MySQL 8.0 Reference Manual Including MySQL NDB Cluster 8.0

13.4.10 Creating Spatial Indexes

For InnoDB and MyISAM tables, MySQL can create spatial indexes using syntax similar to that for creating regular indexes, but using the SPATIAL keyword. Columns in spatial indexes must be declared NOT NULL. The following examples demonstrate how to create spatial indexes:

SPATIAL INDEX creates an R-tree index. For storage engines that support nonspatial 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.

The optimizer can use spatial indexes defined on columns that are SRID-restricted. For more information, see Section 13.4.1, “Spatial Data Types”, and Section 10.3.3, “SPATIAL Index Optimization”.

For more information on indexing spatial columns, see Section 15.1.15, “CREATE INDEX Statement”.

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

Example: Suppose that a table geom contains more than 32,000 geometries, which are stored in the column g of type GEOMETRY. The table also has an AUTO_INCREMENT column fid for storing object ID values.

mysql> DESCRIBE geom;
| Field | Type     | Null | Key | Default | Extra          |
| fid   | int(11)  |      | PRI | NULL    | auto_increment |
| g     | geometry |      |     |         |                |
2 rows in set (0.00 sec)

mysql> SELECT COUNT(*) FROM geom;
| count(*) |
|    32376 |
1 row in set (0.00 sec)

To add a spatial index on the column g, use this statement:

Query OK, 32376 rows affected (4.05 sec)
Records: 32376  Duplicates: 0  Warnings: 0