This is a read-only copy of the MariaDB Knowledgebase generated on 2024-12-22. For the latest, interactive version please visit https://mariadb.com/kb/.

SPATIAL INDEX

Description

On MyISAM, Aria and InnoDB tables, MariaDB can create spatial indexes (an R-tree index) using syntax similar to that for creating regular indexes, but extended with the SPATIAL keyword. Currently, columns in spatial indexes must be declared NOT NULL.

Spatial indexes can be created when the table is created, or added after the fact like so:

  • with CREATE TABLE:
    CREATE TABLE geom (g GEOMETRY NOT NULL, SPATIAL INDEX(g));
    
  • with ALTER TABLE:
    ALTER TABLE geom ADD SPATIAL INDEX(g);
    
  • with CREATE INDEX:
    CREATE SPATIAL INDEX sp_index ON geom (g);
    

SPATIAL INDEX creates an R-tree index. For storage engines that support non-spatial indexing of spatial columns, the engine creates a B-tree index. A B-tree index on spatial values is useful for exact-value lookups, but not for range scans.

For more information on indexing spatial columns, see CREATE INDEX.

To drop spatial indexes, use ALTER TABLE or DROP INDEX:

Data-at-Rest Encyption

Before MariaDB 10.4.3, InnoDB's spatial indexes could not be encrypted. If an InnoDB table was encrypted and if it contained spatial indexes, then those indexes would be unencrypted.

In MariaDB 10.4.3 and later, if innodb_checksum_algorithm is set to full_crc32 or strict_full_crc32, and if the table does not use ROW_FORMAT=COMPRESSED, then InnoDB spatial indexes will be encrypted if the table is encrypted.

See MDEV-12026 for more information.

Content reproduced on this site is the property of its respective owners, and this content is not reviewed in advance by MariaDB. The views, information and opinions expressed by this content do not necessarily represent those of MariaDB or any other party.