F.27. hypopg — support for hypothetical indexes #
F.27.1. Description #
hypopg is a Postgres Pro extension, adding support for hypothetical indexes.
A hypothetical, or virtual, index is an index that does not really exist, and therefore does not cost CPU, disk, or any resource to create. They are useful to find out whether specific indexes can increase the performance for problematic queries, since you can discover if Postgres Pro will use these indexes or not without having to spend resources to create them.
F.27.2. Installation #
The hypopg extension is provided with Postgres Pro as a separate pre-built package hypopg-ent-16
(for the detailed installation instructions, see Chapter 17). Once you have Postgres Pro installed, create the hypopg extension:
CREATE EXTENSION hypopg;
hypopg is now available. You can check easily if the extension is present using psql:
\dx
List of installed extensions
Name | Version | Schema | Description
---------+---------+------------+-------------------------------------
hypopg | 1.4.1 | public | Hypothetical indexes for Postgres Pro
plpgsql | 1.0 | pg_catalog | PL/pgSQL procedural language
(2 rows)
As you can see, hypopg is installed.
F.27.3. Functions #
hypopg is useful if you want to check if some index would help one or multiple queries. Therefore, you should already know what are the queries you need to optimize, and ideas on which indexes you want to try.
Also, the hypothetical indexes that hypopg will create are not stored in any catalog, but in your connection private memory. Therefore, it won't bloat any table and won't impact any concurrent connection.
Moreover, since the hypothetical indexes don't really exist, hypopg makes sure they will only be using a simple EXPLAIN
statement (without the ANALYZE
option).
The following access methods are supported:
btree
brin
hash
bloom
(requires the bloom extension to be installed)
Note
Using hypopg requires some knowledge on the EXPLAIN
command.
F.27.3.1. Create a Hypothetical Index #
-
hypopg_create_index()
# For clarity, let's see how it works with a very simple test case:
CREATE TABLE hypo (id integer, val text) ; INSERT INTO hypo SELECT i, 'line ' || i FROM generate_series(1, 100000) i ; VACUUM ANALYZE hypo ;
This table doesn't have any index. Let's assume we want to check if an index would help a simple query. First, let's see how it behaves:
EXPLAIN SELECT val FROM hypo WHERE id = 1; QUERY PLAN -------------------------------------------------------- Seq Scan on hypo (cost=0.00..1791.00 rows=1 width=14) Filter: (id = 1) (2 rows)
A plain sequential scan is used, since no index exists on the table. A simple btree index on the
id
column should help this query. Let's check with hypopg. The functionhypopg_create_index()
will accept any standardCREATE INDEX
statement(s) (any other statement passed to this function will be ignored), and create a hypothetical index for each:SELECT * FROM hypopg_create_index('CREATE INDEX ON hypo (id)') ; indexrelid | indexname ------------+---------------------- 18284 | <18284>btree_hypo_id (1 row)
The function returns two columns:
the object identifier of the hypothetical index
the generated hypothetical index name
We can run the
EXPLAIN
again to see if Postgres Pro would use this index:EXPLAIN SELECT val FROM hypo WHERE id = 1; QUERY PLAN ---------------------------------------------------------------------------------- Index Scan using <18284>btree_hypo_id on hypo (cost=0.04..8.06 rows=1 width=10) Index Cond: (id = 1) (2 rows)
Yes, Postgres Pro would use such an index. Just to be sure, let's check that the hypothetical index won't be used to actually run the query:
EXPLAIN ANALYZE SELECT val FROM hypo WHERE id = 1; QUERY PLAN --------------------------------------------------------------------------------------------------- Seq Scan on hypo (cost=0.00..1791.00 rows=1 width=10) (actual time=0.046..46.390 rows=1 loops=1) Filter: (id = 1) Rows Removed by Filter: 99999 Planning time: 0.160 ms Execution time: 46.460 ms (5 rows)
That's all you need to create hypothetical indexes and see if Postgres Pro would use such indexes.
F.27.3.2. Manipulate Hypothetical Indexes #
The hypopg_list_indexes
view lists all hypothetical indexes that have been created.
SELECT * FROM hypopg_list_indexes ; indexrelid | index_name | schema_name | table_name | am_name ------------+-----------------------+-------------+------------+--------- 18284 | <18284>btree_hypo_id | public | hypo | btree (1 row)
-
hypopg()
# hypopg()
lists all hypothetical indexes that have been created with the same format aspg_index
.SELECT * FROM hypopg() ; indexname | indexrelid | indrelid | innatts | indisunique | indkey | indcollation | indclass | indoption | indexprs | indpred | amid ----------------------+------------+----------+---------+-------------+--------+--------------+----------+-----------+----------+---------+------ <18284>btree_hypo_id | 13543 | 18122 | 1 | f | 1 | 0 | 1978 | <NULL> | <NULL> | <NULL> | 403 (1 row)
-
hypopg_get_indexdef(oid)
# hypopg_get_indexdef(oid)
lists theCREATE INDEX
statements that would recreate a stored hypothetical index.SELECT index_name, hypopg_get_indexdef(indexrelid) FROM hypopg_list_indexes ; index_name | hypopg_get_indexdef -----------------------+---------------------------------------------- <18284>btree_hypo_id | CREATE INDEX ON public.hypo USING btree (id) (1 row)
-
hypopg_relation_size(oid)
# hypopg_relation_size(oid)
estimates how big a hypothetical index would be:SELECT index_name, pg_size_pretty(hypopg_relation_size(indexrelid)) FROM hypopg_list_indexes ; index_name | pg_size_pretty -----------------------+---------------- <18284>btree_hypo_id | 2544 kB (1 row)
-
hypopg_drop_index(oid)
# hypopg_drop_index(oid)
removes the given hypothetical index.-
hypopg_reset()
# hypopg_reset()
removes all hypothetical indexes.
F.27.3.3. Hypothetically Hide Existing Indexes #
-
hypopg_hide_index(oid)
# You can hide both existing and hypothetical indexes hypothetically. If you want to test it as described in the documentation, you should first use
hypopg_reset()
to clear the effects of any other hypothetical indexes.As a simple case, let's consider two indexes:
SELECT hypopg_reset(); CREATE INDEX ON hypo(id); CREATE INDEX ON hypo(id, val);
EXPLAIN SELECT * FROM hypo WHERE id = 1; QUERY PLAN ---------------------------------------------------------------------------------- Index Only Scan using hypo_id_val_idx on hypo (cost=0.29..8.30 rows=1 width=13) Index Cond: (id = 1) (2 rows)
The query plan is using the
hypo_id_val_idx
index now.hypopg_hide_index(oid)
allows you to hide an index in theEXPLAIN
output by using its OID. It returns true if the index was successfully hidden, and false otherwise.SELECT hypopg_hide_index('hypo_id_val_idx'::REGCLASS); hypopg_hide_index ------------------- t (1 row) EXPLAIN SELECT * FROM hypo WHERE id = 1; QUERY PLAN ------------------------------------------------------------------------- Index Scan using hypo_id_idx on hypo (cost=0.29..8.30 rows=1 width=13) Index Cond: (id = 1) (2 rows)
As an example, let's assume that the query plan is currently using the
hypo_id_val_idx
index. To continue testing, use thehypopg_hide_index(oid)
function to hide another index.SELECT hypopg_hide_index('hypo_id_idx'::REGCLASS); hypopg_hide_index ------------------- t (1 row) EXPLAIN SELECT * FROM hypo WHERE id = 1; QUERY PLAN ------------------------------------------------------- Seq Scan on hypo (cost=0.00..180.00 rows=1 width=13) Filter: (id = 1) (2 rows)
-
hypopg_unhide_index(oid)
# hypopg_unhide_index(oid)
restores a previously hidden index in theEXPLAIN
output by using its OID. It returns true if the index was successfully restored, and false otherwise.SELECT hypopg_unhide_index('hypo_id_idx'::regclass); hypopg_unhide_index ------------------- t (1 row) EXPLAIN SELECT * FROM hypo WHERE id = 1; QUERY PLAN ------------------------------------------------------------------------- Index Scan using hypo_id_idx on hypo (cost=0.29..8.30 rows=1 width=13) Index Cond: (id = 1) (2 rows)
-
hypopg_unhide_all_index(oid)
# hypopg_unhide_all_index()
restores all hidden indexes and returnsvoid
.-
hypopg_hidden_indexes()
# hypopg_hidden_indexes()
returns a list of OIDs for all hidden indexes.SELECT * FROM hypopg_hidden_indexes(); indexid --------- 526604 (1 rows)
The hypopg_hidden_indexes
view returns a formatted list of all hidden indexes.
SELECT * FROM hypopg_hidden_indexes; indexrelid | index_name | schema_name | table_name | am_name | is_hypo -------------+----------------------+-------------+------------+---------+--------- 526604 | hypo_id_val_idx | public | hypo | btree | f (1 rows)
Note
Hypothetical indexes can be hidden as well.
SELECT hypopg_create_index('CREATE INDEX ON hypo(id)'); hypopg_create_index ------------------------------ (12659,<12659>btree_hypo_id) (1 row) EXPLAIN SELECT * FROM hypo WHERE id = 1; QUERY PLAN ------------------------------------------------------------------------------------ Index Scan using "<12659>btree_hypo_id" on hypo (cost=0.04..8.05 rows=1 width=13) Index Cond: (id = 1) (2 rows)
Now that the hypothetical index is being used, we can try hiding it to see the change:
SELECT hypopg_hide_index(12659); hypopg_hide_index ------------------- t (1 row) EXPLAIN SELECT * FROM hypo WHERE id = 1; QUERY PLAN ------------------------------------------------------------------------- Index Scan using hypo_id_idx on hypo (cost=0.29..8.30 rows=1 width=13) Index Cond: (id = 1) (2 rows) SELECT * FROM hypopg_hidden_indexes; indexrelid | index_name | schema_name | table_name | am_name | is_hypo -------------+----------------------+-------------+------------+---------+--------- 12659 | <12659>btree_hypo_id | public | hypo | btree | t 526604 | hypo_id_val_idx | public | hypo | btree | f (2 rows)
Note
If a hypothetical index has been hidden, it will be automatically unhidden when it is deleted using hypopg_drop_index(oid)
or hypopg_reset()
.
SELECT hypopg_drop_index(12659); SELECT * FROM hypopg_hidden_indexes; indexrelid | index_name | schema_name | table_name | am_name | is_hypo -------------+----------------------+-------------+------------+---------+--------- 526604 | hypo_id_val_idx | public | hypo | btree | f (2 rows)
F.27.4. GUC Parameters #
The following configuration parameters (GUCs) are available, and can be changed interactively:
-
hypopg.enabled
# Defaults to
on
. Use this parameter to globally enable or disable hypopg. When hypopg is disabled, no hypothetical index will be used, but the defined hypothetical indexes won't be removed.-
hypopg.use_real_oids
# Defaults to
off
. By default, hypopg won't use "real" object identifiers, but instead borrow ones from the ~ 14000 / 16384 (respectively the lowest unused OID less thenFirstNormalObjectId
andFirstNormalObjectId
) range, which are reserved by Postgres Pro for future usage in future releases. This doesn't cause any problem, as the free range is dynamically computed the first time a connection uses hypopg, and has the advantage to work on a standby server. But the drawback is that you can't have more than approximately 2500 hypothetical indexes at the same time, and creating a new hypothetical index will become very slow once more than the maximum number of objects has been created untilhypopg_reset()
is called.If those drawbacks are problematic, you can enable this parameter. hypopg will then ask for a real object identifier, which will need to obtain more locks and won't work on a standby, but will allow using the full range of object identifiers.
Note that switching this parameter doesn't require resetting the entries, both can coexist at the same time.