MySQL 5.7 Reference Manual Including MySQL NDB Cluster 7.5 and NDB Cluster 7.6
ALTER TABLEtbl_name
[alter_option
[,alter_option
] ...] [partition_options
]alter_option
: {table_options
| ADD [COLUMN]col_name
column_definition
[FIRST | AFTERcol_name
] | ADD [COLUMN] (col_name
column_definition
,...) | ADD {INDEX | KEY} [index_name
] [index_type
] (key_part
,...) [index_option
] ... | ADD {FULLTEXT | SPATIAL} [INDEX | KEY] [index_name
] (key_part
,...) [index_option
] ... | ADD [CONSTRAINT [symbol
]] PRIMARY KEY [index_type
] (key_part
,...) [index_option
] ... | ADD [CONSTRAINT [symbol
]] UNIQUE [INDEX | KEY] [index_name
] [index_type
] (key_part
,...) [index_option
] ... | ADD [CONSTRAINT [symbol
]] FOREIGN KEY [index_name
] (col_name
,...)reference_definition
| ADD CHECK (expr
) | ALGORITHM [=] {DEFAULT | INPLACE | COPY} | ALTER [COLUMN]col_name
{ SET DEFAULT {literal
| (expr
)} | DROP DEFAULT } | CHANGE [COLUMN]old_col_name
new_col_name
column_definition
[FIRST | AFTERcol_name
] | [DEFAULT] CHARACTER SET [=]charset_name
[COLLATE [=]collation_name
] | CONVERT TO CHARACTER SETcharset_name
[COLLATEcollation_name
] | {DISABLE | ENABLE} KEYS | {DISCARD | IMPORT} TABLESPACE | DROP [COLUMN]col_name
| DROP {INDEX | KEY}index_name
| DROP PRIMARY KEY | DROP FOREIGN KEYfk_symbol
| FORCE | LOCK [=] {DEFAULT | NONE | SHARED | EXCLUSIVE} | MODIFY [COLUMN]col_name
column_definition
[FIRST | AFTERcol_name
] | ORDER BYcol_name
[,col_name
] ... | RENAME {INDEX | KEY}old_index_name
TOnew_index_name
| RENAME [TO | AS]new_tbl_name
| {WITHOUT | WITH} VALIDATION }partition_options
:partition_option
[partition_option
] ...partition_option
: { ADD PARTITION (partition_definition
) | DROP PARTITIONpartition_names
| DISCARD PARTITION {partition_names
| ALL} TABLESPACE | IMPORT PARTITION {partition_names
| ALL} TABLESPACE | TRUNCATE PARTITION {partition_names
| ALL} | COALESCE PARTITIONnumber
| REORGANIZE PARTITIONpartition_names
INTO (partition_definitions
) | EXCHANGE PARTITIONpartition_name
WITH TABLEtbl_name
[{WITH | WITHOUT} VALIDATION] | ANALYZE PARTITION {partition_names
| ALL} | CHECK PARTITION {partition_names
| ALL} | OPTIMIZE PARTITION {partition_names
| ALL} | REBUILD PARTITION {partition_names
| ALL} | REPAIR PARTITION {partition_names
| ALL} | REMOVE PARTITIONING | UPGRADE PARTITIONING }key_part
:col_name
[(length
)] [ASC | DESC]index_type
: USING {BTREE | HASH}index_option
: { KEY_BLOCK_SIZE [=]value
|index_type
| WITH PARSERparser_name
| COMMENT 'string
' }table_options
:table_option
[[,]table_option
] ...table_option
: { 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
| 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} | STATS_AUTO_RECALC [=] {DEFAULT | 0 | 1} | STATS_PERSISTENT [=] {DEFAULT | 0 | 1} | STATS_SAMPLE_PAGES [=]value
| TABLESPACEtablespace_name
[STORAGE {DISK | MEMORY}] | UNION [=] (tbl_name
[,tbl_name
]...) }partition_options
: (seeCREATE TABLE
options)
ALTER TABLE
changes the structure
of a table. For example, you can add or delete columns, create or
destroy indexes, change the type of existing columns, or rename
columns or the table itself. You can also change characteristics
such as the storage engine used for the table or the table
comment.
To use ALTER TABLE
, you need
ALTER
,
CREATE
, and
INSERT
privileges for the
table. Renaming a table requires
ALTER
and
DROP
on the old table,
ALTER
,
CREATE
, and
INSERT
on the new table.
Following the table name, specify the alterations to be made.
If none are given, ALTER TABLE
does nothing.
The syntax for many of the permissible alterations is similar
to clauses of the CREATE TABLE
statement. column_definition
clauses use the same syntax for ADD
and
CHANGE
as for CREATE
TABLE
. For more information, see
Section 13.1.18, “CREATE TABLE Statement”.
The word COLUMN
is optional and can be
omitted.
Multiple ADD
, ALTER
,
DROP
, and CHANGE
clauses
are permitted in a single ALTER
TABLE
statement, separated by commas. This is a
MySQL extension to standard SQL, which permits only one of
each clause per ALTER TABLE
statement. For example, to drop multiple columns in a single
statement, do this:
ALTER TABLE t2 DROP COLUMN c, DROP COLUMN d;
If a storage engine does not support an attempted
ALTER TABLE
operation, a
warning may result. Such warnings can be displayed with
SHOW WARNINGS
. See
Section 13.7.5.40, “SHOW WARNINGS Statement”. For information on
troubleshooting ALTER TABLE
,
see Section B.3.6.1, “Problems with ALTER TABLE”.
For information about generated columns, see Section 13.1.8.2, “ALTER TABLE and Generated Columns”.
For usage examples, see Section 13.1.8.3, “ALTER TABLE Examples”.
With the mysql_info()
C API
function, you can find out how many rows were copied by
ALTER TABLE
. See
mysql_info().
There are several additional aspects to the ALTER
TABLE
statement, described under the following topics in
this section:
table_options
signifies table options
of the kind that can be used in the CREATE
TABLE
statement, such as ENGINE
,
AUTO_INCREMENT
,
AVG_ROW_LENGTH
, MAX_ROWS
,
ROW_FORMAT
, or TABLESPACE
.
For descriptions of all table options, see
Section 13.1.18, “CREATE TABLE Statement”. However,
ALTER TABLE
ignores DATA
DIRECTORY
and INDEX DIRECTORY
when
given as table options. ALTER TABLE
permits them only as partitioning options, and, as of MySQL
5.7.17, requires that you have the FILE
privilege.
Use of table options with ALTER
TABLE
provides a convenient way of altering single table
characteristics. For example:
If t1
is currently not an
InnoDB
table, this statement changes its
storage engine to InnoDB
:
ALTER TABLE t1 ENGINE = InnoDB;
See Section 14.6.1.5, “Converting Tables from MyISAM to InnoDB” for
considerations when switching tables to the
InnoDB
storage engine.
When you specify an ENGINE
clause,
ALTER TABLE
rebuilds the
table. This is true even if the table already has the
specified storage engine.
Running ALTER
TABLE
on an existing
tbl_name
ENGINE=INNODBInnoDB
table performs a
“null” ALTER
TABLE
operation, which can be used to defragment
an InnoDB
table, as described in
Section 14.12.4, “Defragmenting a Table”. Running
ALTER TABLE
on an
tbl_name
FORCEInnoDB
table performs the same
function.
ALTER TABLE
and
tbl_name
ENGINE=INNODBALTER TABLE
use
online DDL. For
more information, see Section 14.13, “InnoDB and Online DDL”.
tbl_name
FORCE
The outcome of attempting to change the storage engine of
a table is affected by whether the desired storage engine
is available and the setting of the
NO_ENGINE_SUBSTITUTION
SQL mode, as described in Section 5.1.10, “Server SQL Modes”.
To prevent inadvertent loss of data,
ALTER TABLE
cannot be used
to change the storage engine of a table to
MERGE
or BLACKHOLE
.
To change the InnoDB
table to use
compressed row-storage format:
ALTER TABLE t1 ROW_FORMAT = COMPRESSED;
To enable or disable encryption for an
InnoDB
table in a file-per-table
tablespace:
ALTER TABLE t1 ENCRYPTION='Y'; ALTER TABLE t1 ENCRYPTION='N';
A keyring plugin must be installed and configured to use the
ENCRYPTION
option. For more information,
see Section 14.14, “InnoDB Data-at-Rest Encryption”.
To reset the current auto-increment value:
ALTER TABLE t1 AUTO_INCREMENT = 13;
You cannot reset the counter to a value less than or equal to
the value that is currently in use. For both
InnoDB
and MyISAM
, if
the value is less than or equal to the maximum value currently
in the AUTO_INCREMENT
column, the value is
reset to the current maximum AUTO_INCREMENT
column value plus one.
To change the default table character set:
ALTER TABLE t1 CHARACTER SET = utf8;
See also Changing the Character Set.
To add (or change) a table comment:
ALTER TABLE t1 COMMENT = 'New table comment';
Use ALTER TABLE
with the
TABLESPACE
option to move
InnoDB
tables between existing
general
tablespaces,
file-per-table
tablespaces, and the
system
tablespace. See
Moving Tables Between Tablespaces Using ALTER TABLE.
ALTER TABLE ... TABLESPACE
operations
always cause a full table rebuild, even if the
TABLESPACE
attribute has not changed
from its previous value.
ALTER TABLE ... TABLESPACE
syntax does
not support moving a table from a temporary tablespace to
a persistent tablespace.
The DATA DIRECTORY
clause, which is
supported with
CREATE TABLE
... TABLESPACE
, is not supported with
ALTER TABLE ... TABLESPACE
, and is
ignored if specified.
For more information about the capabilities and
limitations of the TABLESPACE
option,
see CREATE TABLE
.
MySQL NDB Cluster 7.5.2 and later supports setting
NDB_TABLE
options for controlling a
table's partition balance (fragment count type),
read-from-any-replica capability, full replication, or any
combination of these, as part of the table comment for an
ALTER TABLE
statement in the same manner as
for CREATE TABLE
, as shown in
this example:
ALTER TABLE t1 COMMENT = "NDB_TABLE=READ_BACKUP=0,PARTITION_BALANCE=FOR_RA_BY_NODE";
Bear in mind that ALTER TABLE ... COMMENT
...
discards any existing comment for the table. See
Setting NDB_TABLE options, for
additional information and examples.
To verify that the table options were changed as intended, use
SHOW CREATE TABLE
, or query the
INFORMATION_SCHEMA.TABLES
table.
ALTER TABLE
operations are
processed using one of the following algorithms:
COPY
: Operations are performed on a copy of
the original table, and table data is copied from the original
table to the new table row by row. Concurrent DML is not
permitted.
INPLACE
: Operations avoid copying table
data but may rebuild the table in place. An exclusive metadata
lock on the table may be taken briefly during preparation and
execution phases of the operation. Typically, concurrent DML
is supported.
The ALGORITHM
clause is optional. If the
ALGORITHM
clause is omitted, MySQL uses
ALGORITHM=INPLACE
for storage engines and
ALTER TABLE
clauses that support
it. Otherwise, ALGORITHM=COPY
is used.
Specifying an ALGORITHM
clause requires the
operation to use the specified algorithm for clauses and storage
engines that support it, or fail with an error otherwise.
Specifying ALGORITHM=DEFAULT
is the same as
omitting the ALGORITHM
clause.
ALTER TABLE
operations that use the
COPY
algorithm wait for other operations that
are modifying the table to complete. After alterations are applied
to the table copy, data is copied over, the original table is
deleted, and the table copy is renamed to the name of the original
table. While the ALTER TABLE
operation executes, the original table is readable by other
sessions (with the exception noted shortly). Updates and writes to
the table started after the ALTER
TABLE
operation begins are stalled until the new table
is ready, then are automatically redirected to the new table. The
temporary copy of the table is created in the database directory
of the original table unless it is a RENAME TO
operation that moves the table to a database that resides in a
different directory.
The exception referred to earlier is that
ALTER TABLE
blocks reads (not just
writes) at the point where it is ready to install a new version of
the table .frm
file, discard the old file,
and clear outdated table structures from the table and table
definition caches. At this point, it must acquire an exclusive
lock. To do so, it waits for current readers to finish, and blocks
new reads and writes.
An ALTER TABLE
operation that uses
the COPY
algorithm prevents concurrent DML
operations. Concurrent queries are still allowed. That is, a
table-copying operation always includes at least the concurrency
restrictions of LOCK=SHARED
(allow queries but
not DML). You can further restrict concurrency for operations that
support the LOCK
clause by specifying
LOCK=EXCLUSIVE
, which prevents DML and queries.
For more information, see
Concurrency Control.
To force use of the COPY
algorithm for an
ALTER TABLE
operation that would
otherwise not use it, enable the
old_alter_table
system variable
or specify ALGORITHM=COPY
. If there is a
conflict between the old_alter_table
setting
and an ALGORITHM
clause with a value other than
DEFAULT
, the ALGORITHM
clause takes precedence.
For InnoDB
tables, an
ALTER TABLE
operation that uses the
COPY
algorithm on a table that resides in a
shared tablespace
can increase the amount of space used by the tablespace. Such
operations require as much additional space as the data in the
table plus indexes. For a table residing in a shared tablespace,
the additional space used during the operation is not released
back to the operating system as it is for a table that resides in
a file-per-table
tablespace.
For information about space requirements for online DDL operations, see Section 14.13.3, “Online DDL Space Requirements”.
ALTER TABLE
operations that use the
INPLACE
algorithm include:
ALTER TABLE
operations supported by the
InnoDB
online DDL feature. See
Section 14.13.1, “Online DDL Operations”.
Renaming a table. MySQL renames files that correspond to the
table tbl_name
without making a
copy. (You can also use the RENAME
TABLE
statement to rename tables. See
Section 13.1.33, “RENAME TABLE Statement”.) Privileges granted
specifically for the renamed table are not migrated to the new
name. They must be changed manually.
Operations that only modify table metadata. These operations
are immediate because the server only alters the table
.frm
file, not touch table contents.
Metadata-only operations include:
Renaming a column.
Changing the default value of a column (except for
NDB
tables).
Modifying the definition of an
ENUM
or
SET
column by adding new
enumeration or set members to the end
of the list of valid member values, as long as the storage
size of the data type does not change. For example, adding
a member to a SET
column
that has 8 members changes the required storage per value
from 1 byte to 2 bytes; this requires a table copy. Adding
members in the middle of the list causes renumbering of
existing members, which requires a table copy.
Renaming an index.
Adding or dropping a secondary index, for
InnoDB
and
NDB
tables. See
Section 14.13, “InnoDB and Online DDL”.
For NDB
tables, operations that
add and drop indexes on variable-width columns. These
operations occur online, without table copying and without
blocking concurrent DML actions for most of their duration.
See Section 20.5.11, “Online Operations with ALTER TABLE in NDB Cluster”.
ALTER TABLE
upgrades MySQL 5.5
temporal columns to 5.6 format for ADD COLUMN
,
CHANGE COLUMN
, MODIFY
COLUMN
, ADD INDEX
, and
FORCE
operations. This conversion cannot be
done using the INPLACE
algorithm because the
table must be rebuilt, so specifying
ALGORITHM=INPLACE
in these cases results in an
error. Specify ALGORITHM=COPY
if necessary.
If an ALTER TABLE
operation on a multicolumn
index used to partition a table by KEY
changes
the order of the columns, it can only be performed using
ALGORITHM=COPY
.
The WITHOUT VALIDATION
and WITH
VALIDATION
clauses affect whether
ALTER TABLE
performs an in-place
operation for
virtual generated
column modifications. See
Section 13.1.8.2, “ALTER TABLE and Generated Columns”.
NDB Cluster formerly supported online ALTER
TABLE
operations using the ONLINE
and
OFFLINE
keywords. These keywords are no longer
supported; their use causes a syntax error. MySQL NDB Cluster 7.5
(and later) supports online operations using the same
ALGORITHM=INPLACE
syntax used with the standard
MySQL Server. NDB
does not support changing a
tablespace online. See
Section 20.5.11, “Online Operations with ALTER TABLE in NDB Cluster”, for more
information.
ALTER TABLE
with DISCARD ... PARTITION
... TABLESPACE
or IMPORT ... PARTITION ...
TABLESPACE
does not create any temporary tables or
temporary partition files.
ALTER TABLE
with ADD
PARTITION
, DROP PARTITION
,
COALESCE PARTITION
, REBUILD
PARTITION
, or REORGANIZE PARTITION
does not create temporary tables (except when used with
NDB
tables); however, these
operations can and do create temporary partition files.
ADD
or DROP
operations for
RANGE
or LIST
partitions are
immediate operations or nearly so. ADD
or
COALESCE
operations for HASH
or KEY
partitions copy data between all
partitions, unless LINEAR HASH
or
LINEAR KEY
was used; this is effectively the
same as creating a new table, although the ADD
or COALESCE
operation is performed partition by
partition. REORGANIZE
operations copy only
changed partitions and do not touch unchanged ones.
For MyISAM
tables, you can speed up index
re-creation (the slowest part of the alteration process) by
setting the
myisam_sort_buffer_size
system
variable to a high value.
For ALTER TABLE
operations that
support it, you can use the LOCK
clause to
control the level of concurrent reads and writes on a table while
it is being altered. Specifying a non-default value for this
clause enables you to require a certain amount of concurrent
access or exclusivity during the alter operation, and halts the
operation if the requested degree of locking is not available. The
parameters for the LOCK
clause are:
LOCK = DEFAULT
Maximum level of concurrency for the given
ALGORITHM
clause (if any) and
ALTER TABLE
operation: Permit concurrent
reads and writes if supported. If not, permit concurrent reads
if supported. If not, enforce exclusive access.
LOCK = NONE
If supported, permit concurrent reads and writes. Otherwise, an error occurs.
LOCK = SHARED
If supported, permit concurrent reads but block writes. Writes
are blocked even if concurrent writes are supported by the
storage engine for the given ALGORITHM
clause (if any) and ALTER TABLE
operation.
If concurrent reads are not supported, an error occurs.
LOCK = EXCLUSIVE
Enforce exclusive access. This is done even if concurrent
reads/writes are supported by the storage engine for the given
ALGORITHM
clause (if any) and
ALTER TABLE
operation.
Use ADD
to add new columns to a table, and
DROP
to remove existing columns. DROP
is a MySQL extension
to standard SQL.
col_name
To add a column at a specific position within a table row, use
FIRST
or AFTER
. The default is to
add the column last.
col_name
If a table contains only one column, the column cannot be dropped.
If what you intend is to remove the table, use the
DROP TABLE
statement instead.
If columns are dropped from a table, the columns are also removed from any index of which they are a part. If all columns that make up an index are dropped, the index is dropped as well.
The CHANGE
, MODIFY
, and
ALTER
clauses enable the names and definitions
of existing columns to be altered. They have these comparative
characteristics:
CHANGE
:
Can rename a column and change its definition, or both.
Has more capability than MODIFY
, but at
the expense of convenience for some operations.
CHANGE
requires naming the column twice
if not renaming it.
With FIRST
or AFTER
,
can reorder columns.
MODIFY
:
Can change a column definition but not its name.
More convenient than CHANGE
to change a
column definition without renaming it.
With FIRST
or AFTER
,
can reorder columns.
ALTER
: Used only to change a column default
value.
CHANGE
is a MySQL extension to standard SQL.
MODIFY
is a MySQL extension for Oracle
compatibility.
To alter a column to change both its name and definition, use
CHANGE
, specifying the old and new names and
the new definition. For example, to rename an INT NOT
NULL
column from a
to
b
and change its definition to use the
BIGINT
data type while retaining the
NOT NULL
attribute, do this:
ALTER TABLE t1 CHANGE a b BIGINT NOT NULL;
To change a column definition but not its name, use
CHANGE
or MODIFY
. With
CHANGE
, the syntax requires two column names,
so you must specify the same name twice to leave the name
unchanged. For example, to change the definition of column
b
, do this:
ALTER TABLE t1 CHANGE b b INT NOT NULL;
MODIFY
is more convenient to change the
definition without changing the name because it requires the
column name only once:
ALTER TABLE t1 MODIFY b INT NOT NULL;
To change a column name but not its definition, use
CHANGE
. The syntax requires a column
definition, so to leave the definition unchanged, you must
respecify the definition the column currently has. For example, to
rename an INT NOT NULL
column from
b
to a
, do this:
ALTER TABLE t1 CHANGE b a INT NOT NULL;
For column definition changes using CHANGE
or
MODIFY
, the definition must include the data
type and all attributes that should apply to the new column, other
than index attributes such as PRIMARY KEY
or
UNIQUE
. Attributes present in the original
definition but not specified for the new definition are not
carried forward. Suppose that a column col1
is
defined as INT UNSIGNED DEFAULT 1 COMMENT 'my
column'
and you modify the column as follows, intending
to change only INT
to
BIGINT
:
ALTER TABLE t1 MODIFY col1 BIGINT;
That statement changes the data type from INT
to BIGINT
, but it also drops the
UNSIGNED
, DEFAULT
, and
COMMENT
attributes. To retain them, the
statement must include them explicitly:
ALTER TABLE t1 MODIFY col1 BIGINT UNSIGNED DEFAULT 1 COMMENT 'my column';
For data type changes using CHANGE
or
MODIFY
, MySQL tries to convert existing column
values to the new type as well as possible.
This conversion may result in alteration of data. For example,
if you shorten a string column, values may be truncated. To
prevent the operation from succeeding if conversions to the new
data type would result in loss of data, enable strict SQL mode
before using ALTER TABLE
(see
Section 5.1.10, “Server SQL Modes”).
If you use CHANGE
or MODIFY
to shorten a column for which an index exists on the column, and
the resulting column length is less than the index length, MySQL
shortens the index automatically.
For columns renamed by CHANGE
, MySQL
automatically renames these references to the renamed column:
Indexes that refer to the old column, including indexes and
disabled MyISAM
indexes.
Foreign keys that refer to the old column.
For columns renamed by CHANGE
, MySQL does not
automatically rename these references to the renamed column:
Generated column and partition expressions that refer to the
renamed column. You must use CHANGE
to
redefine such expressions in the same
ALTER TABLE
statement as the
one that renames the column.
Views and stored programs that refer to the renamed column. You must manually alter the definition of these objects to refer to the new column name.
To reorder columns within a table, use FIRST
and AFTER
in CHANGE
or
MODIFY
operations.
ALTER ... SET DEFAULT
or ALTER ...
DROP DEFAULT
specify a new default value for a column or
remove the old default value, respectively. If the old default is
removed and the column can be NULL
, the new
default is NULL
. If the column cannot be
NULL
, MySQL assigns a default value as
described in Section 11.6, “Data Type Default Values”.
DROP PRIMARY KEY
drops the
primary key. If there is
no primary key, an error occurs. For information about the
performance characteristics of primary keys, especially for
InnoDB
tables, see
Section 8.3.2, “Primary Key Optimization”.
If you add a UNIQUE INDEX
or PRIMARY
KEY
to a table, MySQL stores it before any nonunique
index to permit detection of duplicate keys as early as possible.
DROP INDEX
removes an index. This
is a MySQL extension to standard SQL. See
Section 13.1.25, “DROP INDEX Statement”. To determine index names, use
SHOW INDEX FROM
.
tbl_name
Some storage engines permit you to specify an index type when
creating an index. The syntax for the
index_type
specifier is USING
. For details about
type_name
USING
, see Section 13.1.14, “CREATE INDEX Statement”. The
preferred position is after the column list. You should expect
support for use of the option before the column list to be removed
in a future MySQL release.
index_option
values specify additional
options for an index. For details about permissible
index_option
values, see
Section 13.1.14, “CREATE INDEX Statement”.
RENAME INDEX
renames an
index. This is a MySQL extension to standard SQL. The content of
the table remains unchanged.
old_index_name
TO
new_index_name
old_index_name
must be the name of an
existing index in the table that is not dropped by the same
ALTER TABLE
statement.
new_index_name
is the new index name,
which cannot duplicate the name of an index in the resulting table
after changes have been applied. Neither index name can be
PRIMARY
.
If you use ALTER TABLE
on a
MyISAM
table, all nonunique indexes are created
in a separate batch (as for REPAIR
TABLE
). This should make ALTER
TABLE
much faster when you have many indexes.
For MyISAM
tables, key updating can be
controlled explicitly. Use ALTER TABLE ... DISABLE
KEYS
to tell MySQL to stop updating nonunique indexes.
Then use ALTER TABLE ... ENABLE KEYS
to
re-create missing indexes. MyISAM
does this
with a special algorithm that is much faster than inserting keys
one by one, so disabling keys before performing bulk insert
operations should give a considerable speedup. Using
ALTER TABLE ... DISABLE KEYS
requires the
INDEX
privilege in addition to the
privileges mentioned earlier.
While the nonunique indexes are disabled, they are ignored for
statements such as SELECT
and
EXPLAIN
that otherwise would use
them.
After an ALTER TABLE
statement, it
may be necessary to run ANALYZE
TABLE
to update index cardinality information. See
Section 13.7.5.22, “SHOW INDEX Statement”.
The FOREIGN KEY
and
REFERENCES
clauses are supported by the
InnoDB
and NDB
storage
engines, which implement ADD [CONSTRAINT
[
. See Section 1.7.3.2, “FOREIGN KEY Constraints”. For
other storage engines, the clauses are parsed but ignored.
symbol
]] FOREIGN KEY
[index_name
] (...) REFERENCES ...
(...)
The CHECK
constraint clause is parsed but
ignored by all storage engines. See
Section 13.1.18, “CREATE TABLE Statement”. The reason for accepting but
ignoring syntax clauses is for compatibility, to make it easier to
port code from other SQL servers, and to run applications that
create tables with references. See
Section 1.7.2, “MySQL Differences from Standard SQL”.
For ALTER TABLE
, unlike
CREATE TABLE
, ADD FOREIGN
KEY
ignores index_name
if
given and uses an automatically generated foreign key name. As a
workaround, include the CONSTRAINT
clause to
specify the foreign key name:
ADD CONSTRAINT name
FOREIGN KEY (....) ...
MySQL silently ignores inline REFERENCES
specifications, where the references are defined as part of the
column specification. MySQL accepts only
REFERENCES
clauses defined as part of a
separate FOREIGN KEY
specification.
Partitioned InnoDB
tables do not support
foreign keys. This restriction does not apply to
NDB
tables, including those explicitly
partitioned by [LINEAR] KEY
. For more
information, see
Section 21.6.2, “Partitioning Limitations Relating to Storage Engines”.
MySQL Server and NDB Cluster both support the use of
ALTER TABLE
to drop foreign keys:
ALTER TABLEtbl_name
DROP FOREIGN KEYfk_symbol
;
Adding and dropping a foreign key in the same
ALTER TABLE
statement is supported
for ALTER TABLE ...
ALGORITHM=INPLACE
but not for
ALTER TABLE ...
ALGORITHM=COPY
.
The server prohibits changes to foreign key columns that have the
potential to cause loss of referential integrity. A workaround is
to use ALTER TABLE
... DROP FOREIGN KEY
before changing the column
definition and ALTER
TABLE ... ADD FOREIGN KEY
afterward. Examples of
prohibited changes include:
Changes to the data type of foreign key columns that may be
unsafe. For example, changing
VARCHAR(20)
to
VARCHAR(30)
is permitted, but
changing it to VARCHAR(1024)
is
not because that alters the number of length bytes required to
store individual values.
Changing a NULL
column to NOT
NULL
in non-strict mode is prohibited to prevent
converting NULL
values to default
non-NULL
values, for which there are no
corresponding values in the referenced table. The operation is
permitted in strict mode, but an error is returned if any such
conversion is required.
ALTER TABLE
changes
internally generated foreign key constraint names and user-defined
foreign key constraint names that begin with the string
“tbl_name
RENAME
new_tbl_name
tbl_name
_ibfk_” to
reflect the new table name. InnoDB
interprets
foreign key constraint names that begin with the string
“tbl_name
_ibfk_” as
internally generated names.
To change the table default character set and all character
columns (CHAR
,
VARCHAR
,
TEXT
) to a new character set, use a
statement like this:
ALTER TABLEtbl_name
CONVERT TO CHARACTER SETcharset_name
;
The statement also changes the collation of all character columns.
If you specify no COLLATE
clause to indicate
which collation to use, the statement uses default collation for
the character set. If this collation is inappropriate for the
intended table use (for example, if it would change from a
case-sensitive collation to a case-insensitive collation), specify
a collation explicitly.
For a column that has a data type of
VARCHAR
or one of the
TEXT
types, CONVERT TO
CHARACTER SET
changes the data type as necessary to
ensure that the new column is long enough to store as many
characters as the original column. For example, a
TEXT
column has two length bytes,
which store the byte-length of values in the column, up to a
maximum of 65,535. For a latin1
TEXT
column, each character
requires a single byte, so the column can store up to 65,535
characters. If the column is converted to utf8
,
each character might require up to three bytes, for a maximum
possible length of 3 × 65,535 = 196,605 bytes. That length
does not fit in a TEXT
column's
length bytes, so MySQL converts the data type to
MEDIUMTEXT
, which is the smallest
string type for which the length bytes can record a value of
196,605. Similarly, a VARCHAR
column might be converted to
MEDIUMTEXT
.
To avoid data type changes of the type just described, do not use
CONVERT TO CHARACTER SET
. Instead, use
MODIFY
to change individual columns. For
example:
ALTER TABLE t MODIFY latin1_text_col TEXT CHARACTER SET utf8;
ALTER TABLE t MODIFY latin1_varchar_col VARCHAR(M
) CHARACTER SET utf8;
If you specify CONVERT TO CHARACTER SET binary
,
the CHAR
,
VARCHAR
, and
TEXT
columns are converted to their
corresponding binary string types
(BINARY
,
VARBINARY
,
BLOB
). This means that the columns
no longer have a character set and a subsequent CONVERT
TO
operation does not apply to them.
If charset_name
is
DEFAULT
in a CONVERT TO CHARACTER
SET
operation, the character set named by the
character_set_database
system
variable is used.
The CONVERT TO
operation converts column
values between the original and named character sets. This is
not what you want if you have a column in
one character set (like latin1
) but the
stored values actually use some other, incompatible character
set (like utf8
). In this case, you have to do
the following for each such column:
ALTER TABLE t1 CHANGE c1 c1 BLOB; ALTER TABLE t1 CHANGE c1 c1 TEXT CHARACTER SET utf8;
The reason this works is that there is no conversion when you
convert to or from BLOB
columns.
To change only the default character set for a table, use this statement:
ALTER TABLEtbl_name
DEFAULT CHARACTER SETcharset_name
;
The word DEFAULT
is optional. The default
character set is the character set that is used if you do not
specify the character set for columns that you add to a table
later (for example, with ALTER TABLE ... ADD
column
).
When the foreign_key_checks
system variable is enabled, which is the default setting,
character set conversion is not permitted on tables that include a
character string column used in a foreign key constraint. The
workaround is to disable
foreign_key_checks
before
performing the character set conversion. You must perform the
conversion on both tables involved in the foreign key constraint
before re-enabling
foreign_key_checks
. If you
re-enable foreign_key_checks
after converting only one of the tables, an ON DELETE
CASCADE
or ON UPDATE CASCADE
operation could corrupt data in the referencing table due to
implicit conversion that occurs during these operations (Bug
#45290, Bug #74816).
An InnoDB
table created in its own
file-per-table
tablespace can be imported from a backup or from another MySQL
server instance using DISCARD TABLEPACE
and
IMPORT TABLESPACE
clauses. See
Section 14.6.1.3, “Importing InnoDB Tables”.
ORDER BY
enables you to create the new table
with the rows in a specific order. This option is useful primarily
when you know that you query the rows in a certain order most of
the time. By using this option after major changes to the table,
you might be able to get higher performance. In some cases, it
might make sorting easier for MySQL if the table is in order by
the column that you want to order it by later.
The table does not remain in the specified order after inserts and deletes.
ORDER BY
syntax permits one or more column
names to be specified for sorting, each of which optionally can be
followed by ASC
or DESC
to
indicate ascending or descending sort order, respectively. The
default is ascending order. Only column names are permitted as
sort criteria; arbitrary expressions are not permitted. This
clause should be given last after any other clauses.
ORDER BY
does not make sense for
InnoDB
tables because InnoDB
always orders table rows according to the
clustered index.
When used on a partitioned table, ALTER TABLE ... ORDER
BY
orders rows within each partition only.
partition_options
signifies options
that can be used with partitioned tables for repartitioning, to
add, drop, discard, import, merge, and split partitions, and to
perform partitioning maintenance.
It is possible for an ALTER TABLE
statement to contain a PARTITION BY
or
REMOVE PARTITIONING
clause in an addition to
other alter specifications, but the PARTITION
BY
or REMOVE PARTITIONING
clause must
be specified last after any other specifications. The ADD
PARTITION
, DROP PARTITION
,
DISCARD PARTITION
, IMPORT
PARTITION
, COALESCE PARTITION
,
REORGANIZE PARTITION
, EXCHANGE
PARTITION
, ANALYZE PARTITION
,
CHECK PARTITION
, and REPAIR
PARTITION
options cannot be combined with other alter
specifications in a single ALTER TABLE
, since
the options just listed act on individual partitions.
For more information about partition options, see
Section 13.1.18, “CREATE TABLE Statement”, and
Section 13.1.8.1, “ALTER TABLE Partition Operations”. For
information about and examples of ALTER TABLE ...
EXCHANGE PARTITION
statements, see
Section 21.3.3, “Exchanging Partitions and Subpartitions with Tables”.
Prior to MySQL 5.7.6, partitioned InnoDB
tables
used the generic ha_partition
partitioning
handler employed by MyISAM
and other storage
engines not supplying their own partitioning handlers; in MySQL
5.7.6 and later, such tables are created using the
InnoDB
storage engine's own (or
“native”) partitioning handler. Beginning with MySQL
5.7.9, you can upgrade an InnoDB
table that was
created in MySQL 5.7.6 or earlier (that is, created using
ha_partition
) to the InnoDB
native partition handler using ALTER TABLE ... UPGRADE
PARTITIONING
. (Bug #76734, Bug #20727344) This
ALTER TABLE
syntax does not accept any other
options and can be used only on a single table at a time. You can
also use mysql_upgrade in MySQL 5.7.9 or later
to upgrade older partitioned InnoDB tables to
the native partitioning handler.