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|
--
-- BTREE_INDEX
--
-- directory paths are passed to us in environment variables
\getenv abs_srcdir PG_ABS_SRCDIR
CREATE TABLE bt_i4_heap (
seqno int4,
random int4
);
CREATE TABLE bt_name_heap (
seqno name,
random int4
);
CREATE TABLE bt_txt_heap (
seqno text,
random int4
);
CREATE TABLE bt_f8_heap (
seqno float8,
random int4
);
\set filename :abs_srcdir '/data/desc.data'
COPY bt_i4_heap FROM :'filename';
\set filename :abs_srcdir '/data/hash.data'
COPY bt_name_heap FROM :'filename';
\set filename :abs_srcdir '/data/desc.data'
COPY bt_txt_heap FROM :'filename';
\set filename :abs_srcdir '/data/hash.data'
COPY bt_f8_heap FROM :'filename';
ANALYZE bt_i4_heap;
ANALYZE bt_name_heap;
ANALYZE bt_txt_heap;
ANALYZE bt_f8_heap;
--
-- BTREE ascending/descending cases
--
-- we load int4/text from pure descending data (each key is a new
-- low key) and name/f8 from pure ascending data (each key is a new
-- high key). we had a bug where new low keys would sometimes be
-- "lost".
--
CREATE INDEX bt_i4_index ON bt_i4_heap USING btree (seqno int4_ops);
CREATE INDEX bt_name_index ON bt_name_heap USING btree (seqno name_ops);
CREATE INDEX bt_txt_index ON bt_txt_heap USING btree (seqno text_ops);
CREATE INDEX bt_f8_index ON bt_f8_heap USING btree (seqno float8_ops);
--
-- test retrieval of min/max keys for each index
--
SELECT b.*
FROM bt_i4_heap b
WHERE b.seqno < 1;
seqno | random
-------+------------
0 | 1935401906
(1 row)
SELECT b.*
FROM bt_i4_heap b
WHERE b.seqno >= 9999;
seqno | random
-------+------------
9999 | 1227676208
(1 row)
SELECT b.*
FROM bt_i4_heap b
WHERE b.seqno = 4500;
seqno | random
-------+------------
4500 | 2080851358
(1 row)
SELECT b.*
FROM bt_name_heap b
WHERE b.seqno < '1'::name;
seqno | random
-------+------------
0 | 1935401906
(1 row)
SELECT b.*
FROM bt_name_heap b
WHERE b.seqno >= '9999'::name;
seqno | random
-------+------------
9999 | 1227676208
(1 row)
SELECT b.*
FROM bt_name_heap b
WHERE b.seqno = '4500'::name;
seqno | random
-------+------------
4500 | 2080851358
(1 row)
SELECT b.*
FROM bt_txt_heap b
WHERE b.seqno < '1'::text;
seqno | random
-------+------------
0 | 1935401906
(1 row)
SELECT b.*
FROM bt_txt_heap b
WHERE b.seqno >= '9999'::text;
seqno | random
-------+------------
9999 | 1227676208
(1 row)
SELECT b.*
FROM bt_txt_heap b
WHERE b.seqno = '4500'::text;
seqno | random
-------+------------
4500 | 2080851358
(1 row)
SELECT b.*
FROM bt_f8_heap b
WHERE b.seqno < '1'::float8;
seqno | random
-------+------------
0 | 1935401906
(1 row)
SELECT b.*
FROM bt_f8_heap b
WHERE b.seqno >= '9999'::float8;
seqno | random
-------+------------
9999 | 1227676208
(1 row)
SELECT b.*
FROM bt_f8_heap b
WHERE b.seqno = '4500'::float8;
seqno | random
-------+------------
4500 | 2080851358
(1 row)
--
-- Check correct optimization of LIKE (special index operator support)
-- for both indexscan and bitmapscan cases
--
set enable_seqscan to false;
set enable_indexscan to true;
set enable_bitmapscan to false;
explain (costs off)
select proname from pg_proc where proname like E'RI\\_FKey%del' order by 1;
QUERY PLAN
------------------------------------------------------------------------------
Index Only Scan using pg_proc_proname_args_nsp_index on pg_proc
Index Cond: ((proname >= 'RI_FKey'::text) AND (proname < 'RI_FKez'::text))
Filter: (proname ~~ 'RI\_FKey%del'::text)
(3 rows)
select proname from pg_proc where proname like E'RI\\_FKey%del' order by 1;
proname
------------------------
RI_FKey_cascade_del
RI_FKey_noaction_del
RI_FKey_restrict_del
RI_FKey_setdefault_del
RI_FKey_setnull_del
(5 rows)
explain (costs off)
select proname from pg_proc where proname ilike '00%foo' order by 1;
QUERY PLAN
--------------------------------------------------------------------
Index Only Scan using pg_proc_proname_args_nsp_index on pg_proc
Index Cond: ((proname >= '00'::text) AND (proname < '01'::text))
Filter: (proname ~~* '00%foo'::text)
(3 rows)
select proname from pg_proc where proname ilike '00%foo' order by 1;
proname
---------
(0 rows)
explain (costs off)
select proname from pg_proc where proname ilike 'ri%foo' order by 1;
QUERY PLAN
-----------------------------------------------------------------
Index Only Scan using pg_proc_proname_args_nsp_index on pg_proc
Filter: (proname ~~* 'ri%foo'::text)
(2 rows)
set enable_indexscan to false;
set enable_bitmapscan to true;
explain (costs off)
select proname from pg_proc where proname like E'RI\\_FKey%del' order by 1;
QUERY PLAN
------------------------------------------------------------------------------------------
Sort
Sort Key: proname
-> Bitmap Heap Scan on pg_proc
Filter: (proname ~~ 'RI\_FKey%del'::text)
-> Bitmap Index Scan on pg_proc_proname_args_nsp_index
Index Cond: ((proname >= 'RI_FKey'::text) AND (proname < 'RI_FKez'::text))
(6 rows)
select proname from pg_proc where proname like E'RI\\_FKey%del' order by 1;
proname
------------------------
RI_FKey_cascade_del
RI_FKey_noaction_del
RI_FKey_restrict_del
RI_FKey_setdefault_del
RI_FKey_setnull_del
(5 rows)
explain (costs off)
select proname from pg_proc where proname ilike '00%foo' order by 1;
QUERY PLAN
--------------------------------------------------------------------------------
Sort
Sort Key: proname
-> Bitmap Heap Scan on pg_proc
Filter: (proname ~~* '00%foo'::text)
-> Bitmap Index Scan on pg_proc_proname_args_nsp_index
Index Cond: ((proname >= '00'::text) AND (proname < '01'::text))
(6 rows)
select proname from pg_proc where proname ilike '00%foo' order by 1;
proname
---------
(0 rows)
explain (costs off)
select proname from pg_proc where proname ilike 'ri%foo' order by 1;
QUERY PLAN
-----------------------------------------------------------------
Index Only Scan using pg_proc_proname_args_nsp_index on pg_proc
Filter: (proname ~~* 'ri%foo'::text)
(2 rows)
reset enable_seqscan;
reset enable_indexscan;
reset enable_bitmapscan;
-- Also check LIKE optimization with binary-compatible cases
create temp table btree_bpchar (f1 text collate "C");
create index on btree_bpchar(f1 bpchar_ops) WITH (deduplicate_items=on);
insert into btree_bpchar values ('foo'), ('fool'), ('bar'), ('quux');
-- doesn't match index:
explain (costs off)
select * from btree_bpchar where f1 like 'foo';
QUERY PLAN
-------------------------------
Seq Scan on btree_bpchar
Filter: (f1 ~~ 'foo'::text)
(2 rows)
select * from btree_bpchar where f1 like 'foo';
f1
-----
foo
(1 row)
explain (costs off)
select * from btree_bpchar where f1 like 'foo%';
QUERY PLAN
--------------------------------
Seq Scan on btree_bpchar
Filter: (f1 ~~ 'foo%'::text)
(2 rows)
select * from btree_bpchar where f1 like 'foo%';
f1
------
foo
fool
(2 rows)
-- these do match the index:
explain (costs off)
select * from btree_bpchar where f1::bpchar like 'foo';
QUERY PLAN
----------------------------------------------------
Bitmap Heap Scan on btree_bpchar
Filter: ((f1)::bpchar ~~ 'foo'::text)
-> Bitmap Index Scan on btree_bpchar_f1_idx
Index Cond: ((f1)::bpchar = 'foo'::bpchar)
(4 rows)
select * from btree_bpchar where f1::bpchar like 'foo';
f1
-----
foo
(1 row)
explain (costs off)
select * from btree_bpchar where f1::bpchar like 'foo%';
QUERY PLAN
------------------------------------------------------------------------------------------
Bitmap Heap Scan on btree_bpchar
Filter: ((f1)::bpchar ~~ 'foo%'::text)
-> Bitmap Index Scan on btree_bpchar_f1_idx
Index Cond: (((f1)::bpchar >= 'foo'::bpchar) AND ((f1)::bpchar < 'fop'::bpchar))
(4 rows)
select * from btree_bpchar where f1::bpchar like 'foo%';
f1
------
foo
fool
(2 rows)
-- get test coverage for "single value" deduplication strategy:
insert into btree_bpchar select 'foo' from generate_series(1,1500);
--
-- Perform unique checking, with and without the use of deduplication
--
CREATE TABLE dedup_unique_test_table (a int) WITH (autovacuum_enabled=false);
CREATE UNIQUE INDEX dedup_unique ON dedup_unique_test_table (a) WITH (deduplicate_items=on);
CREATE UNIQUE INDEX plain_unique ON dedup_unique_test_table (a) WITH (deduplicate_items=off);
-- Generate enough garbage tuples in index to ensure that even the unique index
-- with deduplication enabled has to check multiple leaf pages during unique
-- checking (at least with a BLCKSZ of 8192 or less)
DO $$
BEGIN
FOR r IN 1..1350 LOOP
DELETE FROM dedup_unique_test_table;
INSERT INTO dedup_unique_test_table SELECT 1;
END LOOP;
END$$;
-- Exercise the LP_DEAD-bit-set tuple deletion code with a posting list tuple.
-- The implementation prefers deleting existing items to merging any duplicate
-- tuples into a posting list, so we need an explicit test to make sure we get
-- coverage (note that this test also assumes BLCKSZ is 8192 or less):
DROP INDEX plain_unique;
DELETE FROM dedup_unique_test_table WHERE a = 1;
INSERT INTO dedup_unique_test_table SELECT i FROM generate_series(0,450) i;
--
-- Test B-tree fast path (cache rightmost leaf page) optimization.
--
-- First create a tree that's at least three levels deep (i.e. has one level
-- between the root and leaf levels). The text inserted is long. It won't be
-- TOAST compressed because we use plain storage in the table. Only a few
-- index tuples fit on each internal page, allowing us to get a tall tree with
-- few pages. (A tall tree is required to trigger caching.)
--
-- The text column must be the leading column in the index, since suffix
-- truncation would otherwise truncate tuples on internal pages, leaving us
-- with a short tree.
create table btree_tall_tbl(id int4, t text);
alter table btree_tall_tbl alter COLUMN t set storage plain;
create index btree_tall_idx on btree_tall_tbl (t, id) with (fillfactor = 10);
insert into btree_tall_tbl select g, repeat('x', 250)
from generate_series(1, 130) g;
--
-- Test for multilevel page deletion
--
CREATE TABLE delete_test_table (a bigint, b bigint, c bigint, d bigint);
INSERT INTO delete_test_table SELECT i, 1, 2, 3 FROM generate_series(1,80000) i;
ALTER TABLE delete_test_table ADD PRIMARY KEY (a,b,c,d);
-- Delete most entries, and vacuum, deleting internal pages and creating "fast
-- root"
DELETE FROM delete_test_table WHERE a < 79990;
VACUUM delete_test_table;
--
-- Test B-tree insertion with a metapage update (XLOG_BTREE_INSERT_META
-- WAL record type). This happens when a "fast root" page is split. This
-- also creates coverage for nbtree FSM page recycling.
--
-- The vacuum above should've turned the leaf page into a fast root. We just
-- need to insert some rows to cause the fast root page to split.
INSERT INTO delete_test_table SELECT i, 1, 2, 3 FROM generate_series(1,1000) i;
-- Test unsupported btree opclass parameters
create index on btree_tall_tbl (id int4_ops(foo=1));
ERROR: operator class int4_ops has no options
-- Test case of ALTER INDEX with abuse of column names for indexes.
-- This grammar is not officially supported, but the parser allows it.
CREATE INDEX btree_tall_idx2 ON btree_tall_tbl (id);
ALTER INDEX btree_tall_idx2 ALTER COLUMN id SET (n_distinct=100);
ERROR: ALTER action ALTER COLUMN ... SET cannot be performed on relation "btree_tall_idx2"
DETAIL: This operation is not supported for indexes.
DROP INDEX btree_tall_idx2;
-- Partitioned index
CREATE TABLE btree_part (id int4) PARTITION BY RANGE (id);
CREATE INDEX btree_part_idx ON btree_part(id);
ALTER INDEX btree_part_idx ALTER COLUMN id SET (n_distinct=100);
ERROR: ALTER action ALTER COLUMN ... SET cannot be performed on relation "btree_part_idx"
DETAIL: This operation is not supported for partitioned indexes.
DROP TABLE btree_part;
|
