MyISAM is based on the older (and no longer
ISAM storage engine but has many
MyISAM Storage Engine
|Storage limits||256TB||Transactions||No||Locking granularity||Table|
|MVCC||No||Geospatial data type support||Yes||Geospatial indexing support||Yes|
|B-tree indexes||Yes||T-tree indexes||No||Hash indexes||No|
|Full-text search indexes||Yes||Clustered indexes||No||Data caches||No|
|Index caches||Yes||Compressed data||Yes[a]||Encrypted data[b]||Yes|
|Cluster database support||No||Replication support[c]||Yes||Foreign key support||No|
|Backup / point-in-time recovery[d]||Yes||Query cache support||Yes||Update statistics for data dictionary||Yes|
[a] Compressed MyISAM tables are supported only when using the compressed row format. Tables using the compressed row format with MyISAM are read only.
[b] Implemented in the server (via encryption functions), rather than in the storage engine.
[c] Implemented in the server, rather than in the storage engine.
[d] Implemented in the server, rather than in the storage engine.
MyISAM table is stored on disk in three
files. The files have names that begin with the table name and have
an extension to indicate the file type. An
file stores the table format. The data file has an
MYData) extension. The
index file has an
To specify explicitly that you want a
table, indicate that with an
ENGINE table option:
CREATE TABLE t (i INT) ENGINE = MYISAM;
In MySQL 5.6, it is normally necessary to use
ENGINE to specify the
storage engine because
InnoDB is the default
You can check or repair
MyISAM tables with the
mysqlcheck client or myisamchk
utility. You can also compress
MyISAM tables with
myisampack to take up much less space. See
Section 4.5.3, “mysqlcheck — A Table Maintenance Program”, Section 4.6.3, “myisamchk — MyISAM Table-Maintenance Utility”, and
Section 4.6.5, “myisampack — Generate Compressed, Read-Only MyISAM Tables”.
MyISAM tables have the following characteristics:
All data values are stored with the low byte first. This makes the data machine and operating system independent. The only requirements for binary portability are that the machine uses two's-complement signed integers and IEEE floating-point format. These requirements are widely used among mainstream machines. Binary compatibility might not be applicable to embedded systems, which sometimes have peculiar processors.
There is no significant speed penalty for storing data low byte first; the bytes in a table row normally are unaligned and it takes little more processing to read an unaligned byte in order than in reverse order. Also, the code in the server that fetches column values is not time critical compared to other code.
All numeric key values are stored with the high byte first to permit better index compression.
Large files (up to 63-bit file length) are supported on file systems and operating systems that support large files.
There is a limit of
(1.844E+19) rows in a
The maximum number of indexes per
table is 64.
The maximum number of columns per index is 16.
The maximum key length is 1000 bytes. This can also be changed by changing the source and recompiling. For the case of a key longer than 250 bytes, a larger key block size than the default of 1024 bytes is used.
When rows are inserted in sorted order (as when you are using an
AUTO_INCREMENT column), the index tree is
split so that the high node only contains one key. This improves
space utilization in the index tree.
Internal handling of one
column per table is supported.
automatically updates this column for
UPDATE operations. This makes
AUTO_INCREMENT columns faster (at least 10%).
Values at the top of the sequence are not reused after being
deleted. (When an
AUTO_INCREMENT column is
defined as the last column of a multiple-column index, reuse of
values deleted from the top of a sequence does occur.) The
AUTO_INCREMENT value can be reset with
ALTER TABLE or
Dynamic-sized rows are much less fragmented when mixing deletes with updates and inserts. This is done by automatically combining adjacent deleted blocks and by extending blocks if the next block is deleted.
MyISAM supports concurrent inserts: If a
table has no free blocks in the middle of the data file, you can
INSERT new rows into it at the
same time that other threads are reading from the table. A free
block can occur as a result of deleting rows or an update of a
dynamic length row with more data than its current contents.
When all free blocks are used up (filled in), future inserts
become concurrent again. See
Section 8.11.3, “Concurrent Inserts”.
You can put the data file and index file in different
directories on different physical devices to get more speed with
DATA DIRECTORY and
DIRECTORY table options to
TABLE. See Section 13.1.17, “CREATE TABLE Syntax”.
NULL values are permitted in indexed columns.
This takes 0 to 1 bytes per key.
Each character column can have a different character set. See Section 10.1, “Character Set Support”.
There is a flag in the
MyISAM index file that
indicates whether the table was closed correctly. If
mysqld is started with the
MyISAM tables are automatically checked when
opened, and are repaired if the table wasn't closed properly.
myisamchk --analyze stores statistics for portions of keys, as well as for entire keys.
MyISAM also supports the following features:
A forum dedicated to the
engine is available at http://forums.mysql.com/list.php?21.