTER TABLE covering_index_heap ADD CONSTRAINT covering_pkey PRIMARY KEY USING INDEX covering_pkey; DROP TABLE covering_index_heap; -- -- Try some concurrent index builds -- -- Unfortunately this only tests about half the code paths because there are -- no concurrent updates happening to the table at the same time. CREATE TABLE concur_heap (f1 text, f2 text); -- empty table CREATE INDEX CONCURRENTLY concur_index1 ON concur_heap(f2,f1); CREATE INDEX CONCURRENTLY IF NOT EXISTS concur_index1 ON concur_heap(f2,f1); INSERT INTO concur_heap VALUES ('a','b'); INSERT INTO concur_heap VALUES ('b','b'); -- unique index CREATE UNIQUE INDEX CONCURRENTLY concur_index2 ON concur_heap(f1); CREATE UNIQUE INDEX CONCURRENTLY IF NOT EXISTS concur_index2 ON concur_heap(f1); -- check if constraint is set up properly to be enforced INSERT INTO concur_heap VALUES ('b','x'); -- check if constraint is enforced properly at build time CREATE UNIQUE INDEX CONCURRENTLY concur_index3 ON concur_heap(f2); -- test that expression indexes and partial indexes work concurrently CREATE INDEX CONCURRENTLY concur_index4 on concur_heap(f2) WHERE f1='a'; CREATE INDEX CONCURRENTLY concur_index5 on concur_heap(f2) WHERE f1='x'; -- here we also check that you can default the index name CREATE INDEX CONCURRENTLY on concur_heap((f2||f1)); -- You can't do a concurrent index build in a transaction BEGIN; CREATE INDEX CONCURRENTLY concur_index7 ON concur_heap(f1); COMMIT; -- test where predicate is able to do a transactional update during -- a concurrent build before switching pg_index state flags. CREATE FUNCTION predicate_stable() RETURNS bool IMMUTABLE LANGUAGE plpgsql AS $$ BEGIN EXECUTE 'SELECT txid_current()'; RETURN true; END; $$; CREATE INDEX CONCURRENTLY concur_index8 ON concur_heap (f1) WHERE predicate_stable(); DROP INDEX concur_index8; DROP FUNCTION predicate_stable(); -- But you can do a regular index build in a transaction BEGIN; CREATE INDEX std_index on concur_heap(f2); COMMIT; -- Failed builds are left invalid by VACUUM FULL, fixed by REINDEX VACUUM FULL concur_heap; REINDEX TABLE concur_heap; DELETE FROM concur_heap WHERE f1 = 'b'; VACUUM FULL concur_heap; \d concur_heap REINDEX TABLE concur_heap; \d concur_heap -- Temporary tables with concurrent builds and on-commit actions -- CONCURRENTLY used with CREATE INDEX and DROP INDEX is ignored. -- PRESERVE ROWS, the default. CREATE TEMP TABLE concur_temp (f1 int, f2 text) ON COMMIT PRESERVE ROWS; INSERT INTO concur_temp VALUES (1, 'foo'), (2, 'bar'); CREATE INDEX CONCURRENTLY concur_temp_ind ON concur_temp(f1); DROP INDEX CONCURRENTLY concur_temp_ind; DROP TABLE concur_temp; -- ON COMMIT DROP BEGIN; CREATE TEMP TABLE concur_temp (f1 int, f2 text) ON COMMIT DROP; INSERT INTO concur_temp VALUES (1, 'foo'), (2, 'bar'); -- Fails when running in a transaction. CREATE INDEX CONCURRENTLY concur_temp_ind ON concur_temp(f1); COMMIT; -- ON COMMIT DELETE ROWS CREATE TEMP TABLE concur_temp (f1 int, f2 text) ON COMMIT DELETE ROWS; INSERT INTO concur_temp VALUES (1, 'foo'), (2, 'bar'); CREATE INDEX CONCURRENTLY concur_temp_ind ON concur_temp(f1); DROP INDEX CONCURRENTLY concur_temp_ind; DROP TABLE concur_temp; -- -- Try some concurrent index drops -- DROP INDEX CONCURRENTLY "concur_index2"; -- works DROP INDEX CONCURRENTLY IF EXISTS "concur_index2"; -- notice -- failures DROP INDEX CONCURRENTLY "concur_index2", "concur_index3"; BEGIN; DROP INDEX CONCURRENTLY "concur_index5"; ROLLBACK; -- successes DROP INDEX CONCURRENTLY IF EXISTS "concur_index3"; DROP INDEX CONCURRENTLY "concur_index4"; DROP INDEX CONCURRENTLY "concur_index5"; DROP INDEX CONCURRENTLY "concur_index1"; DROP INDEX CONCURRENTLY "concur_heap_expr_idx"; \d concur_heap DROP TABLE concur_heap; -- -- Test ADD CONSTRAINT USING INDEX -- CREATE TABLE cwi_test( a int , b varchar(10), c char); -- add some data so that all tests have something to work with. INSERT INTO cwi_test VALUES(1, 2), (3, 4), (5, 6); CREATE UNIQUE INDEX cwi_uniq_idx ON cwi_test(a , b); ALTER TABLE cwi_test ADD primary key USING INDEX cwi_uniq_idx; \d cwi_test \d cwi_uniq_idx CREATE UNIQUE INDEX cwi_uniq2_idx ON cwi_test(b , a); ALTER TABLE cwi_test DROP CONSTRAINT cwi_uniq_idx, ADD CONSTRAINT cwi_replaced_pkey PRIMARY KEY USING INDEX cwi_uniq2_idx; \d cwi_test \d cwi_replaced_pkey DROP INDEX cwi_replaced_pkey; -- Should fail; a constraint depends on it -- Check that non-default index options are rejected CREATE UNIQUE INDEX cwi_uniq3_idx ON cwi_test(a desc); ALTER TABLE cwi_test ADD UNIQUE USING INDEX cwi_uniq3_idx; -- fail CREATE UNIQUE INDEX cwi_uniq4_idx ON cwi_test(b collate "POSIX"); ALTER TABLE cwi_test ADD UNIQUE USING INDEX cwi_uniq4_idx; -- fail DROP TABLE cwi_test; -- ADD CONSTRAINT USING INDEX is forbidden on partitioned tables CREATE TABLE cwi_test(a int) PARTITION BY hash (a); create unique index on cwi_test (a); alter table cwi_test add primary key using index cwi_test_a_idx ; DROP TABLE cwi_test; -- PRIMARY KEY constraint cannot be backed by a NULLS NOT DISTINCT index CREATE TABLE cwi_test(a int, b int); CREATE UNIQUE INDEX cwi_a_nnd ON cwi_test (a) NULLS NOT DISTINCT; ALTER TABLE cwi_test ADD PRIMARY KEY USING INDEX cwi_a_nnd; DROP TABLE cwi_test; -- -- Check handling of indexes on system columns -- CREATE TABLE syscol_table (a INT); -- System columns cannot be indexed CREATE INDEX ON syscolcol_table (ctid); -- nor used in expressions CREATE INDEX ON syscol_table ((ctid >= '(1000,0)')); -- nor used in predicates CREATE INDEX ON syscol_table (a) WHERE ctid >= '(1000,0)'; DROP TABLE syscol_table; -- -- Tests for IS NULL/IS NOT NULL with b-tree indexes -- CREATE TABLE onek_with_null AS SELECT unique1, unique2 FROM onek; INSERT INTO onek_with_null (unique1,unique2) VALUES (NULL, -1), (NULL, NULL); CREATE UNIQUE INDEX onek_nulltest ON onek_with_null (unique2,unique1); SET enable_seqscan = OFF; SET enable_indexscan = ON; SET enable_bitmapscan = ON; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL AND unique1 > 500; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique1 > 500; DROP INDEX onek_nulltest; CREATE UNIQUE INDEX onek_nulltest ON onek_with_null (unique2 desc,unique1); SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL AND unique1 > 500; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique1 > 500; DROP INDEX onek_nulltest; CREATE UNIQUE INDEX onek_nulltest ON onek_with_null (unique2 desc nulls last,unique1); SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL AND unique1 > 500; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique1 > 500; DROP INDEX onek_nulltest; CREATE UNIQUE INDEX onek_nulltest ON onek_with_null (unique2 nulls first,unique1); SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique2 IS NOT NULL; SELECT count(*) FROM onek_with_null WHERE unique1 IS NOT NULL AND unique1 > 500; SELECT count(*) FROM onek_with_null WHERE unique1 IS NULL AND unique1 > 500; DROP INDEX onek_nulltest; -- Check initial-positioning logic too CREATE UNIQUE INDEX onek_nulltest ON onek_with_null (unique2); SET enable_seqscan = OFF; SET enable_indexscan = ON; SET enable_bitmapscan = OFF; SELECT unique1, unique2 FROM onek_with_null ORDER BY unique2 LIMIT 2; SELECT unique1, unique2 FROM onek_with_null WHERE unique2 >= -1 ORDER BY unique2 LIMIT 2; SELECT unique1, unique2 FROM onek_with_null WHERE unique2 >= 0 ORDER BY unique2 LIMIT 2; SELECT unique1, unique2 FROM onek_with_null ORDER BY unique2 DESC LIMIT 2; SELECT unique1, unique2 FROM onek_with_null WHERE unique2 >= -1 ORDER BY unique2 DESC LIMIT 2; SELECT unique1, unique2 FROM onek_with_null WHERE unique2 < 999 ORDER BY unique2 DESC LIMIT 2; RESET enable_seqscan; RESET enable_indexscan; RESET enable_bitmapscan; DROP TABLE onek_with_null; -- -- Check bitmap index path planning -- EXPLAIN (COSTS OFF) SELECT * FROM tenk1 WHERE thousand = 42 AND (tenthous = 1 OR tenthous = 3 OR tenthous = 42); SELECT * FROM tenk1 WHERE thousand = 42 AND (tenthous = 1 OR tenthous = 3 OR tenthous = 42); EXPLAIN (COSTS OFF) SELECT count(*) FROM tenk1 WHERE hundred = 42 AND (thousand = 42 OR thousand = 99); SELECT count(*) FROM tenk1 WHERE hundred = 42 AND (thousand = 42 OR thousand = 99); -- -- Check behavior with duplicate index column contents -- CREATE TABLE dupindexcols AS SELECT unique1 as id, stringu2::text as f1 FROM tenk1; CREATE INDEX dupindexcols_i ON dupindexcols (f1, id, f1 text_pattern_ops); ANALYZE dupindexcols; EXPLAIN (COSTS OFF) SELECT count(*) FROM dupindexcols WHERE f1 BETWEEN 'WA' AND 'ZZZ' and id < 1000 and f1 ~<~ 'YX'; SELECT count(*) FROM dupindexcols WHERE f1 BETWEEN 'WA' AND 'ZZZ' and id < 1000 and f1 ~<~ 'YX'; -- -- Check ordering of =ANY indexqual results (bug in 9.2.0) -- explain (costs off) SELECT unique1 FROM tenk1 WHERE unique1 IN (1,42,7) ORDER BY unique1; SELECT unique1 FROM tenk1 WHERE unique1 IN (1,42,7) ORDER BY unique1; explain (costs off) SELECT thousand, tenthous FROM tenk1 WHERE thousand < 2 AND tenthous IN (1001,3000) ORDER BY thousand; SELECT thousand, tenthous FROM tenk1 WHERE thousand < 2 AND tenthous IN (1001,3000) ORDER BY thousand; SET enable_indexonlyscan = OFF; explain (costs off) SELECT thousand, tenthous FROM tenk1 WHERE thousand < 2 AND tenthous IN (1001,3000) ORDER BY thousand; SELECT thousand, tenthous FROM tenk1 WHERE thousand < 2 AND tenthous IN (1001,3000) ORDER BY thousand; RESET enable_indexonlyscan; -- -- Check elimination of constant-NULL subexpressions -- explain (costs off) select * from tenk1 where (thousand, tenthous) in ((1,1001), (null,null)); -- -- Check matching of boolean index columns to WHERE conditions and sort keys -- create temp table boolindex (b bool, i int, unique(b, i), junk float); explain (costs off) select * from boolindex order by b, i limit 10; explain (costs off) select * from boolindex where b order by i limit 10; explain (costs off) select * from boolindex where b = true order by i desc limit 10; explain (costs off) select * from boolindex where not b order by i limit 10; explain (costs off) select * from boolindex where b is true order by i desc limit 10; explain (costs off) select * from boolindex where b is false order by i desc limit 10; -- -- REINDEX (VERBOSE) -- CREATE TABLE reindex_verbose(id integer primary key); \set VERBOSITY terse \\ -- suppress machine-dependent details REINDEX (VERBOSE) TABLE reindex_verbose; \set VERBOSITY default DROP TABLE reindex_verbose; -- -- REINDEX CONCURRENTLY -- CREATE TABLE concur_reindex_tab (c1 int); -- REINDEX REINDEX TABLE concur_reindex_tab; -- notice REINDEX (CONCURRENTLY) TABLE concur_reindex_tab; -- notice ALTER TABLE concur_reindex_tab ADD COLUMN c2 text; -- add toast index -- Normal index with integer column CREATE UNIQUE INDEX concur_reindex_ind1 ON concur_reindex_tab(c1); -- Normal index with text column CREATE INDEX concur_reindex_ind2 ON concur_reindex_tab(c2); -- UNIQUE index with expression CREATE UNIQUE INDEX concur_reindex_ind3 ON concur_reindex_tab(abs(c1)); -- Duplicate column names CREATE INDEX concur_reindex_ind4 ON concur_reindex_tab(c1, c1, c2); -- Create table for check on foreign key dependence switch with indexes swapped ALTER TABLE concur_reindex_tab ADD PRIMARY KEY USING INDEX concur_reindex_ind1; CREATE TABLE concur_reindex_tab2 (c1 int REFERENCES concur_reindex_tab); INSERT INTO concur_reindex_tab VALUES (1, 'a'); INSERT INTO concur_reindex_tab VALUES (2, 'a'); -- Reindex concurrently of exclusion constraint currently not supported CREATE TABLE concur_reindex_tab3 (c1 int, c2 int4range, EXCLUDE USING gist (c2 WITH &&)); INSERT INTO concur_reindex_tab3 VALUES (3, '[1,2]'); REINDEX INDEX CONCURRENTLY concur_reindex_tab3_c2_excl; -- error REINDEX TABLE CONCURRENTLY concur_reindex_tab3; -- succeeds with warning INSERT INTO concur_reindex_tab3 VALUES (4, '[2,4]'); -- Check materialized views CREATE MATERIALIZED VIEW concur_reindex_matview AS SELECT * FROM concur_reindex_tab; -- Dependency lookup before and after the follow-up REINDEX commands. -- These should remain consistent. SELECT pg_describe_object(classid, objid, objsubid) as obj, pg_describe_object(refclassid,refobjid,refobjsubid) as objref, deptype FROM pg_depend WHERE classid = 'pg_class'::regclass AND objid in ('concur_reindex_tab'::regclass, 'concur_reindex_ind1'::regclass, 'concur_reindex_ind2'::regclass, 'concur_reindex_ind3'::regclass, 'concur_reindex_ind4'::regclass, 'concur_reindex_matview'::regclass) ORDER BY 1, 2; REINDEX INDEX CONCURRENTLY concur_reindex_ind1; REINDEX TABLE CONCURRENTLY concur_reindex_tab; REINDEX TABLE CONCURRENTLY concur_reindex_matview; SELECT pg_describe_object(classid, objid, objsubid) as obj, pg_describe_object(refclassid,refobjid,refobjsubid) as objref, deptype FROM pg_depend WHERE classid = 'pg_class'::regclass AND objid in ('concur_reindex_tab'::regclass, 'concur_reindex_ind1'::regclass, 'concur_reindex_ind2'::regclass, 'concur_reindex_ind3'::regclass, 'concur_reindex_ind4'::regclass, 'concur_reindex_matview'::regclass) ORDER BY 1, 2; -- Check that comments are preserved CREATE TABLE testcomment (i int); CREATE INDEX testcomment_idx1 ON testcomment (i); COMMENT ON INDEX testcomment_idx1 IS 'test comment'; SELECT obj_description('testcomment_idx1'::regclass, 'pg_class'); REINDEX TABLE testcomment; SELECT obj_description('testcomment_idx1'::regclass, 'pg_class'); REINDEX TABLE CONCURRENTLY testcomment ; SELECT obj_description('testcomment_idx1'::regclass, 'pg_class'); DROP TABLE testcomment; -- Check that indisclustered updates are preserved CREATE TABLE concur_clustered(i int); CREATE INDEX concur_clustered_i_idx ON concur_clustered(i); ALTER TABLE concur_clustered CLUSTER ON concur_clustered_i_idx; REINDEX TABLE CONCURRENTLY concur_clustered; SELECT indexrelid::regclass, indisclustered FROM pg_index WHERE indrelid = 'concur_clustered'::regclass; DROP TABLE concur_clustered; -- Check that indisreplident updates are preserved. CREATE TABLE concur_replident(i int NOT NULL); CREATE UNIQUE INDEX concur_replident_i_idx ON concur_replident(i); ALTER TABLE concur_replident REPLICA IDENTITY USING INDEX concur_replident_i_idx; SELECT indexrelid::regclass, indisreplident FROM pg_index WHERE indrelid = 'concur_replident'::regclass; REINDEX TABLE CONCURRENTLY concur_replident; SELECT indexrelid::regclass, indisreplident FROM pg_index WHERE indrelid = 'concur_replident'::regclass; DROP TABLE concur_replident; -- Check that opclass parameters are preserved CREATE TABLE concur_appclass_tab(i tsvector, j tsvector, k tsvector); CREATE INDEX concur_appclass_ind on concur_appclass_tab USING gist (i tsvector_ops (siglen='1000'), j tsvector_ops (siglen='500')); CREATE INDEX concur_appclass_ind_2 on concur_appclass_tab USING gist (k tsvector_ops (siglen='300'), j tsvector_ops); REINDEX TABLE CONCURRENTLY concur_appclass_tab; \d concur_appclass_tab DROP TABLE concur_appclass_tab; -- Partitions -- Create some partitioned tables CREATE TABLE concur_reindex_part (c1 int, c2 int) PARTITION BY RANGE (c1); CREATE TABLE concur_reindex_part_0 PARTITION OF concur_reindex_part FOR VALUES FROM (0) TO (10) PARTITION BY list (c2); CREATE TABLE concur_reindex_part_0_1 PARTITION OF concur_reindex_part_0 FOR VALUES IN (1); CREATE TABLE concur_reindex_part_0_2 PARTITION OF concur_reindex_part_0 FOR VALUES IN (2); -- This partitioned table will have no partitions. CREATE TABLE concur_reindex_part_10 PARTITION OF concur_reindex_part FOR VALUES FROM (10) TO (20) PARTITION BY list (c2); -- Create some partitioned indexes CREATE INDEX concur_reindex_part_index ON ONLY concur_reindex_part (c1); CREATE INDEX concur_reindex_part_index_0 ON ONLY concur_reindex_part_0 (c1); ALTER INDEX concur_reindex_part_index ATTACH PARTITION concur_reindex_part_index_0; -- This partitioned index will have no partitions. CREATE INDEX concur_reindex_part_index_10 ON ONLY concur_reindex_part_10 (c1); ALTER INDEX concur_reindex_part_index ATTACH PARTITION concur_reindex_part_index_10; CREATE INDEX concur_reindex_part_index_0_1 ON ONLY concur_reindex_part_0_1 (c1); ALTER INDEX concur_reindex_part_index_0 ATTACH PARTITION concur_reindex_part_index_0_1; CREATE INDEX concur_reindex_part_index_0_2 ON ONLY concur_reindex_part_0_2 (c1); ALTER INDEX concur_reindex_part_index_0 ATTACH PARTITION concur_reindex_part_index_0_2; SELECT relid, parentrelid, level FROM pg_partition_tree('concur_reindex_part_index') ORDER BY relid, level; SELECT relid, parentrelid, level FROM pg_partition_tree('concur_reindex_part_index') ORDER BY relid, level; -- REINDEX should preserve dependencies of partition tree. SELECT pg_describe_object(classid, objid, objsubid) as obj, pg_describe_object(refclassid,refobjid,refobjsubid) as objref, deptype FROM pg_depend WHERE classid = 'pg_class'::regclass AND objid in ('concur_reindex_part'::regclass, 'concur_reindex_part_0'::regclass, 'concur_reindex_part_0_1'::regclass, 'concur_reindex_part_0_2'::regclass, 'concur_reindex_part_index'::regclass, 'concur_reindex_part_index_0'::regclass, 'concur_reindex_part_index_0_1'::regclass, 'concur_reindex_part_index_0_2'::regclass) ORDER BY 1, 2; REINDEX INDEX CONCURRENTLY concur_reindex_part_index_0_1; REINDEX INDEX CONCURRENTLY concur_reindex_part_index_0_2; SELECT relid, parentrelid, level FROM pg_partition_tree('concur_reindex_part_index') ORDER BY relid, level; REINDEX TABLE CONCURRENTLY concur_reindex_part_0_1; REINDEX TABLE CONCURRENTLY concur_reindex_part_0_2; SELECT pg_describe_object(classid, objid, objsubid) as obj, pg_describe_object(refclassid,refobjid,refobjsubid) as objref, deptype FROM pg_depend WHERE classid = 'pg_class'::regclass AND objid in ('concur_reindex_part'::regclass, 'concur_reindex_part_0'::regclass, 'concur_reindex_part_0_1'::regclass, 'concur_reindex_part_0_2'::regclass, 'concur_reindex_part_index'::regclass, 'concur_reindex_part_index_0'::regclass, 'concur_reindex_part_index_0_1'::regclass, 'concur_reindex_part_index_0_2'::regclass) ORDER BY 1, 2; SELECT relid, parentrelid, level FROM pg_partition_tree('concur_reindex_part_index') ORDER BY relid, level; -- REINDEX for partitioned indexes -- REINDEX TABLE fails for partitioned indexes -- Top-most parent index REINDEX TABLE concur_reindex_part_index; -- error REINDEX TABLE CONCURRENTLY concur_reindex_part_index; -- error -- Partitioned index with no leaves REINDEX TABLE concur_reindex_part_index_10; -- error REINDEX TABLE CONCURRENTLY concur_reindex_part_index_10; -- error -- Cannot run in a transaction block BEGIN; REINDEX INDEX concur_reindex_part_index; ROLLBACK; -- Helper functions to track changes of relfilenodes in a partition tree. -- Create a table tracking the relfilenode state. CREATE OR REPLACE FUNCTION create_relfilenode_part(relname text, indname text) RETURNS VOID AS $func$ BEGIN EXECUTE format(' CREATE TABLE %I AS SELECT oid, relname, relfilenode, relkind, reltoastrelid FROM pg_class WHERE oid IN (SELECT relid FROM pg_partition_tree(''%I''));', relname, indname); END $func$ LANGUAGE plpgsql; CREATE OR REPLACE FUNCTION compare_relfilenode_part(tabname text) RETURNS TABLE (relname name, relkind "char", state text) AS $func$ BEGIN RETURN QUERY EXECUTE format( 'SELECT b.relname, b.relkind, CASE WHEN a.relfilenode = b.relfilenode THEN ''relfilenode is unchanged'' ELSE ''relfilenode has changed'' END -- Do not join with OID here as CONCURRENTLY changes it. FROM %I b JOIN pg_class a ON b.relname = a.relname ORDER BY 1;', tabname); END $func$ LANGUAGE plpgsql; -- Check that expected relfilenodes are changed, non-concurrent case. SELECT create_relfilenode_part('reindex_index_status', 'concur_reindex_part_index'); REINDEX INDEX concur_reindex_part_index; SELECT * FROM compare_relfilenode_part('reindex_index_status'); DROP TABLE reindex_index_status; -- concurrent case. SELECT create_relfilenode_part('reindex_index_status', 'concur_reindex_part_index'); REINDEX INDEX CONCURRENTLY concur_reindex_part_index; SELECT * FROM compare_relfilenode_part('reindex_index_status'); DROP TABLE reindex_index_status; -- REINDEX for partitioned tables -- REINDEX INDEX fails for partitioned tables -- Top-most parent REINDEX INDEX concur_reindex_part; -- error REINDEX INDEX CONCURRENTLY concur_reindex_part; -- error -- Partitioned with no leaves REINDEX INDEX concur_reindex_part_10; -- error REINDEX INDEX CONCURRENTLY concur_reindex_part_10; -- error -- Cannot run in a transaction block BEGIN; REINDEX TABLE concur_reindex_part; ROLLBACK; -- Check that expected relfilenodes are changed, non-concurrent case. -- Note that the partition tree changes of the *indexes* need to be checked. SELECT create_relfilenode_part('reindex_index_status', 'concur_reindex_part_index'); REINDEX TABLE concur_reindex_part; SELECT * FROM compare_relfilenode_part('reindex_index_status'); DROP TABLE reindex_index_status; -- concurrent case. SELECT create_relfilenode_part('reindex_index_status', 'concur_reindex_part_index'); REINDEX TABLE CONCURRENTLY concur_reindex_part; SELECT * FROM compare_relfilenode_part('reindex_index_status'); DROP TABLE reindex_index_status; DROP FUNCTION create_relfilenode_part; DROP FUNCTION compare_relfilenode_part; -- Cleanup of partition tree used for REINDEX test. DROP TABLE concur_reindex_part; -- Check errors -- Cannot run inside a transaction block BEGIN; REINDEX TABLE CONCURRENTLY concur_reindex_tab; COMMIT; REINDEX TABLE CONCURRENTLY pg_class; -- no catalog relation REINDEX INDEX CONCURRENTLY pg_class_oid_index; -- no catalog index -- These are the toast table and index of pg_authid. REINDEX TABLE CONCURRENTLY pg_toast.pg_toast_1260; -- no catalog toast table REINDEX INDEX CONCURRENTLY pg_toast.pg_toast_1260_index; -- no catalog toast index REINDEX SYSTEM CONCURRENTLY postgres; -- not allowed for SYSTEM REINDEX (CONCURRENTLY) SYSTEM postgres; -- ditto REINDEX (CONCURRENTLY) SYSTEM; -- ditto -- Warns about catalog relations REINDEX SCHEMA CONCURRENTLY pg_catalog; -- Not the current database REINDEX DATABASE not_current_database; -- Check the relation status, there should not be invalid indexes \d concur_reindex_tab DROP MATERIALIZED VIEW concur_reindex_matview; DROP TABLE concur_reindex_tab, concur_reindex_tab2, concur_reindex_tab3; -- Check handling of invalid indexes CREATE TABLE concur_reindex_tab4 (c1 int); INSERT INTO concur_reindex_tab4 VALUES (1), (1), (2); -- This trick creates an invalid index. CREATE UNIQUE INDEX CONCURRENTLY concur_reindex_ind5 ON concur_reindex_tab4 (c1); -- Reindexing concurrently this index fails with the same failure. -- The extra index created is itself invalid, and can be dropped. REINDEX INDEX CONCURRENTLY concur_reindex_ind5; \d concur_reindex_tab4 DROP INDEX concur_reindex_ind5_ccnew; -- This makes the previous failure go away, so the index can become valid. DELETE FROM concur_reindex_tab4 WHERE c1 = 1; -- The invalid index is not processed when running REINDEX TABLE. REINDEX TABLE CONCURRENTLY concur_reindex_tab4; \d concur_reindex_tab4 -- But it is fixed with REINDEX INDEX. REINDEX INDEX CONCURRENTLY concur_reindex_ind5; \d concur_reindex_tab4 DROP TABLE concur_reindex_tab4; -- Check handling of indexes with expressions and predicates. The -- definitions of the rebuilt indexes should match the original -- definitions. CREATE TABLE concur_exprs_tab (c1 int , c2 boolean); INSERT INTO concur_exprs_tab (c1, c2) VALUES (1369652450, FALSE), (414515746, TRUE), (897778963, FALSE); CREATE UNIQUE INDEX concur_exprs_index_expr ON concur_exprs_tab ((c1::text COLLATE "C")); CREATE UNIQUE INDEX concur_exprs_index_pred ON concur_exprs_tab (c1) WHERE (c1::text > 500000000::text COLLATE "C"); CREATE UNIQUE INDEX concur_exprs_index_pred_2 ON concur_exprs_tab ((1 / c1)) WHERE ('-H') >= (c2::TEXT) COLLATE "C"; ALTER INDEX concur_exprs_index_expr ALTER COLUMN 1 SET STATISTICS 100; ANALYZE concur_exprs_tab; SELECT starelid::regclass, count(*) FROM pg_statistic WHERE starelid IN ( 'concur_exprs_index_expr'::regclass, 'concur_exprs_index_pred'::regclass, 'concur_exprs_index_pred_2'::regclass) GROUP BY starelid ORDER BY starelid::regclass::text; SELECT pg_get_indexdef('concur_exprs_index_expr'::regclass); SELECT pg_get_indexdef('concur_exprs_index_pred'::regclass); SELECT pg_get_indexdef('concur_exprs_index_pred_2'::regclass); REINDEX TABLE CONCURRENTLY concur_exprs_tab; SELECT pg_get_indexdef('concur_exprs_index_expr'::regclass); SELECT pg_get_indexdef('concur_exprs_index_pred'::regclass); SELECT pg_get_indexdef('concur_exprs_index_pred_2'::regclass); -- ALTER TABLE recreates the indexes, which should keep their collations. ALTER TABLE concur_exprs_tab ALTER c2 TYPE TEXT; SELECT pg_get_indexdef('concur_exprs_index_expr'::regclass); SELECT pg_get_indexdef('concur_exprs_index_pred'::regclass); SELECT pg_get_indexdef('concur_exprs_index_pred_2'::regclass); -- Statistics should remain intact. SELECT starelid::regclass, count(*) FROM pg_statistic WHERE starelid IN ( 'concur_exprs_index_expr'::regclass, 'concur_exprs_index_pred'::regclass, 'concur_exprs_index_pred_2'::regclass) GROUP BY starelid ORDER BY starelid::regclass::text; -- attstattarget should remain intact SELECT attrelid::regclass, attnum, attstattarget FROM pg_attribute WHERE attrelid IN ( 'concur_exprs_index_expr'::regclass, 'concur_exprs_index_pred'::regclass, 'concur_exprs_index_pred_2'::regclass) ORDER BY attrelid::regclass::text, attnum; DROP TABLE concur_exprs_tab; -- Temporary tables and on-commit actions, where CONCURRENTLY is ignored. -- ON COMMIT PRESERVE ROWS, the default. CREATE TEMP TABLE concur_temp_tab_1 (c1 int, c2 text) ON COMMIT PRESERVE ROWS; INSERT INTO concur_temp_tab_1 VALUES (1, 'foo'), (2, 'bar'); CREATE INDEX concur_temp_ind_1 ON concur_temp_tab_1(c2); REINDEX TABLE CONCURRENTLY concur_temp_tab_1; REINDEX INDEX CONCURRENTLY concur_temp_ind_1; -- Still fails in transaction blocks BEGIN; REINDEX INDEX CONCURRENTLY concur_temp_ind_1; COMMIT; -- ON COMMIT DELETE ROWS CREATE TEMP TABLE concur_temp_tab_2 (c1 int, c2 text) ON COMMIT DELETE ROWS; CREATE INDEX concur_temp_ind_2 ON concur_temp_tab_2(c2); REINDEX TABLE CONCURRENTLY concur_temp_tab_2; REINDEX INDEX CONCURRENTLY concur_temp_ind_2; -- ON COMMIT DROP BEGIN; CREATE TEMP TABLE concur_temp_tab_3 (c1 int, c2 text) ON COMMIT PRESERVE ROWS; INSERT INTO concur_temp_tab_3 VALUES (1, 'foo'), (2, 'bar'); CREATE INDEX concur_temp_ind_3 ON concur_temp_tab_3(c2); -- Fails when running in a transaction REINDEX INDEX CONCURRENTLY concur_temp_ind_3; COMMIT; -- REINDEX SCHEMA processes all temporary relations CREATE TABLE reindex_temp_before AS SELECT oid, relname, relfilenode, relkind, reltoastrelid FROM pg_class WHERE relname IN ('concur_temp_ind_1', 'concur_temp_ind_2'); SELECT pg_my_temp_schema()::regnamespace as temp_schema_name \gset REINDEX SCHEMA CONCURRENTLY :temp_schema_name; SELECT b.relname, b.relkind, CASE WHEN a.relfilenode = b.relfilenode THEN 'relfilenode is unchanged' ELSE 'relfilenode has changed' END FROM reindex_temp_before b JOIN pg_class a ON b.oid = a.oid ORDER BY 1; DROP TABLE concur_temp_tab_1, concur_temp_tab_2, reindex_temp_before; -- -- REINDEX SCHEMA -- REINDEX SCHEMA schema_to_reindex; -- failure, schema does not exist CREATE SCHEMA schema_to_reindex; SET search_path = 'schema_to_reindex'; CREATE TABLE table1(col1 SERIAL PRIMARY KEY); INSERT INTO table1 SELECT generate_series(1,400); CREATE TABLE table2(col1 SERIAL PRIMARY KEY, col2 TEXT NOT NULL); INSERT INTO table2 SELECT generate_series(1,400), 'abc'; CREATE INDEX ON table2(col2); CREATE MATERIALIZED VIEW matview AS SELECT col1 FROM table2; CREATE INDEX ON matview(col1); CREATE VIEW view AS SELECT col2 FROM table2; CREATE TABLE reindex_before AS SELECT oid, relname, relfilenode, relkind, reltoastrelid FROM pg_class where relnamespace = (SELECT oid FROM pg_namespace WHERE nspname = 'schema_to_reindex'); INSERT INTO reindex_before SELECT oid, 'pg_toast_TABLE', relfilenode, relkind, reltoastrelid FROM pg_class WHERE oid IN (SELECT reltoastrelid FROM reindex_before WHERE reltoastrelid > 0); INSERT INTO reindex_before SELECT oid, 'pg_toast_TABLE_index', relfilenode, relkind, reltoastrelid FROM pg_class where oid in (select indexrelid from pg_index where indrelid in (select reltoastrelid from reindex_before where reltoastrelid > 0)); REINDEX SCHEMA schema_to_reindex; CREATE TABLE reindex_after AS SELECT oid, relname, relfilenode, relkind FROM pg_class where relnamespace = (SELECT oid FROM pg_namespace WHERE nspname = 'schema_to_reindex'); SELECT b.relname, b.relkind, CASE WHEN a.relfilenode = b.relfilenode THEN 'relfilenode is unchanged' ELSE 'relfilenode has changed' END FROM reindex_before b JOIN pg_class a ON b.oid = a.oid ORDER BY 1; REINDEX SCHEMA schema_to_reindex; BEGIN; REINDEX SCHEMA schema_to_reindex; -- failure, cannot run in a transaction END; -- concurrently REINDEX SCHEMA CONCURRENTLY schema_to_reindex; -- Failure for unauthorized user CREATE ROLE regress_reindexuser NOLOGIN; SET SESSION ROLE regress_reindexuser; REINDEX SCHEMA schema_to_reindex; -- Permission failures with toast tables and indexes (pg_authid here) RESET ROLE; GRANT USAGE ON SCHEMA pg_toast TO regress_reindexuser; SET SESSION ROLE regress_reindexuser; REINDEX TABLE pg_toast.pg_toast_1260; REINDEX INDEX pg_toast.pg_toast_1260_index; -- Clean up RESET ROLE; REVOKE USAGE ON SCHEMA pg_toast FROM regress_reindexuser; DROP ROLE regress_reindexuser; DROP SCHEMA schema_to_reindex CASCADE;