F.7. btree_gist
btree_gist
provides GiST index operator classes that implement B-tree equivalent behavior for the data types int2
, int4
, int8
, float4
, float8
, numeric
, timestamp with time zone
, timestamp without time zone
, time with time zone
, time without time zone
, date
, interval
, oid
, money
, char
, varchar
, text
, bytea
, bit
, varbit
, macaddr
, macaddr8
, inet
, cidr
, uuid
, and all enum
types.
In general, these operator classes will not outperform the equivalent standard B-tree index methods, and they lack one major feature of the standard B-tree code: the ability to enforce uniqueness. However, they provide some other features that are not available with a B-tree index, as described below. Also, these operator classes are useful when a multicolumn GiST index is needed, wherein some of the columns are of data types that are only indexable with GiST but other columns are just simple data types. Lastly, these operator classes are useful for GiST testing and as a base for developing other GiST operator classes.
In addition to the typical B-tree search operators, btree_gist
also provides index support for <>
(“not equals”). This may be useful in combination with an exclusion constraint, as described below.
Also, for data types for which there is a natural distance metric, btree_gist
defines a distance operator <->
, and provides GiST index support for nearest-neighbor searches using this operator. Distance operators are provided for int2
, int4
, int8
, float4
, float8
, timestamp with time zone
, timestamp without time zone
, time without time zone
, date
, interval
, oid
, and money
.
F.7.1. Example Usage
Simple example using btree_gist
instead of btree
:
CREATE TABLE test (a int4); -- create index CREATE INDEX testidx ON test USING GIST (a); -- query SELECT * FROM test WHERE a < 10; -- nearest-neighbor search: find the ten entries closest to "42" SELECT *, a <-> 42 AS dist FROM test ORDER BY a <-> 42 LIMIT 10;
Use an exclusion constraint to enforce the rule that a cage at a zoo can contain only one kind of animal:
=> CREATE TABLE zoo ( cage INTEGER, animal TEXT, EXCLUDE USING GIST (cage WITH =, animal WITH <>) ); => INSERT INTO zoo VALUES(123, 'zebra'); INSERT 0 1 => INSERT INTO zoo VALUES(123, 'zebra'); INSERT 0 1 => INSERT INTO zoo VALUES(123, 'lion'); ERROR: conflicting key value violates exclusion constraint "zoo_cage_animal_excl" DETAIL: Key (cage, animal)=(123, lion) conflicts with existing key (cage, animal)=(123, zebra). => INSERT INTO zoo VALUES(124, 'lion'); INSERT 0 1
F.7.2. Authors
Teodor Sigaev (<[email protected]>
), Oleg Bartunov (<[email protected]>
), Janko Richter (<[email protected]>
), and Paul Jungwirth (<[email protected]>
). See http://www.sai.msu.su/~megera/postgres/gist/ for additional information.
© 1996–2019 The PostgreSQL Global Development Group
Licensed under the PostgreSQL License.
https://www.postgresql.org/docs/10/btree-gist.html