8.5.1 Column Indexes

All MySQL data types can be indexed. Use of indexes on the relevant columns is the best way to improve the performance of SELECT operations.

The maximum number of indexes per table and the maximum index length is defined per storage engine. See Chapter 14, Storage Engines. All storage engines support at least 16 indexes per table and a total index length of at least 256 bytes. Most storage engines have higher limits.

With col_name(N) syntax in an index specification, you can create an index that uses only the first N characters of a string column. Indexing only a prefix of column values in this way can make the index file much smaller. When you index a BLOB or TEXT column, you must specify a prefix length for the index. For example:

CREATE TABLE test (blob_col BLOB, INDEX(blob_col(10)));

Prefixes can be up to 1000 bytes long (767 bytes for InnoDB tables).

Note

Prefix limits are measured in bytes, while the prefix length in CREATE TABLE statements is interpreted as number of characters. Take this into account when specifying a prefix length for a column that uses a multi-byte character set.

You can also create FULLTEXT indexes. These are used for full-text searches. Only the MyISAM storage engine supports FULLTEXT indexes and only for CHAR, VARCHAR, and TEXT columns. Indexing always takes place over the entire column and column prefix indexing is not supported. For details, see Section 12.9, “Full-Text Search Functions”.

You can also create indexes on spatial data types. Currently, only MyISAM supports R-tree indexes on spatial types. As of MySQL 5.0.16, other storage engines use B-trees for indexing spatial types (except for ARCHIVE and NDBCLUSTER, which do not support spatial type indexing).

The MEMORY storage engine uses HASH indexes by default, but also supports BTREE indexes.