- 15.1.20.1 Files Created by CREATE TABLE
- 15.1.20.2 CREATE TEMPORARY TABLE Statement
- 15.1.20.3 CREATE TABLE ... LIKE Statement
- 15.1.20.4 CREATE TABLE ... SELECT Statement
- 15.1.20.5 FOREIGN KEY Constraints
- 15.1.20.6 CHECK Constraints
- 15.1.20.7 Silent Column Specification Changes
- 15.1.20.8 CREATE TABLE and Generated Columns
- 15.1.20.9 Secondary Indexes and Generated Columns
- 15.1.20.10 Invisible Columns
- 15.1.20.11 Generated Invisible Primary Keys
- 15.1.20.12 Setting NDB Comment Options
CREATE [TEMPORARY] TABLE [IF NOT EXISTS] tbl_name
(create_definition,...)
[table_options]
[partition_options]
CREATE [TEMPORARY] TABLE [IF NOT EXISTS] tbl_name
[(create_definition,...)]
[table_options]
[partition_options]
[IGNORE | REPLACE]
[AS] query_expression
CREATE [TEMPORARY] TABLE [IF NOT EXISTS] tbl_name
{ LIKE old_tbl_name | (LIKE old_tbl_name) }
create_definition: {
col_name column_definition
| {INDEX | KEY} [index_name] [index_type] (key_part,...)
[index_option] ...
| {FULLTEXT | SPATIAL} [INDEX | KEY] [index_name] (key_part,...)
[index_option] ...
| [CONSTRAINT [symbol]] PRIMARY KEY
[index_type] (key_part,...)
[index_option] ...
| [CONSTRAINT [symbol]] UNIQUE [INDEX | KEY]
[index_name] [index_type] (key_part,...)
[index_option] ...
| [CONSTRAINT [symbol]] FOREIGN KEY
[index_name] (col_name,...)
reference_definition
| check_constraint_definition
}
column_definition: {
data_type [NOT NULL | NULL] [DEFAULT {literal | (expr)} ]
[VISIBLE | INVISIBLE]
[AUTO_INCREMENT] [UNIQUE [KEY]] [[PRIMARY] KEY]
[COMMENT 'string']
[COLLATE collation_name]
[COLUMN_FORMAT {FIXED | DYNAMIC | DEFAULT}]
[ENGINE_ATTRIBUTE [=] 'string']
[SECONDARY_ENGINE_ATTRIBUTE [=] 'string']
[STORAGE {DISK | MEMORY}]
[reference_definition]
[check_constraint_definition]
| data_type
[COLLATE collation_name]
[GENERATED ALWAYS] AS (expr)
[VIRTUAL | STORED] [NOT NULL | NULL]
[VISIBLE | INVISIBLE]
[UNIQUE [KEY]] [[PRIMARY] KEY]
[COMMENT 'string']
[reference_definition]
[check_constraint_definition]
}
data_type:
(see Chapter 13, Data Types)
key_part: {col_name [(length)] | (expr)} [ASC | DESC]
index_type:
USING {BTREE | HASH}
index_option: {
KEY_BLOCK_SIZE [=] value
| index_type
| WITH PARSER parser_name
| COMMENT 'string'
| {VISIBLE | INVISIBLE}
|ENGINE_ATTRIBUTE [=] 'string'
|SECONDARY_ENGINE_ATTRIBUTE [=] 'string'
}
check_constraint_definition:
[CONSTRAINT [symbol]] CHECK (expr) [[NOT] ENFORCED]
reference_definition:
REFERENCES tbl_name (key_part,...)
[MATCH FULL | MATCH PARTIAL | MATCH SIMPLE]
[ON DELETE reference_option]
[ON UPDATE reference_option]
reference_option:
RESTRICT | CASCADE | SET NULL | NO ACTION | SET DEFAULT
table_options:
table_option [[,] table_option] ...
table_option: {
AUTOEXTEND_SIZE [=] value
| AUTO_INCREMENT [=] value
| AVG_ROW_LENGTH [=] value
| [DEFAULT] CHARACTER SET [=] charset_name
| CHECKSUM [=] {0 | 1}
| [DEFAULT] COLLATE [=] collation_name
| COMMENT [=] 'string'
| COMPRESSION [=] {'ZLIB' | 'LZ4' | 'NONE'}
| CONNECTION [=] 'connect_string'
| {DATA | INDEX} DIRECTORY [=] 'absolute path to directory'
| DELAY_KEY_WRITE [=] {0 | 1}
| ENCRYPTION [=] {'Y' | 'N'}
| ENGINE [=] engine_name
| ENGINE_ATTRIBUTE [=] 'string'
| INSERT_METHOD [=] { NO | FIRST | LAST }
| KEY_BLOCK_SIZE [=] value
| MAX_ROWS [=] value
| MIN_ROWS [=] value
| PACK_KEYS [=] {0 | 1 | DEFAULT}
| PASSWORD [=] 'string'
| ROW_FORMAT [=] {DEFAULT | DYNAMIC | FIXED | COMPRESSED | REDUNDANT | COMPACT}
| START TRANSACTION
| SECONDARY_ENGINE_ATTRIBUTE [=] 'string'
| STATS_AUTO_RECALC [=] {DEFAULT | 0 | 1}
| STATS_PERSISTENT [=] {DEFAULT | 0 | 1}
| STATS_SAMPLE_PAGES [=] value
| tablespace_option
| UNION [=] (tbl_name[,tbl_name]...)
}
partition_options:
PARTITION BY
{ [LINEAR] HASH(expr)
| [LINEAR] KEY [ALGORITHM={1 | 2}] (column_list)
| RANGE{(expr) | COLUMNS(column_list)}
| LIST{(expr) | COLUMNS(column_list)} }
[PARTITIONS num]
[SUBPARTITION BY
{ [LINEAR] HASH(expr)
| [LINEAR] KEY [ALGORITHM={1 | 2}] (column_list) }
[SUBPARTITIONS num]
]
[(partition_definition [, partition_definition] ...)]
partition_definition:
PARTITION partition_name
[VALUES
{LESS THAN {(expr | value_list) | MAXVALUE}
|
IN (value_list)}]
[[STORAGE] ENGINE [=] engine_name]
[COMMENT [=] 'string' ]
[DATA DIRECTORY [=] 'data_dir']
[INDEX DIRECTORY [=] 'index_dir']
[MAX_ROWS [=] max_number_of_rows]
[MIN_ROWS [=] min_number_of_rows]
[TABLESPACE [=] tablespace_name]
[(subpartition_definition [, subpartition_definition] ...)]
subpartition_definition:
SUBPARTITION logical_name
[[STORAGE] ENGINE [=] engine_name]
[COMMENT [=] 'string' ]
[DATA DIRECTORY [=] 'data_dir']
[INDEX DIRECTORY [=] 'index_dir']
[MAX_ROWS [=] max_number_of_rows]
[MIN_ROWS [=] min_number_of_rows]
[TABLESPACE [=] tablespace_name]
tablespace_option:
TABLESPACE tablespace_name [STORAGE DISK]
| [TABLESPACE tablespace_name] STORAGE MEMORY
query_expression:
SELECT ... (Some valid select or union statement)
CREATE TABLE
creates a table with
the given name. You must have the
CREATE
privilege for the table.
By default, tables are created in the default database, using the
InnoDB
storage engine. An error
occurs if the table exists, if there is no default database, or if
the database does not exist.
MySQL has no limit on the number of tables. The underlying file
system may have a limit on the number of files that represent
tables. Individual storage engines may impose engine-specific
constraints. InnoDB
permits up to 4 billion
tables.
For information about the physical representation of a table, see Section 15.1.20.1, “Files Created by CREATE TABLE”.
There are several aspects to the CREATE
TABLE
statement, described under the following topics in
this section:
Table Name
tbl_name
The table name can be specified as
db_name.tbl_name
to create the table in a specific database. This works regardless of whether there is a default database, assuming that the database exists. If you use quoted identifiers, quote the database and table names separately. For example, write`mydb`.`mytbl`
, not`mydb.mytbl`
.Rules for permissible table names are given in Section 11.2, “Schema Object Names”.
IF NOT EXISTS
Prevents an error from occurring if the table exists. However, there is no verification that the existing table has a structure identical to that indicated by the
CREATE TABLE
statement.
Temporary Tables
You can use the TEMPORARY
keyword when creating
a table. A TEMPORARY
table is visible only
within the current session, and is dropped automatically when the
session is closed. For more information, see
Section 15.1.20.2, “CREATE TEMPORARY TABLE Statement”.
Table Cloning and Copying
LIKE
Use
CREATE TABLE ... LIKE
to create an empty table based on the definition of another table, including any column attributes and indexes defined in the original table:CREATE TABLE new_tbl LIKE orig_tbl;
For more information, see Section 15.1.20.3, “CREATE TABLE ... LIKE Statement”.
[AS]
query_expression
To create one table from another, add a
SELECT
statement at the end of theCREATE TABLE
statement:CREATE TABLE new_tbl AS SELECT * FROM orig_tbl;
For more information, see Section 15.1.20.4, “CREATE TABLE ... SELECT Statement”.
IGNORE | REPLACE
The
IGNORE
andREPLACE
options indicate how to handle rows that duplicate unique key values when copying a table using aSELECT
statement.For more information, see Section 15.1.20.4, “CREATE TABLE ... SELECT Statement”.
Column Data Types and Attributes
There is a hard limit of 4096 columns per table, but the effective maximum may be less for a given table and depends on the factors discussed in Section 10.4.7, “Limits on Table Column Count and Row Size”.
data_type
data_type
represents the data type in a column definition. For a full description of the syntax available for specifying column data types, as well as information about the properties of each type, see Chapter 13, Data Types.AUTO_INCREMENT
applies only to integer types.Character data types (
CHAR
,VARCHAR
, theTEXT
types,ENUM
,SET
, and any synonyms) can includeCHARACTER SET
to specify the character set for the column.CHARSET
is a synonym forCHARACTER SET
. A collation for the character set can be specified with theCOLLATE
attribute, along with any other attributes. For details, see Chapter 12, Character Sets, Collations, Unicode. Example:CREATE TABLE t (c CHAR(20) CHARACTER SET utf8mb4 COLLATE utf8mb4_bin);
MySQL 9.1 interprets length specifications in character column definitions in characters. Lengths for
BINARY
andVARBINARY
are in bytes.For
CHAR
,VARCHAR
,BINARY
, andVARBINARY
columns, indexes can be created that use only the leading part of column values, using
syntax to specify an index prefix length.col_name
(length
)BLOB
andTEXT
columns also can be indexed, but a prefix length must be given. Prefix lengths are given in characters for nonbinary string types and in bytes for binary string types. That is, index entries consist of the firstlength
characters of each column value forCHAR
,VARCHAR
, andTEXT
columns, and the firstlength
bytes of each column value forBINARY
,VARBINARY
, andBLOB
columns. Indexing only a prefix of column values like this can make the index file much smaller. For additional information about index prefixes, see Section 15.1.15, “CREATE INDEX Statement”.Only the
InnoDB
andMyISAM
storage engines support indexing onBLOB
andTEXT
columns. For example:CREATE TABLE test (blob_col BLOB, INDEX(blob_col(10)));
If a specified index prefix exceeds the maximum column data type size,
CREATE TABLE
handles the index as follows:For a nonunique index, either an error occurs (if strict SQL mode is enabled), or the index length is reduced to lie within the maximum column data type size and a warning is produced (if strict SQL mode is not enabled).
For a unique index, an error occurs regardless of SQL mode because reducing the index length might enable insertion of nonunique entries that do not meet the specified uniqueness requirement.
JSON
columns cannot be indexed. You can work around this restriction by creating an index on a generated column that extracts a scalar value from theJSON
column. See Indexing a Generated Column to Provide a JSON Column Index, for a detailed example.
NOT NULL | NULL
If neither
NULL
norNOT NULL
is specified, the column is treated as thoughNULL
had been specified.In MySQL 9.1, only the
InnoDB
,MyISAM
, andMEMORY
storage engines support indexes on columns that can haveNULL
values. In other cases, you must declare indexed columns asNOT NULL
or an error results.DEFAULT
Specifies a default value for a column. For more information about default value handling, including the case that a column definition includes no explicit
DEFAULT
value, see Section 13.6, “Data Type Default Values”.If the
NO_ZERO_DATE
orNO_ZERO_IN_DATE
SQL mode is enabled and a date-valued default is not correct according to that mode,CREATE TABLE
produces a warning if strict SQL mode is not enabled and an error if strict mode is enabled. For example, withNO_ZERO_IN_DATE
enabled,c1 DATE DEFAULT '2010-00-00'
produces a warning.VISIBLE
,INVISIBLE
Specify column visibility. The default is
VISIBLE
if neither keyword is present. A table must have at least one visible column. Attempting to make all columns invisible produces an error. For more information, see Section 15.1.20.10, “Invisible Columns”.AUTO_INCREMENT
An integer column can have the additional attribute
AUTO_INCREMENT
. When you insert a value ofNULL
(recommended) or0
into an indexedAUTO_INCREMENT
column, the column is set to the next sequence value. Typically this is
, wherevalue
+1value
is the largest value for the column currently in the table.AUTO_INCREMENT
sequences begin with1
.To retrieve an
AUTO_INCREMENT
value after inserting a row, use theLAST_INSERT_ID()
SQL function or themysql_insert_id()
C API function. See Section 14.15, “Information Functions”, and mysql_insert_id().If the
NO_AUTO_VALUE_ON_ZERO
SQL mode is enabled, you can store0
inAUTO_INCREMENT
columns as0
without generating a new sequence value. See Section 7.1.11, “Server SQL Modes”.There can be only one
AUTO_INCREMENT
column per table, it must be indexed, and it cannot have aDEFAULT
value. AnAUTO_INCREMENT
column works properly only if it contains only positive values. Inserting a negative number is regarded as inserting a very large positive number. This is done to avoid precision problems when numbers “wrap” over from positive to negative and also to ensure that you do not accidentally get anAUTO_INCREMENT
column that contains0
.For
MyISAM
tables, you can specify anAUTO_INCREMENT
secondary column in a multiple-column key. See Section 5.6.9, “Using AUTO_INCREMENT”.To make MySQL compatible with some ODBC applications, you can find the
AUTO_INCREMENT
value for the last inserted row with the following query:SELECT * FROM tbl_name WHERE auto_col IS NULL
This method requires that
sql_auto_is_null
variable is not set to 0. See Section 7.1.8, “Server System Variables”.For information about
InnoDB
andAUTO_INCREMENT
, see Section 17.6.1.6, “AUTO_INCREMENT Handling in InnoDB”. For information aboutAUTO_INCREMENT
and MySQL Replication, see Section 19.5.1.1, “Replication and AUTO_INCREMENT”.COMMENT
A comment for a column can be specified with the
COMMENT
option, up to 1024 characters long. The comment is displayed by theSHOW CREATE TABLE
andSHOW FULL COLUMNS
statements. It is also shown in theCOLUMN_COMMENT
column of the Information SchemaCOLUMNS
table.COLUMN_FORMAT
In NDB Cluster, it is also possible to specify a data storage format for individual columns of
NDB
tables usingCOLUMN_FORMAT
. Permissible column formats areFIXED
,DYNAMIC
, andDEFAULT
.FIXED
is used to specify fixed-width storage,DYNAMIC
permits the column to be variable-width, andDEFAULT
causes the column to use fixed-width or variable-width storage as determined by the column's data type (possibly overridden by aROW_FORMAT
specifier).For
NDB
tables, the default value forCOLUMN_FORMAT
isFIXED
.In NDB Cluster, the maximum possible offset for a column defined with
COLUMN_FORMAT=FIXED
is 8188 bytes. For more information and possible workarounds, see Section 25.2.7.5, “Limits Associated with Database Objects in NDB Cluster”.COLUMN_FORMAT
currently has no effect on columns of tables using storage engines other thanNDB
. MySQL 9.1 silently ignoresCOLUMN_FORMAT
.ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
options are used to specify column attributes for primary and secondary storage engines. The options are reserved for future use.The value assigned to this option is a string literal containing a valid JSON document or an empty string (''). Invalid JSON is rejected.
CREATE TABLE t1 (c1 INT ENGINE_ATTRIBUTE='{"key":"value"}');
ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
values can be repeated without error. In this case, the last specified value is used.ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
values are not checked by the server, nor are they cleared when the table's storage engine is changed.STORAGE
For
NDB
tables, it is possible to specify whether the column is stored on disk or in memory by using aSTORAGE
clause.STORAGE DISK
causes the column to be stored on disk, andSTORAGE MEMORY
causes in-memory storage to be used. TheCREATE TABLE
statement used must still include aTABLESPACE
clause:mysql> CREATE TABLE t1 ( -> c1 INT STORAGE DISK, -> c2 INT STORAGE MEMORY -> ) ENGINE NDB; ERROR 1005 (HY000): Can't create table 'c.t1' (errno: 140) mysql> CREATE TABLE t1 ( -> c1 INT STORAGE DISK, -> c2 INT STORAGE MEMORY -> ) TABLESPACE ts_1 ENGINE NDB; Query OK, 0 rows affected (1.06 sec)
For
NDB
tables,STORAGE DEFAULT
is equivalent toSTORAGE MEMORY
.The
STORAGE
clause has no effect on tables using storage engines other thanNDB
. TheSTORAGE
keyword is supported only in the build of mysqld that is supplied with NDB Cluster; it is not recognized in any other version of MySQL, where any attempt to use theSTORAGE
keyword causes a syntax error.GENERATED ALWAYS
Used to specify a generated column expression. For information about generated columns, see Section 15.1.20.8, “CREATE TABLE and Generated Columns”.
Stored generated columns can be indexed.
InnoDB
supports secondary indexes on virtual generated columns. See Section 15.1.20.9, “Secondary Indexes and Generated Columns”.
Indexes, Foreign Keys, and CHECK Constraints
Several keywords apply to creation of indexes, foreign keys, and
CHECK
constraints. For general background in
addition to the following descriptions, see
Section 15.1.15, “CREATE INDEX Statement”,
Section 15.1.20.5, “FOREIGN KEY Constraints”, and
Section 15.1.20.6, “CHECK Constraints”.
CONSTRAINT
symbol
The
CONSTRAINT
clause may be given to name a constraint. If the clause is not given, or asymbol
symbol
is not included following theCONSTRAINT
keyword, MySQL automatically generates a constraint name, with the exception noted below. Thesymbol
value, if used, must be unique per schema (database), per constraint type. A duplicatesymbol
results in an error. See also the discussion about length limits of generated constraint identifiers at Section 11.2.1, “Identifier Length Limits”.NoteIf the
CONSTRAINT
clause is not given in a foreign key definition, or asymbol
symbol
is not included following theCONSTRAINT
keyword, MySQL automatically generates a constraint name.The SQL standard specifies that all types of constraints (primary key, unique index, foreign key, check) belong to the same namespace. In MySQL, each constraint type has its own namespace per schema. Consequently, names for each type of constraint must be unique per schema, but constraints of different types can have the same name.
PRIMARY KEY
A unique index where all key columns must be defined as
NOT NULL
. If they are not explicitly declared asNOT NULL
, MySQL declares them so implicitly (and silently). A table can have only onePRIMARY KEY
. The name of aPRIMARY KEY
is alwaysPRIMARY
, which thus cannot be used as the name for any other kind of index.If you do not have a
PRIMARY KEY
and an application asks for thePRIMARY KEY
in your tables, MySQL returns the firstUNIQUE
index that has noNULL
columns as thePRIMARY KEY
.In
InnoDB
tables, keep thePRIMARY KEY
short to minimize storage overhead for secondary indexes. Each secondary index entry contains a copy of the primary key columns for the corresponding row. (See Section 17.6.2.1, “Clustered and Secondary Indexes”.)In the created table, a
PRIMARY KEY
is placed first, followed by allUNIQUE
indexes, and then the nonunique indexes. This helps the MySQL optimizer to prioritize which index to use and also more quickly to detect duplicatedUNIQUE
keys.A
PRIMARY KEY
can be a multiple-column index. However, you cannot create a multiple-column index using thePRIMARY KEY
key attribute in a column specification. Doing so only marks that single column as primary. You must use a separatePRIMARY KEY(
clause.key_part
, ...)If a table has a
PRIMARY KEY
orUNIQUE NOT NULL
index that consists of a single column that has an integer type, you can use_rowid
to refer to the indexed column inSELECT
statements, as described in Unique Indexes.In MySQL, the name of a
PRIMARY KEY
isPRIMARY
. For other indexes, if you do not assign a name, the index is assigned the same name as the first indexed column, with an optional suffix (_2
,_3
,...
) to make it unique. You can see index names for a table usingSHOW INDEX FROM
. See Section 15.7.7.23, “SHOW INDEX Statement”.tbl_name
KEY | INDEX
KEY
is normally a synonym forINDEX
. The key attributePRIMARY KEY
can also be specified as justKEY
when given in a column definition. This was implemented for compatibility with other database systems.UNIQUE
A
UNIQUE
index creates a constraint such that all values in the index must be distinct. An error occurs if you try to add a new row with a key value that matches an existing row. For all engines, aUNIQUE
index permits multipleNULL
values for columns that can containNULL
. If you specify a prefix value for a column in aUNIQUE
index, the column values must be unique within the prefix length.If a table has a
PRIMARY KEY
orUNIQUE NOT NULL
index that consists of a single column that has an integer type, you can use_rowid
to refer to the indexed column inSELECT
statements, as described in Unique Indexes.FULLTEXT
A
FULLTEXT
index is a special type of index used for full-text searches. Only theInnoDB
andMyISAM
storage engines supportFULLTEXT
indexes. They can be created only fromCHAR
,VARCHAR
, andTEXT
columns. Indexing always happens over the entire column; column prefix indexing is not supported and any prefix length is ignored if specified. See Section 14.9, “Full-Text Search Functions”, for details of operation. AWITH PARSER
clause can be specified as anindex_option
value to associate a parser plugin with the index if full-text indexing and searching operations need special handling. This clause is valid only forFULLTEXT
indexes.InnoDB
andMyISAM
support full-text parser plugins. See Full-Text Parser Plugins and Writing Full-Text Parser Plugins for more information.SPATIAL
You can create
SPATIAL
indexes on spatial data types. Spatial types are supported only forInnoDB
andMyISAM
tables, and indexed columns must be declared asNOT NULL
. See Section 13.4, “Spatial Data Types”.FOREIGN KEY
MySQL supports foreign keys, which let you cross-reference related data across tables, and foreign key constraints, which help keep this spread-out data consistent. For definition and option information, see
reference_definition
, andreference_option
.Partitioned tables employing the
InnoDB
storage engine do not support foreign keys. See Section 26.6, “Restrictions and Limitations on Partitioning”, for more information.CHECK
The
CHECK
clause enables the creation of constraints to be checked for data values in table rows. See Section 15.1.20.6, “CHECK Constraints”.key_part
A
key_part
specification can end withASC
orDESC
to specify whether index values are stored in ascending or descending order. The default is ascending if no order specifier is given.Prefixes, defined by the
length
attribute, can be up to 767 bytes long forInnoDB
tables that use theREDUNDANT
orCOMPACT
row format. The prefix length limit is 3072 bytes forInnoDB
tables that use theDYNAMIC
orCOMPRESSED
row format. ForMyISAM
tables, the prefix length limit is 1000 bytes.Prefix limits are measured in bytes. However, prefix lengths for index specifications in
CREATE TABLE
,ALTER TABLE
, andCREATE INDEX
statements are interpreted as number of characters for nonbinary string types (CHAR
,VARCHAR
,TEXT
) and number of bytes for binary string types (BINARY
,VARBINARY
,BLOB
). Take this into account when specifying a prefix length for a nonbinary string column that uses a multibyte character set.The
expr
for akey_part
specification can take the form(CAST
to create a multi-valued index on ajson_path
AStype
ARRAY)JSON
column. Multi-Valued Indexes, provides detailed information regarding creation of, usage of, and restrictions and limitations on multi-valued indexes.
index_type
Some storage engines permit you to specify an index type when creating an index. The syntax for the
index_type
specifier isUSING
.type_name
Example:
CREATE TABLE lookup (id INT, INDEX USING BTREE (id) ) ENGINE = MEMORY;
The preferred position for
USING
is after the index column list. It can be given before the column list, but support for use of the option in that position is deprecated and you should expect it to be removed in a future MySQL release.index_option
index_option
values specify additional options for an index.KEY_BLOCK_SIZE
For
MyISAM
tables,KEY_BLOCK_SIZE
optionally specifies the size in bytes to use for index key blocks. The value is treated as a hint; a different size could be used if necessary. AKEY_BLOCK_SIZE
value specified for an individual index definition overrides the table-levelKEY_BLOCK_SIZE
value.For information about the table-level
KEY_BLOCK_SIZE
attribute, see Table Options.WITH PARSER
The
WITH PARSER
option can be used only withFULLTEXT
indexes. It associates a parser plugin with the index if full-text indexing and searching operations need special handling.InnoDB
andMyISAM
support full-text parser plugins. If you have aMyISAM
table with an associated full-text parser plugin, you can convert the table toInnoDB
usingALTER TABLE
.COMMENT
Index definitions can include an optional comment of up to 1024 characters.
You can set the
InnoDB
MERGE_THRESHOLD
value for an individual index using theindex_option
COMMENT
clause. See Section 17.8.11, “Configuring the Merge Threshold for Index Pages”.VISIBLE
,INVISIBLE
Specify index visibility. Indexes are visible by default. An invisible index is not used by the optimizer. Specification of index visibility applies to indexes other than primary keys (either explicit or implicit). For more information, see Section 10.3.12, “Invisible Indexes”.
ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
options are used to specify index attributes for primary and secondary storage engines. The options are reserved for future use.
For more information about permissible
index_option
values, see Section 15.1.15, “CREATE INDEX Statement”. For more information about indexes, see Section 10.3.1, “How MySQL Uses Indexes”.For
reference_definition
syntax details and examples, see Section 15.1.20.5, “FOREIGN KEY Constraints”.InnoDB
andNDB
tables support checking of foreign key constraints. The columns of the referenced table must always be explicitly named. BothON DELETE
andON UPDATE
actions on foreign keys are supported. For more detailed information and examples, see Section 15.1.20.5, “FOREIGN KEY Constraints”.For other storage engines, MySQL Server parses and ignores the
FOREIGN KEY
syntax inCREATE TABLE
statements.ImportantFor users familiar with the ANSI/ISO SQL Standard, please note that no storage engine, including
InnoDB
, recognizes or enforces theMATCH
clause used in referential integrity constraint definitions. Use of an explicitMATCH
clause does not have the specified effect, and also causesON DELETE
andON UPDATE
clauses to be ignored. For these reasons, specifyingMATCH
should be avoided.The
MATCH
clause in the SQL standard controls howNULL
values in a composite (multiple-column) foreign key are handled when comparing to a primary key.InnoDB
essentially implements the semantics defined byMATCH SIMPLE
, which permit a foreign key to be all or partiallyNULL
. In that case, the (child table) row containing such a foreign key is permitted to be inserted, and does not match any row in the referenced (parent) table. It is possible to implement other semantics using triggers.Additionally, MySQL requires that the referenced columns be indexed for performance. However,
InnoDB
does not enforce any requirement that the referenced columns be declaredUNIQUE
orNOT NULL
. The handling of foreign key references to nonunique keys or keys that containNULL
values is not well defined for operations such asUPDATE
orDELETE CASCADE
. You are advised to use foreign keys that reference only keys that are bothUNIQUE
(orPRIMARY
) andNOT NULL
.MySQL accepts “inline
REFERENCES
specifications” (as defined in the SQL standard) where the references are defined as part of the column specification. MySQL also accepts implicit references to the parent table's primary key. For more information, see Section 15.1.20.5, “FOREIGN KEY Constraints”, as well as Section 1.7.2.3, “FOREIGN KEY Constraint Differences”.For information about the
RESTRICT
,CASCADE
,SET NULL
,NO ACTION
, andSET DEFAULT
options, see Section 15.1.20.5, “FOREIGN KEY Constraints”.
Table Options
Table options are used to optimize the behavior of the table. In
most cases, you do not have to specify any of them. These options
apply to all storage engines unless otherwise indicated. Options
that do not apply to a given storage engine may be accepted and
remembered as part of the table definition. Such options then
apply if you later use ALTER TABLE
to convert the table to use a different storage engine.
ENGINE
Specifies the storage engine for the table, using one of the names shown in the following table. The engine name can be unquoted or quoted. The quoted name
'DEFAULT'
is recognized but ignored.Storage Engine Description InnoDB
Transaction-safe tables with row locking and foreign keys. The default storage engine for new tables. See Chapter 17, The InnoDB Storage Engine, and in particular Section 17.1, “Introduction to InnoDB” if you have MySQL experience but are new to InnoDB
.MyISAM
The binary portable storage engine that is primarily used for read-only or read-mostly workloads. See Section 18.2, “The MyISAM Storage Engine”. MEMORY
The data for this storage engine is stored only in memory. See Section 18.3, “The MEMORY Storage Engine”. CSV
Tables that store rows in comma-separated values format. See Section 18.4, “The CSV Storage Engine”. ARCHIVE
The archiving storage engine. See Section 18.5, “The ARCHIVE Storage Engine”. EXAMPLE
An example engine. See Section 18.9, “The EXAMPLE Storage Engine”. FEDERATED
Storage engine that accesses remote tables. See Section 18.8, “The FEDERATED Storage Engine”. HEAP
This is a synonym for MEMORY
.MERGE
A collection of MyISAM
tables used as one table. Also known asMRG_MyISAM
. See Section 18.7, “The MERGE Storage Engine”.NDB
Clustered, fault-tolerant, memory-based tables, supporting transactions and foreign keys. Also known as NDBCLUSTER
. See Chapter 25, MySQL NDB Cluster 9.1.By default, if a storage engine is specified that is not available, the statement fails with an error. You can override this behavior by removing
NO_ENGINE_SUBSTITUTION
from the server SQL mode (see Section 7.1.11, “Server SQL Modes”) so that MySQL allows substitution of the specified engine with the default storage engine instead. Normally in such cases, this isInnoDB
, which is the default value for thedefault_storage_engine
system variable. WhenNO_ENGINE_SUBSTITUTION
is disabled, a warning occurs if the storage engine specification is not honored.AUTOEXTEND_SIZE
Defines the amount by which
InnoDB
extends the size of the tablespace when it becomes full. The setting must be a multiple of 4MB. The default setting is 0, which causes the tablespace to be extended according to the implicit default behavior. For more information, see Section 17.6.3.9, “Tablespace AUTOEXTEND_SIZE Configuration”.AUTO_INCREMENT
The initial
AUTO_INCREMENT
value for the table. In MySQL 9.1, this works forMyISAM
,MEMORY
,InnoDB
, andARCHIVE
tables. To set the first auto-increment value for engines that do not support theAUTO_INCREMENT
table option, insert a “dummy” row with a value one less than the desired value after creating the table, and then delete the dummy row.For engines that support the
AUTO_INCREMENT
table option inCREATE TABLE
statements, you can also useALTER TABLE
to reset thetbl_name
AUTO_INCREMENT =N
AUTO_INCREMENT
value. The value cannot be set lower than the maximum value currently in the column.AVG_ROW_LENGTH
An approximation of the average row length for your table. You need to set this only for large tables with variable-size rows.
When you create a
MyISAM
table, MySQL uses the product of theMAX_ROWS
andAVG_ROW_LENGTH
options to decide how big the resulting table is. If you don't specify either option, the maximum size forMyISAM
data and index files is 256TB by default. (If your operating system does not support files that large, table sizes are constrained by the file size limit.) If you want to keep down the pointer sizes to make the index smaller and faster and you don't really need big files, you can decrease the default pointer size by setting themyisam_data_pointer_size
system variable. (See Section 7.1.8, “Server System Variables”.) If you want all your tables to be able to grow above the default limit and are willing to have your tables slightly slower and larger than necessary, you can increase the default pointer size by setting this variable. Setting the value to 7 permits table sizes up to 65,536TB.[DEFAULT] CHARACTER SET
Specifies a default character set for the table.
CHARSET
is a synonym forCHARACTER SET
. If the character set name isDEFAULT
, the database character set is used.CHECKSUM
Set this to 1 if you want MySQL to maintain a live checksum for all rows (that is, a checksum that MySQL updates automatically as the table changes). This makes the table a little slower to update, but also makes it easier to find corrupted tables. The
CHECKSUM TABLE
statement reports the checksum. (MyISAM
only.)[DEFAULT] COLLATE
Specifies a default collation for the table.
COMMENT
A comment for the table, up to 2048 characters long.
You can set the
InnoDB
MERGE_THRESHOLD
value for a table using thetable_option
COMMENT
clause. See Section 17.8.11, “Configuring the Merge Threshold for Index Pages”.Setting NDB_TABLE options. The table comment in a
CREATE TABLE
that creates anNDB
table or anALTER TABLE
statement which alters one can also be used to specify one to four of theNDB_TABLE
optionsNOLOGGING
,READ_BACKUP
,PARTITION_BALANCE
, orFULLY_REPLICATED
as a set of name-value pairs, separated by commas if need be, immediately following the stringNDB_TABLE=
that begins the quoted comment text. An example statement using this syntax is shown here (emphasized text):CREATE TABLE t1 ( c1 INT NOT NULL AUTO_INCREMENT PRIMARY KEY, c2 VARCHAR(100), c3 VARCHAR(100) ) ENGINE=NDB COMMENT="NDB_TABLE=READ_BACKUP=0,PARTITION_BALANCE=FOR_RP_BY_NODE";
Spaces are not permitted within the quoted string. The string is case-insensitive.
The comment is displayed as part of the output of
SHOW CREATE TABLE
. The text of the comment is also available as the TABLE_COMMENT column of the MySQL Information SchemaTABLES
table.This comment syntax is also supported with
ALTER TABLE
statements forNDB
tables. Keep in mind that a table comment used withALTER TABLE
replaces any existing comment which the table might have had previously.Setting the
MERGE_THRESHOLD
option in table comments is not supported forNDB
tables (it is ignored).For complete syntax information and examples, see Section 15.1.20.12, “Setting NDB Comment Options”.
COMPRESSION
The compression algorithm used for page level compression for
InnoDB
tables. Supported values includeZlib
,LZ4
, andNone
. TheCOMPRESSION
attribute was introduced with the transparent page compression feature. Page compression is only supported withInnoDB
tables that reside in file-per-table tablespaces, and is only available on Linux and Windows platforms that support sparse files and hole punching. For more information, see Section 17.9.2, “InnoDB Page Compression”.CONNECTION
The connection string for a
FEDERATED
table.NoteOlder versions of MySQL used a
COMMENT
option for the connection string.DATA DIRECTORY
,INDEX DIRECTORY
For
InnoDB
, theDATA DIRECTORY='
clause permits creating tables outside of the data directory. Thedirectory
'innodb_file_per_table
variable must be enabled to use theDATA DIRECTORY
clause. The full directory path must be specified, and known toInnoDB
. For more information, see Section 17.6.1.2, “Creating Tables Externally”.When creating
MyISAM
tables, you can use theDATA DIRECTORY='
clause, thedirectory
'INDEX DIRECTORY='
clause, or both. They specify where to put adirectory
'MyISAM
table's data file and index file, respectively. UnlikeInnoDB
tables, MySQL does not create subdirectories that correspond to the database name when creating aMyISAM
table with aDATA DIRECTORY
orINDEX DIRECTORY
option. Files are created in the directory that is specified.You must have the
FILE
privilege to use theDATA DIRECTORY
orINDEX DIRECTORY
table option.ImportantTable-level
DATA DIRECTORY
andINDEX DIRECTORY
options are ignored for partitioned tables. (Bug #32091)These options work only when you are not using the
--skip-symbolic-links
option. Your operating system must also have a working, thread-saferealpath()
call. See Section 10.12.2.2, “Using Symbolic Links for MyISAM Tables on Unix”, for more complete information.If a
MyISAM
table is created with noDATA DIRECTORY
option, the.MYD
file is created in the database directory. By default, ifMyISAM
finds an existing.MYD
file in this case, it overwrites it. The same applies to.MYI
files for tables created with noINDEX DIRECTORY
option. To suppress this behavior, start the server with the--keep_files_on_create
option, in which caseMyISAM
does not overwrite existing files and returns an error instead.If a
MyISAM
table is created with aDATA DIRECTORY
orINDEX DIRECTORY
option and an existing.MYD
or.MYI
file is found,MyISAM
always returns an error, and does not overwrite a file in the specified directory.ImportantYou cannot use path names that contain the MySQL data directory with
DATA DIRECTORY
orINDEX DIRECTORY
. This includes partitioned tables and individual table partitions. (See Bug #32167.)DELAY_KEY_WRITE
Set this to 1 if you want to delay key updates for the table until the table is closed. See the description of the
delay_key_write
system variable in Section 7.1.8, “Server System Variables”. (MyISAM
only.)ENCRYPTION
The
ENCRYPTION
clause enables or disables page-level data encryption for anInnoDB
table. A keyring plugin must be installed and configured before encryption can be enabled. TheENCRYPTION
clause can be specified when creating a table in an a file-per-table tablespace, or when creating a table in a general tablespace.The
ENCRYPTION
option is supported only by theInnoDB
storage engine; thus it works only if the default storage engine isInnoDB
, or if theCREATE TABLE
statement also specifiesENGINE=InnoDB
. Otherwise the statement is rejected withER_CHECK_NOT_IMPLEMENTED
.A table inherits the default schema encryption if an
ENCRYPTION
clause is not specified. If thetable_encryption_privilege_check
variable is enabled, theTABLE_ENCRYPTION_ADMIN
privilege is required to create a table with anENCRYPTION
clause setting that differs from the default schema encryption. When creating a table in a general tablespace, table and tablespace encryption must match.Specifying an
ENCRYPTION
clause with a value other than'N'
or''
is not permitted when using a storage engine that does not support encryption.For more information, see Section 17.13, “InnoDB Data-at-Rest Encryption”.
The
ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
options are used to specify table attributes for primary and secondary storage engines. The options are reserved for future use.The value assigned to either of these options must be a string literal containing a valid JSON document or an empty string (''). Invalid JSON is rejected.
CREATE TABLE t1 (c1 INT) ENGINE_ATTRIBUTE='{"key":"value"}';
ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
values can be repeated without error. In this case, the last specified value is used.ENGINE_ATTRIBUTE
andSECONDARY_ENGINE_ATTRIBUTE
values are not checked by the server, nor are they cleared when the table's storage engine is changed.INSERT_METHOD
If you want to insert data into a
MERGE
table, you must specify withINSERT_METHOD
the table into which the row should be inserted.INSERT_METHOD
is an option useful forMERGE
tables only. Use a value ofFIRST
orLAST
to have inserts go to the first or last table, or a value ofNO
to prevent inserts. See Section 18.7, “The MERGE Storage Engine”.KEY_BLOCK_SIZE
For
MyISAM
tables,KEY_BLOCK_SIZE
optionally specifies the size in bytes to use for index key blocks. The value is treated as a hint; a different size could be used if necessary. AKEY_BLOCK_SIZE
value specified for an individual index definition overrides the table-levelKEY_BLOCK_SIZE
value.For
InnoDB
tables,KEY_BLOCK_SIZE
specifies the page size in kilobytes to use for compressedInnoDB
tables. TheKEY_BLOCK_SIZE
value is treated as a hint; a different size could be used byInnoDB
if necessary.KEY_BLOCK_SIZE
can only be less than or equal to theinnodb_page_size
value. A value of 0 represents the default compressed page size, which is half of theinnodb_page_size
value. Depending oninnodb_page_size
, possibleKEY_BLOCK_SIZE
values include 0, 1, 2, 4, 8, and 16. See Section 17.9.1, “InnoDB Table Compression” for more information.Oracle recommends enabling
innodb_strict_mode
when specifyingKEY_BLOCK_SIZE
forInnoDB
tables. Wheninnodb_strict_mode
is enabled, specifying an invalidKEY_BLOCK_SIZE
value returns an error. Ifinnodb_strict_mode
is disabled, an invalidKEY_BLOCK_SIZE
value results in a warning, and theKEY_BLOCK_SIZE
option is ignored.The
Create_options
column in response toSHOW TABLE STATUS
reports the actualKEY_BLOCK_SIZE
used by the table, as doesSHOW CREATE TABLE
.InnoDB
only supportsKEY_BLOCK_SIZE
at the table level.KEY_BLOCK_SIZE
is not supported with 32KB and 64KBinnodb_page_size
values.InnoDB
table compression does not support these pages sizes.InnoDB
does not support theKEY_BLOCK_SIZE
option when creating temporary tables.MAX_ROWS
The maximum number of rows you plan to store in the table. This is not a hard limit, but rather a hint to the storage engine that the table must be able to store at least this many rows.
ImportantThe use of
MAX_ROWS
withNDB
tables to control the number of table partitions is deprecated. It remains supported in later versions for backward compatibility, but is subject to removal in a future release. Use PARTITION_BALANCE instead; see Setting NDB_TABLE options.The
NDB
storage engine treats this value as a maximum. If you plan to create very large NDB Cluster tables (containing millions of rows), you should use this option to insure thatNDB
allocates sufficient number of index slots in the hash table used for storing hashes of the table's primary keys by settingMAX_ROWS = 2 *
, whererows
rows
is the number of rows that you expect to insert into the table.The maximum
MAX_ROWS
value is 4294967295; larger values are truncated to this limit.MIN_ROWS
The minimum number of rows you plan to store in the table. The
MEMORY
storage engine uses this option as a hint about memory use.PACK_KEYS
Takes effect only with
MyISAM
tables. Set this option to 1 if you want to have smaller indexes. This usually makes updates slower and reads faster. Setting the option to 0 disables all packing of keys. Setting it toDEFAULT
tells the storage engine to pack only longCHAR
,VARCHAR
,BINARY
, orVARBINARY
columns.If you do not use
PACK_KEYS
, the default is to pack strings, but not numbers. If you usePACK_KEYS=1
, numbers are packed as well.When packing binary number keys, MySQL uses prefix compression:
Every key needs one extra byte to indicate how many bytes of the previous key are the same for the next key.
The pointer to the row is stored in high-byte-first order directly after the key, to improve compression.
This means that if you have many equal keys on two consecutive rows, all following “same” keys usually only take two bytes (including the pointer to the row). Compare this to the ordinary case where the following keys takes
storage_size_for_key + pointer_size
(where the pointer size is usually 4). Conversely, you get a significant benefit from prefix compression only if you have many numbers that are the same. If all keys are totally different, you use one byte more per key, if the key is not a key that can haveNULL
values. (In this case, the packed key length is stored in the same byte that is used to mark if a key isNULL
.)PASSWORD
This option is unused.
ROW_FORMAT
Defines the physical format in which the rows are stored.
When creating a table with strict mode disabled, the storage engine's default row format is used if the specified row format is not supported. The actual row format of the table is reported in the
Row_format
column in response toSHOW TABLE STATUS
. TheCreate_options
column shows the row format that was specified in theCREATE TABLE
statement, as doesSHOW CREATE TABLE
.Row format choices differ depending on the storage engine used for the table.
For
InnoDB
tables:The default row format is defined by
innodb_default_row_format
, which has a default setting ofDYNAMIC
. The default row format is used when theROW_FORMAT
option is not defined or whenROW_FORMAT=DEFAULT
is used.If the
ROW_FORMAT
option is not defined, or ifROW_FORMAT=DEFAULT
is used, operations that rebuild a table also silently change the row format of the table to the default defined byinnodb_default_row_format
. For more information, see Defining the Row Format of a Table.For more efficient
InnoDB
storage of data types, especiallyBLOB
types, use theDYNAMIC
. See DYNAMIC Row Format for requirements associated with theDYNAMIC
row format.To enable compression for
InnoDB
tables, specifyROW_FORMAT=COMPRESSED
. TheROW_FORMAT=COMPRESSED
option is not supported when creating temporary tables. See Section 17.9, “InnoDB Table and Page Compression” for requirements associated with theCOMPRESSED
row format.The row format used in older versions of MySQL can still be requested by specifying the
REDUNDANT
row format.When you specify a non-default
ROW_FORMAT
clause, consider also enabling theinnodb_strict_mode
configuration option.ROW_FORMAT=FIXED
is not supported. IfROW_FORMAT=FIXED
is specified whileinnodb_strict_mode
is disabled,InnoDB
issues a warning and assumesROW_FORMAT=DYNAMIC
. IfROW_FORMAT=FIXED
is specified whileinnodb_strict_mode
is enabled, which is the default,InnoDB
returns an error.For additional information about
InnoDB
row formats, see Section 17.10, “InnoDB Row Formats”.
For
MyISAM
tables, the option value can beFIXED
orDYNAMIC
for static or variable-length row format. myisampack sets the type toCOMPRESSED
. See Section 18.2.3, “MyISAM Table Storage Formats”.For
NDB
tables, the defaultROW_FORMAT
isDYNAMIC
.START TRANSACTION
This is an internal-use table option, used to permit
CREATE TABLE ... SELECT
to be logged as a single, atomic transaction in the binary log when using row-based replication with a storage engine that supports atomic DDL. OnlyBINLOG
,COMMIT
, andROLLBACK
statements are permitted afterCREATE TABLE ... START TRANSACTION
. For related information, see Section 15.1.1, “Atomic Data Definition Statement Support”.STATS_AUTO_RECALC
Specifies whether to automatically recalculate persistent statistics for an
InnoDB
table. The valueDEFAULT
causes the persistent statistics setting for the table to be determined by theinnodb_stats_auto_recalc
configuration option. The value1
causes statistics to be recalculated when 10% of the data in the table has changed. The value0
prevents automatic recalculation for this table; with this setting, issue anANALYZE TABLE
statement to recalculate the statistics after making substantial changes to the table. For more information about the persistent statistics feature, see Section 17.8.10.1, “Configuring Persistent Optimizer Statistics Parameters”.STATS_PERSISTENT
Specifies whether to enable persistent statistics for an
InnoDB
table. The valueDEFAULT
causes the persistent statistics setting for the table to be determined by theinnodb_stats_persistent
configuration option. The value1
enables persistent statistics for the table, while the value0
turns off this feature. After enabling persistent statistics through aCREATE TABLE
orALTER TABLE
statement, issue anANALYZE TABLE
statement to calculate the statistics, after loading representative data into the table. For more information about the persistent statistics feature, see Section 17.8.10.1, “Configuring Persistent Optimizer Statistics Parameters”.STATS_SAMPLE_PAGES
The number of index pages to sample when estimating cardinality and other statistics for an indexed column, such as those calculated by
ANALYZE TABLE
. For more information, see Section 17.8.10.1, “Configuring Persistent Optimizer Statistics Parameters”.TABLESPACE
The
TABLESPACE
clause can be used to create anInnoDB
table in an existing general tablespace, a file-per-table tablespace, or the system tablespace.CREATE TABLE tbl_name ... TABLESPACE [=] tablespace_name
The general tablespace that you specify must exist prior to using the
TABLESPACE
clause. For information about general tablespaces, see Section 17.6.3.3, “General Tablespaces”.The
is a case-sensitive identifier. It may be quoted or unquoted. The forward slash character (“/”) is not permitted. Names beginning with “innodb_” are reserved for special use.tablespace_name
To create a table in the system tablespace, specify
innodb_system
as the tablespace name.CREATE TABLE tbl_name ... TABLESPACE [=] innodb_system
Using
TABLESPACE [=] innodb_system
, you can place a table of any uncompressed row format in the system tablespace regardless of theinnodb_file_per_table
setting. For example, you can add a table withROW_FORMAT=DYNAMIC
to the system tablespace usingTABLESPACE [=] innodb_system
.To create a table in a file-per-table tablespace, specify
innodb_file_per_table
as the tablespace name.CREATE TABLE tbl_name ... TABLESPACE [=] innodb_file_per_table
NoteIf
innodb_file_per_table
is enabled, you need not specifyTABLESPACE=innodb_file_per_table
to create anInnoDB
file-per-table tablespace.InnoDB
tables are created in file-per-table tablespaces by default wheninnodb_file_per_table
is enabled.The
DATA DIRECTORY
clause is permitted withCREATE TABLE ... TABLESPACE=innodb_file_per_table
but is otherwise not supported for use in combination with theTABLESPACE
clause. The directory specified in aDATA DIRECTORY
clause must be known toInnoDB
. For more information, see Using the DATA DIRECTORY Clause.NoteSupport for
TABLESPACE = innodb_file_per_table
andTABLESPACE = innodb_temporary
clauses withCREATE TEMPORARY TABLE
is deprecated; expect it to be removed in a future version of MySQL.The
STORAGE
table option is employed only withNDB
tables.STORAGE
determines the type of storage used, and can be either ofDISK
orMEMORY
.TABLESPACE ... STORAGE DISK
assigns a table to an NDB Cluster Disk Data tablespace.STORAGE DISK
cannot be used inCREATE TABLE
unless preceded byTABLESPACE
tablespace_name
.For
STORAGE MEMORY
, the tablespace name is optional, thus, you can useTABLESPACE
or simplytablespace_name
STORAGE MEMORYSTORAGE MEMORY
to specify explicitly that the table is in-memory.See Section 25.6.11, “NDB Cluster Disk Data Tables”, for more information.
Used to access a collection of identical
MyISAM
tables as one. This works only withMERGE
tables. See Section 18.7, “The MERGE Storage Engine”.You must have
SELECT
,UPDATE
, andDELETE
privileges for the tables you map to aMERGE
table.NoteFormerly, all tables used had to be in the same database as the
MERGE
table itself. This restriction no longer applies.
Table Partitioning
partition_options
can be used to
control partitioning of the table created with
CREATE TABLE
.
Not all options shown in the syntax for
partition_options
at the beginning of
this section are available for all partitioning types. Please see
the listings for the following individual types for information
specific to each type, and see Chapter 26, Partitioning, for
more complete information about the workings of and uses for
partitioning in MySQL, as well as additional examples of table
creation and other statements relating to MySQL partitioning.
Partitions can be modified, merged, added to tables, and dropped from tables. For basic information about the MySQL statements to accomplish these tasks, see Section 15.1.9, “ALTER TABLE Statement”. For more detailed descriptions and examples, see Section 26.3, “Partition Management”.
PARTITION BY
If used, a
partition_options
clause begins withPARTITION BY
. This clause contains the function that is used to determine the partition; the function returns an integer value ranging from 1 tonum
, wherenum
is the number of partitions. (The maximum number of user-defined partitions which a table may contain is 1024; the number of subpartitions—discussed later in this section—is included in this maximum.)NoteThe expression (
expr
) used in aPARTITION BY
clause cannot refer to any columns not in the table being created; such references are specifically not permitted and cause the statement to fail with an error. (Bug #29444)HASH(
expr
)Hashes one or more columns to create a key for placing and locating rows.
expr
is an expression using one or more table columns. This can be any valid MySQL expression (including MySQL functions) that yields a single integer value. For example, these are both validCREATE TABLE
statements usingPARTITION BY HASH
:CREATE TABLE t1 (col1 INT, col2 CHAR(5)) PARTITION BY HASH(col1); CREATE TABLE t1 (col1 INT, col2 CHAR(5), col3 DATETIME) PARTITION BY HASH ( YEAR(col3) );
You may not use either
VALUES LESS THAN
orVALUES IN
clauses withPARTITION BY HASH
.PARTITION BY HASH
uses the remainder ofexpr
divided by the number of partitions (that is, the modulus). For examples and additional information, see Section 26.2.4, “HASH Partitioning”.The
LINEAR
keyword entails a somewhat different algorithm. In this case, the number of the partition in which a row is stored is calculated as the result of one or more logicalAND
operations. For discussion and examples of linear hashing, see Section 26.2.4.1, “LINEAR HASH Partitioning”.KEY(
column_list
)This is similar to
HASH
, except that MySQL supplies the hashing function so as to guarantee an even data distribution. Thecolumn_list
argument is simply a list of 1 or more table columns (maximum: 16). This example shows a simple table partitioned by key, with 4 partitions:CREATE TABLE tk (col1 INT, col2 CHAR(5), col3 DATE) PARTITION BY KEY(col3) PARTITIONS 4;
For tables that are partitioned by key, you can employ linear partitioning by using the
LINEAR
keyword. This has the same effect as with tables that are partitioned byHASH
. That is, the partition number is found using the&
operator rather than the modulus (see Section 26.2.4.1, “LINEAR HASH Partitioning”, and Section 26.2.5, “KEY Partitioning”, for details). This example uses linear partitioning by key to distribute data between 5 partitions:CREATE TABLE tk (col1 INT, col2 CHAR(5), col3 DATE) PARTITION BY LINEAR KEY(col3) PARTITIONS 5;
The
ALGORITHM={1 | 2}
option is supported with[SUB]PARTITION BY [LINEAR] KEY
.ALGORITHM=1
causes the server to use the same key-hashing functions as MySQL 5.1;ALGORITHM=2
means that the server employs the key-hashing functions implemented and used by default for newKEY
partitioned tables in MySQL 5.5 and later. (Partitioned tables created with the key-hashing functions employed in MySQL 5.5 and later cannot be used by a MySQL 5.1 server.) Not specifying the option has the same effect as usingALGORITHM=2
. This option is intended for use chiefly when upgrading or downgrading[LINEAR] KEY
partitioned tables between MySQL 5.1 and later MySQL versions, or for creating tables partitioned byKEY
orLINEAR KEY
on a MySQL 5.5 or later server which can be used on a MySQL 5.1 server. For more information, see Section 15.1.9.1, “ALTER TABLE Partition Operations”.mysqldump writes this option encased in versioned comments.
ALGORITHM=1
is shown when necessary in the output ofSHOW CREATE TABLE
using versioned comments in the same manner as mysqldump.ALGORITHM=2
is always omitted fromSHOW CREATE TABLE
output, even if this option was specified when creating the original table.You may not use either
VALUES LESS THAN
orVALUES IN
clauses withPARTITION BY KEY
.RANGE(
expr
)In this case,
expr
shows a range of values using a set ofVALUES LESS THAN
operators. When using range partitioning, you must define at least one partition usingVALUES LESS THAN
. You cannot useVALUES IN
with range partitioning.NoteFor tables partitioned by
RANGE
,VALUES LESS THAN
must be used with either an integer literal value or an expression that evaluates to a single integer value. In MySQL 9.1, you can overcome this limitation in a table that is defined usingPARTITION BY RANGE COLUMNS
, as described later in this section.Suppose that you have a table that you wish to partition on a column containing year values, according to the following scheme.
Partition Number: Years Range: 0 1990 and earlier 1 1991 to 1994 2 1995 to 1998 3 1999 to 2002 4 2003 to 2005 5 2006 and later A table implementing such a partitioning scheme can be realized by the
CREATE TABLE
statement shown here:CREATE TABLE t1 ( year_col INT, some_data INT ) PARTITION BY RANGE (year_col) ( PARTITION p0 VALUES LESS THAN (1991), PARTITION p1 VALUES LESS THAN (1995), PARTITION p2 VALUES LESS THAN (1999), PARTITION p3 VALUES LESS THAN (2002), PARTITION p4 VALUES LESS THAN (2006), PARTITION p5 VALUES LESS THAN MAXVALUE );
PARTITION ... VALUES LESS THAN ...
statements work in a consecutive fashion.VALUES LESS THAN MAXVALUE
works to specify “leftover” values that are greater than the maximum value otherwise specified.VALUES LESS THAN
clauses work sequentially in a manner similar to that of thecase
portions of aswitch ... case
block (as found in many programming languages such as C, Java, and PHP). That is, the clauses must be arranged in such a way that the upper limit specified in each successiveVALUES LESS THAN
is greater than that of the previous one, with the one referencingMAXVALUE
coming last of all in the list.RANGE COLUMNS(
column_list
)This variant on
RANGE
facilitates partition pruning for queries using range conditions on multiple columns (that is, having conditions such asWHERE a = 1 AND b < 10
orWHERE a = 1 AND b = 10 AND c < 10
). It enables you to specify value ranges in multiple columns by using a list of columns in theCOLUMNS
clause and a set of column values in eachPARTITION ... VALUES LESS THAN (
partition definition clause. (In the simplest case, this set consists of a single column.) The maximum number of columns that can be referenced in thevalue_list
)column_list
andvalue_list
is 16.The
column_list
used in theCOLUMNS
clause may contain only names of columns; each column in the list must be one of the following MySQL data types: the integer types; the string types; and time or date column types. Columns usingBLOB
,TEXT
,SET
,ENUM
,BIT
, or spatial data types are not permitted; columns that use floating-point number types are also not permitted. You also may not use functions or arithmetic expressions in theCOLUMNS
clause.The
VALUES LESS THAN
clause used in a partition definition must specify a literal value for each column that appears in theCOLUMNS()
clause; that is, the list of values used for eachVALUES LESS THAN
clause must contain the same number of values as there are columns listed in theCOLUMNS
clause. An attempt to use more or fewer values in aVALUES LESS THAN
clause than there are in theCOLUMNS
clause causes the statement to fail with the error Inconsistency in usage of column lists for partitioning.... You cannot useNULL
for any value appearing inVALUES LESS THAN
. It is possible to useMAXVALUE
more than once for a given column other than the first, as shown in this example:CREATE TABLE rc ( a INT NOT NULL, b INT NOT NULL ) PARTITION BY RANGE COLUMNS(a,b) ( PARTITION p0 VALUES LESS THAN (10,5), PARTITION p1 VALUES LESS THAN (20,10), PARTITION p2 VALUES LESS THAN (50,MAXVALUE), PARTITION p3 VALUES LESS THAN (65,MAXVALUE), PARTITION p4 VALUES LESS THAN (MAXVALUE,MAXVALUE) );
Each value used in a
VALUES LESS THAN
value list must match the type of the corresponding column exactly; no conversion is made. For example, you cannot use the string'1'
for a value that matches a column that uses an integer type (you must use the numeral1
instead), nor can you use the numeral1
for a value that matches a column that uses a string type (in such a case, you must use a quoted string:'1'
).For more information, see Section 26.2.1, “RANGE Partitioning”, and Section 26.4, “Partition Pruning”.
LIST(
expr
)This is useful when assigning partitions based on a table column with a restricted set of possible values, such as a state or country code. In such a case, all rows pertaining to a certain state or country can be assigned to a single partition, or a partition can be reserved for a certain set of states or countries. It is similar to
RANGE
, except that onlyVALUES IN
may be used to specify permissible values for each partition.VALUES IN
is used with a list of values to be matched. For instance, you could create a partitioning scheme such as the following:CREATE TABLE client_firms ( id INT, name VARCHAR(35) ) PARTITION BY LIST (id) ( PARTITION r0 VALUES IN (1, 5, 9, 13, 17, 21), PARTITION r1 VALUES IN (2, 6, 10, 14, 18, 22), PARTITION r2 VALUES IN (3, 7, 11, 15, 19, 23), PARTITION r3 VALUES IN (4, 8, 12, 16, 20, 24) );
When using list partitioning, you must define at least one partition using
VALUES IN
. You cannot useVALUES LESS THAN
withPARTITION BY LIST
.NoteFor tables partitioned by
LIST
, the value list used withVALUES IN
must consist of integer values only. In MySQL 9.1, you can overcome this limitation using partitioning byLIST COLUMNS
, which is described later in this section.LIST COLUMNS(
column_list
)This variant on
LIST
facilitates partition pruning for queries using comparison conditions on multiple columns (that is, having conditions such asWHERE a = 5 AND b = 5
orWHERE a = 1 AND b = 10 AND c = 5
). It enables you to specify values in multiple columns by using a list of columns in theCOLUMNS
clause and a set of column values in eachPARTITION ... VALUES IN (
partition definition clause.value_list
)The rules governing regarding data types for the column list used in
LIST COLUMNS(
and the value list used incolumn_list
)VALUES IN(
are the same as those for the column list used invalue_list
)RANGE COLUMNS(
and the value list used incolumn_list
)VALUES LESS THAN(
, respectively, except that in thevalue_list
)VALUES IN
clause,MAXVALUE
is not permitted, and you may useNULL
.There is one important difference between the list of values used for
VALUES IN
withPARTITION BY LIST COLUMNS
as opposed to when it is used withPARTITION BY LIST
. When used withPARTITION BY LIST COLUMNS
, each element in theVALUES IN
clause must be a set of column values; the number of values in each set must be the same as the number of columns used in theCOLUMNS
clause, and the data types of these values must match those of the columns (and occur in the same order). In the simplest case, the set consists of a single column. The maximum number of columns that can be used in thecolumn_list
and in the elements making up thevalue_list
is 16.The table defined by the following
CREATE TABLE
statement provides an example of a table usingLIST COLUMNS
partitioning:CREATE TABLE lc ( a INT NULL, b INT NULL ) PARTITION BY LIST COLUMNS(a,b) ( PARTITION p0 VALUES IN( (0,0), (NULL,NULL) ), PARTITION p1 VALUES IN( (0,1), (0,2), (0,3), (1,1), (1,2) ), PARTITION p2 VALUES IN( (1,0), (2,0), (2,1), (3,0), (3,1) ), PARTITION p3 VALUES IN( (1,3), (2,2), (2,3), (3,2), (3,3) ) );
PARTITIONS
num
The number of partitions may optionally be specified with a
PARTITIONS
clause, wherenum
num
is the number of partitions. If both this clause and anyPARTITION
clauses are used,num
must be equal to the total number of any partitions that are declared usingPARTITION
clauses.NoteWhether or not you use a
PARTITIONS
clause in creating a table that is partitioned byRANGE
orLIST
, you must still include at least onePARTITION VALUES
clause in the table definition (see below).SUBPARTITION BY
A partition may optionally be divided into a number of subpartitions. This can be indicated by using the optional
SUBPARTITION BY
clause. Subpartitioning may be done byHASH
orKEY
. Either of these may beLINEAR
. These work in the same way as previously described for the equivalent partitioning types. (It is not possible to subpartition byLIST
orRANGE
.)The number of subpartitions can be indicated using the
SUBPARTITIONS
keyword followed by an integer value.Rigorous checking of the value used in
PARTITIONS
orSUBPARTITIONS
clauses is applied and this value must adhere to the following rules:The value must be a positive, nonzero integer.
No leading zeros are permitted.
The value must be an integer literal, and cannot not be an expression. For example,
PARTITIONS 0.2E+01
is not permitted, even though0.2E+01
evaluates to2
. (Bug #15890)
partition_definition
Each partition may be individually defined using a
partition_definition
clause. The individual parts making up this clause are as follows:PARTITION
partition_name
Specifies a logical name for the partition.
VALUES
For range partitioning, each partition must include a
VALUES LESS THAN
clause; for list partitioning, you must specify aVALUES IN
clause for each partition. This is used to determine which rows are to be stored in this partition. See the discussions of partitioning types in Chapter 26, Partitioning, for syntax examples.[STORAGE] ENGINE
MySQL accepts a
[STORAGE] ENGINE
option for bothPARTITION
andSUBPARTITION
. Currently, the only way in which this option can be used is to set all partitions or all subpartitions to the same storage engine, and an attempt to set different storage engines for partitions or subpartitions in the same table raises the error ERROR 1469 (HY000): The mix of handlers in the partitions is not permitted in this version of MySQL.COMMENT
An optional
COMMENT
clause may be used to specify a string that describes the partition. Example:COMMENT = 'Data for the years previous to 1999'
The maximum length for a partition comment is 1024 characters.
DATA DIRECTORY
andINDEX DIRECTORY
DATA DIRECTORY
andINDEX DIRECTORY
may be used to indicate the directory where, respectively, the data and indexes for this partition are to be stored. Both the
and thedata_dir
must be absolute system path names.index_dir
The directory specified in a
DATA DIRECTORY
clause must be known toInnoDB
. For more information, see Using the DATA DIRECTORY Clause.You must have the
FILE
privilege to use theDATA DIRECTORY
orINDEX DIRECTORY
partition option.Example:
CREATE TABLE th (id INT, name VARCHAR(30), adate DATE) PARTITION BY LIST(YEAR(adate)) ( PARTITION p1999 VALUES IN (1995, 1999, 2003) DATA DIRECTORY = '/var/appdata/95/data' INDEX DIRECTORY = '/var/appdata/95/idx', PARTITION p2000 VALUES IN (1996, 2000, 2004) DATA DIRECTORY = '/var/appdata/96/data' INDEX DIRECTORY = '/var/appdata/96/idx', PARTITION p2001 VALUES IN (1997, 2001, 2005) DATA DIRECTORY = '/var/appdata/97/data' INDEX DIRECTORY = '/var/appdata/97/idx', PARTITION p2002 VALUES IN (1998, 2002, 2006) DATA DIRECTORY = '/var/appdata/98/data' INDEX DIRECTORY = '/var/appdata/98/idx' );
DATA DIRECTORY
andINDEX DIRECTORY
behave in the same way as in theCREATE TABLE
statement'stable_option
clause as used forMyISAM
tables.One data directory and one index directory may be specified per partition. If left unspecified, the data and indexes are stored by default in the table's database directory.
The
DATA DIRECTORY
andINDEX DIRECTORY
options are ignored for creating partitioned tables ifNO_DIR_IN_CREATE
is in effect.MAX_ROWS
andMIN_ROWS
May be used to specify, respectively, the maximum and minimum number of rows to be stored in the partition. The values for
max_number_of_rows
andmin_number_of_rows
must be positive integers. As with the table-level options with the same names, these act only as “suggestions” to the server and are not hard limits.TABLESPACE
May be used to designate an
InnoDB
file-per-table tablespace for the partition by specifyingTABLESPACE `innodb_file_per_table`
. All partitions must belong to the same storage engine.Placing
InnoDB
table partitions in sharedInnoDB
tablespaces is not supported. Shared tablespaces include theInnoDB
system tablespace and general tablespaces.
subpartition_definition
The partition definition may optionally contain one or more
subpartition_definition
clauses. Each of these consists at a minimum of theSUBPARTITION
, wherename
name
is an identifier for the subpartition. Except for the replacement of thePARTITION
keyword withSUBPARTITION
, the syntax for a subpartition definition is identical to that for a partition definition.Subpartitioning must be done by
HASH
orKEY
, and can be done only onRANGE
orLIST
partitions. See Section 26.2.6, “Subpartitioning”.
Partitioning by Generated Columns
Partitioning by generated columns is permitted. For example:
CREATE TABLE t1 (
s1 INT,
s2 INT AS (EXP(s1)) STORED
)
PARTITION BY LIST (s2) (
PARTITION p1 VALUES IN (1)
);
Partitioning sees a generated column as a regular column, which
enables workarounds for limitations on functions that are not
permitted for partitioning (see
Section 26.6.3, “Partitioning Limitations Relating to Functions”). The
preceding example demonstrates this technique:
EXP()
cannot be used directly in
the PARTITION BY
clause, but a generated column
defined using EXP()
is permitted.