Online support details, syntax examples, and usage notes for DDL operations are provided under the following topics in this section.
The following table provides an overview of online DDL support for index operations. An asterisk indicates additional information, an exception, or a dependency. For details, see Syntax and Usage Notes.
Table 17.16 Online DDL Support for Index Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Creating or adding a secondary index | No | Yes | No | Yes | No |
Dropping an index | No | Yes | No | Yes | Yes |
Renaming an index | No | Yes | No | Yes | Yes |
Adding a FULLTEXT index |
No | Yes* | No* | No | No |
Adding a SPATIAL index |
No | Yes | No | No | No |
Changing the index type | Yes | Yes | No | Yes | Yes |
Syntax and Usage Notes
Creating or adding a secondary index
CREATE INDEX name ON table (col_list);
ALTER TABLE tbl_name ADD INDEX name (col_list);
The table remains available for read and write operations while the index is being created. The
CREATE INDEX
statement only finishes after all transactions that are accessing the table are completed, so that the initial state of the index reflects the most recent contents of the table.Online DDL support for adding secondary indexes means that you can generally speed the overall process of creating and loading a table and associated indexes by creating the table without secondary indexes, then adding secondary indexes after the data is loaded.
A newly created secondary index contains only the committed data in the table at the time the
CREATE INDEX
orALTER TABLE
statement finishes executing. It does not contain any uncommitted values, old versions of values, or values marked for deletion but not yet removed from the old index.Some factors affect the performance, space usage, and semantics of this operation. For details, see Section 17.12.8, “Online DDL Limitations”.
Dropping an index
DROP INDEX name ON table;
ALTER TABLE tbl_name DROP INDEX name;
The table remains available for read and write operations while the index is being dropped. The
DROP INDEX
statement only finishes after all transactions that are accessing the table are completed, so that the initial state of the index reflects the most recent contents of the table.Renaming an index
ALTER TABLE tbl_name RENAME INDEX old_index_name TO new_index_name, ALGORITHM=INPLACE, LOCK=NONE;
Adding a
FULLTEXT
indexCREATE FULLTEXT INDEX name ON table(column);
Adding the first
FULLTEXT
index rebuilds the table if there is no user-definedFTS_DOC_ID
column. AdditionalFULLTEXT
indexes may be added without rebuilding the table.Adding a
SPATIAL
indexCREATE TABLE geom (g GEOMETRY NOT NULL); ALTER TABLE geom ADD SPATIAL INDEX(g), ALGORITHM=INPLACE, LOCK=SHARED;
Changing the index type (
USING {BTREE | HASH}
)ALTER TABLE tbl_name DROP INDEX i1, ADD INDEX i1(key_part,...) USING BTREE, ALGORITHM=INSTANT;
The following table provides an overview of online DDL support for primary key operations. An asterisk indicates additional information, an exception, or a dependency. See Syntax and Usage Notes.
Table 17.17 Online DDL Support for Primary Key Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Adding a primary key | No | Yes* | Yes* | Yes | No |
Dropping a primary key | No | No | Yes | No | No |
Dropping a primary key and adding another | No | Yes | Yes | Yes | No |
Syntax and Usage Notes
Adding a primary key
ALTER TABLE tbl_name ADD PRIMARY KEY (column), ALGORITHM=INPLACE, LOCK=NONE;
Rebuilds the table in place. Data is reorganized substantially, making it an expensive operation.
ALGORITHM=INPLACE
is not permitted under certain conditions if columns have to be converted toNOT NULL
.Restructuring the clustered index always requires copying of table data. Thus, it is best to define the primary key when you create a table, rather than issuing
ALTER TABLE ... ADD PRIMARY KEY
later.When you create a
UNIQUE
orPRIMARY KEY
index, MySQL must do some extra work. ForUNIQUE
indexes, MySQL checks that the table contains no duplicate values for the key. For aPRIMARY KEY
index, MySQL also checks that none of thePRIMARY KEY
columns contains aNULL
.When you add a primary key using the
ALGORITHM=COPY
clause, MySQL convertsNULL
values in the associated columns to default values: 0 for numbers, an empty string for character-based columns and BLOBs, and 0000-00-00 00:00:00 forDATETIME
. This is a non-standard behavior that Oracle recommends you not rely on. Adding a primary key usingALGORITHM=INPLACE
is only permitted when theSQL_MODE
setting includes thestrict_trans_tables
orstrict_all_tables
flags; when theSQL_MODE
setting is strict,ALGORITHM=INPLACE
is permitted, but the statement can still fail if the requested primary key columns containNULL
values. TheALGORITHM=INPLACE
behavior is more standard-compliant.If you create a table without a primary key,
InnoDB
chooses one for you, which can be the firstUNIQUE
key defined onNOT NULL
columns, or a system-generated key. To avoid uncertainty and the potential space requirement for an extra hidden column, specify thePRIMARY KEY
clause as part of theCREATE TABLE
statement.MySQL creates a new clustered index by copying the existing data from the original table to a temporary table that has the desired index structure. Once the data is completely copied to the temporary table, the original table is renamed with a different temporary table name. The temporary table comprising the new clustered index is renamed with the name of the original table, and the original table is dropped from the database.
The online performance enhancements that apply to operations on secondary indexes do not apply to the primary key index. The rows of an InnoDB table are stored in a clustered index organized based on the primary key, forming what some database systems call an “index-organized table”. Because the table structure is closely tied to the primary key, redefining the primary key still requires copying the data.
When an operation on the primary key uses
ALGORITHM=INPLACE
, even though the data is still copied, it is more efficient than usingALGORITHM=COPY
because:No undo logging or associated redo logging is required for
ALGORITHM=INPLACE
. These operations add overhead to DDL statements that useALGORITHM=COPY
.The secondary index entries are pre-sorted, and so can be loaded in order.
The change buffer is not used, because there are no random-access inserts into the secondary indexes.
Dropping a primary key
ALTER TABLE tbl_name DROP PRIMARY KEY, ALGORITHM=COPY;
Only
ALGORITHM=COPY
supports dropping a primary key without adding a new one in the sameALTER TABLE
statement.Dropping a primary key and adding another
ALTER TABLE tbl_name DROP PRIMARY KEY, ADD PRIMARY KEY (column), ALGORITHM=INPLACE, LOCK=NONE;
Data is reorganized substantially, making it an expensive operation.
The following table provides an overview of online DDL support for column operations. An asterisk indicates additional information, an exception, or a dependency. For details, see Syntax and Usage Notes.
Table 17.18 Online DDL Support for Column Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Adding a column | Yes* | Yes | No* | Yes* | Yes |
Dropping a column | Yes* | Yes | Yes | Yes | Yes |
Renaming a column | Yes* | Yes | No | Yes* | Yes |
Reordering columns | No | Yes | Yes | Yes | No |
Setting a column default value | Yes | Yes | No | Yes | Yes |
Changing the column data type | No | No | Yes | No | No |
Extending VARCHAR column size |
No | Yes | No | Yes | Yes |
Dropping the column default value | Yes | Yes | No | Yes | Yes |
Changing the auto-increment value | No | Yes | No | Yes | No* |
Making a column NULL |
No | Yes | Yes* | Yes | No |
Making a column NOT NULL |
No | Yes* | Yes* | Yes | No |
Modifying the definition of an ENUM or
SET column |
Yes | Yes | No | Yes | Yes |
Syntax and Usage Notes
Adding a column
ALTER TABLE tbl_name ADD COLUMN column_name column_definition, ALGORITHM=INSTANT;
INSTANT
is the default algorithm as of MySQL 8.0.12, andINPLACE
before that.The following limitations apply when the
INSTANT
algorithm adds a column:A statement cannot combine the addition of a column with other
ALTER TABLE
actions that do not support theINSTANT
algorithm.The
INSTANT
algorithm can add a column at any position in the table. Before MySQL 8.0.29, theINSTANT
algorithm could only add a column as the last column of the table.Columns cannot be added to tables that use
ROW_FORMAT=COMPRESSED
, tables with aFULLTEXT
index, tables that reside in the data dictionary tablespace, or temporary tables. Temporary tables only supportALGORITHM=COPY
.MySQL checks the row size when the
INSTANT
algorithm adds a column, and throws the following error if the addition exceeds the limit.ERROR 4092 (HY000): Column can't be added with ALGORITHM=INSTANT as after this max possible row size crosses max permissible row size. Try ALGORITHM=INPLACE/COPY.
Before MySQL 8.0.29, MySQL does not check the row size when the
INSTANT
algorithm adds a column. However, MySQL does check the row size during DML operations that insert and update rows in the table.The maximum number of columns in the internal representation of the table cannot exceed 1022 after column addition with the
INSTANT
algorithm. The error message is:ERROR 4158 (HY000): Column can't be added to
tbl_name
with ALGORITHM=INSTANT anymore. Please try ALGORITHM=INPLACE/COPYThe
INSTANT
algorithm can not add or drop columns to system schema tables, such as the internalmysql
table. This limitation was added in MySQL 8.0.29.A column with a functional index cannot be dropped using the
INSTANT
algorithm.
Multiple columns may be added in the same
ALTER TABLE
statement. For example:ALTER TABLE t1 ADD COLUMN c2 INT, ADD COLUMN c3 INT, ALGORITHM=INSTANT;
A new row version is created after each
ALTER TABLE ... ALGORITHM=INSTANT
operation that adds one or more columns, drops one or more columns, or adds and drops one or more columns in the same operation. TheINFORMATION_SCHEMA.INNODB_TABLES.TOTAL_ROW_VERSIONS
column tracks the number of row versions for a table. The value is incremented each time a column is instantly added or dropped. The initial value is 0.mysql> SELECT NAME, TOTAL_ROW_VERSIONS FROM INFORMATION_SCHEMA.INNODB_TABLES WHERE NAME LIKE 'test/t1'; +---------+--------------------+ | NAME | TOTAL_ROW_VERSIONS | +---------+--------------------+ | test/t1 | 0 | +---------+--------------------+
When a table with instantly added or dropped columns is rebuilt by table-rebuilding
ALTER TABLE
orOPTIMIZE TABLE
operation, theTOTAL_ROW_VERSIONS
value is reset to 0. The maximum number of row versions permitted is 64, as each row version requires additional space for table metadata. When the row version limit is reached,ADD COLUMN
andDROP COLUMN
operations usingALGORITHM=INSTANT
are rejected with an error message that recommends rebuilding the table using theCOPY
orINPLACE
algorithm.ERROR 4080 (HY000): Maximum row versions reached for table test/t1. No more columns can be added or dropped instantly. Please use COPY/INPLACE.
The following
INFORMATION_SCHEMA
columns provide additional metadata for instantly added columns. Refer to the descriptions of those columns for more information. See Section 28.4.9, “The INFORMATION_SCHEMA INNODB_COLUMNS Table”, and Section 28.4.23, “The INFORMATION_SCHEMA INNODB_TABLES Table”.INNODB_COLUMNS.DEFAULT_VALUE
INNODB_COLUMNS.HAS_DEFAULT
INNODB_TABLES.INSTANT_COLS
Concurrent DML is not permitted when adding an auto-increment column. Data is reorganized substantially, making it an expensive operation. At a minimum,
ALGORITHM=INPLACE, LOCK=SHARED
is required.The table is rebuilt if
ALGORITHM=INPLACE
is used to add a column.Dropping a column
ALTER TABLE tbl_name DROP COLUMN column_name, ALGORITHM=INSTANT;
INSTANT
is the default algorithm as of MySQL 8.0.29, andINPLACE
before that.The following limitations apply when the
INSTANT
algorithm is used to drop a column:Dropping a column cannot be combined in the same statement with other
ALTER TABLE
actions that do not supportALGORITHM=INSTANT
.Columns cannot be dropped from tables that use
ROW_FORMAT=COMPRESSED
, tables with aFULLTEXT
index, tables that reside in the data dictionary tablespace, or temporary tables. Temporary tables only supportALGORITHM=COPY
.
Multiple columns may be dropped in the same
ALTER TABLE
statement; for example:ALTER TABLE t1 DROP COLUMN c4, DROP COLUMN c5, ALGORITHM=INSTANT;
Each time a column is added or dropped using
ALGORITHM=INSTANT
, a new row version is created. TheINFORMATION_SCHEMA.INNODB_TABLES.TOTAL_ROW_VERSIONS
column tracks the number of row versions for a table. The value is incremented each time a column is instantly added or dropped. The initial value is 0.mysql> SELECT NAME, TOTAL_ROW_VERSIONS FROM INFORMATION_SCHEMA.INNODB_TABLES WHERE NAME LIKE 'test/t1'; +---------+--------------------+ | NAME | TOTAL_ROW_VERSIONS | +---------+--------------------+ | test/t1 | 0 | +---------+--------------------+
When a table with instantly added or dropped columns is rebuilt by table-rebuilding
ALTER TABLE
orOPTIMIZE TABLE
operation, theTOTAL_ROW_VERSIONS
value is reset to 0. The maximum number of row versions permitted is 64, as each row version requires additional space for table metadata. When the row version limit is reached,ADD COLUMN
andDROP COLUMN
operations usingALGORITHM=INSTANT
are rejected with an error message that recommends rebuilding the table using theCOPY
orINPLACE
algorithm.ERROR 4080 (HY000): Maximum row versions reached for table test/t1. No more columns can be added or dropped instantly. Please use COPY/INPLACE.
If an algorithm other than
ALGORITHM=INSTANT
is used, data is reorganized substantially, making it an expensive operation.Renaming a column
ALTER TABLE tbl CHANGE old_col_name new_col_name data_type, ALGORITHM=INSTANT;
ALGORITHM=INSTANT
support for renaming a column was added in MySQL 8.0.28. Earlier MySQL Server releases support onlyALGORITHM=INPLACE
andALGORITHM=COPY
when renaming a column.To permit concurrent DML, keep the same data type and only change the column name.
When you keep the same data type and
[NOT] NULL
attribute, only changing the column name, the operation can always be performed online.Renaming a column referenced from another table is only permitted with
ALGORITHM=INPLACE
. If you useALGORITHM=INSTANT
,ALGORITHM=COPY
, or some other condition that causes the operation to use those algorithms, theALTER TABLE
statement fails.ALGORITHM=INSTANT
supports renaming a virtual column;ALGORITHM=INPLACE
does not.ALGORITHM=INSTANT
andALGORITHM=INPLACE
do not support renaming a column when adding or dropping a virtual column in the same statement. In this case, onlyALGORITHM=COPY
is supported.Reordering columns
To reorder columns, use
FIRST
orAFTER
inCHANGE
orMODIFY
operations.ALTER TABLE tbl_name MODIFY COLUMN col_name column_definition FIRST, ALGORITHM=INPLACE, LOCK=NONE;
Data is reorganized substantially, making it an expensive operation.
Changing the column data type
ALTER TABLE tbl_name CHANGE c1 c1 BIGINT, ALGORITHM=COPY;
Changing the column data type is only supported with
ALGORITHM=COPY
.Extending
VARCHAR
column sizeALTER TABLE tbl_name CHANGE COLUMN c1 c1 VARCHAR(255), ALGORITHM=INPLACE, LOCK=NONE;
The number of length bytes required by a
VARCHAR
column must remain the same. ForVARCHAR
columns of 0 to 255 bytes in size, one length byte is required to encode the value. ForVARCHAR
columns of 256 bytes in size or more, two length bytes are required. As a result, in-placeALTER TABLE
only supports increasingVARCHAR
column size from 0 to 255 bytes, or from 256 bytes to a greater size. In-placeALTER TABLE
does not support increasing the size of aVARCHAR
column from less than 256 bytes to a size equal to or greater than 256 bytes. In this case, the number of required length bytes changes from 1 to 2, which is only supported by a table copy (ALGORITHM=COPY
). For example, attempting to changeVARCHAR
column size for a single byte character set from VARCHAR(255) to VARCHAR(256) using in-placeALTER TABLE
returns this error:ALTER TABLE tbl_name ALGORITHM=INPLACE, CHANGE COLUMN c1 c1 VARCHAR(256); ERROR 0A000: ALGORITHM=INPLACE is not supported. Reason: Cannot change column type INPLACE. Try ALGORITHM=COPY.
NoteThe byte length of a
VARCHAR
column is dependant on the byte length of the character set.Decreasing
VARCHAR
size using in-placeALTER TABLE
is not supported. DecreasingVARCHAR
size requires a table copy (ALGORITHM=COPY
).Setting a column default value
ALTER TABLE tbl_name ALTER COLUMN col SET DEFAULT literal, ALGORITHM=INSTANT;
Only modifies table metadata. Default column values are stored in the data dictionary.
Dropping a column default value
ALTER TABLE tbl ALTER COLUMN col DROP DEFAULT, ALGORITHM=INSTANT;
Changing the auto-increment value
ALTER TABLE table AUTO_INCREMENT=next_value, ALGORITHM=INPLACE, LOCK=NONE;
Modifies a value stored in memory, not the data file.
In a distributed system using replication or sharding, you sometimes reset the auto-increment counter for a table to a specific value. The next row inserted into the table uses the specified value for its auto-increment column. You might also use this technique in a data warehousing environment where you periodically empty all the tables and reload them, and restart the auto-increment sequence from 1.
Making a column
NULL
ALTER TABLE tbl_name MODIFY COLUMN column_name data_type NULL, ALGORITHM=INPLACE, LOCK=NONE;
Rebuilds the table in place. Data is reorganized substantially, making it an expensive operation.
Making a column
NOT NULL
ALTER TABLE tbl_name MODIFY COLUMN column_name data_type NOT NULL, ALGORITHM=INPLACE, LOCK=NONE;
Rebuilds the table in place.
STRICT_ALL_TABLES
orSTRICT_TRANS_TABLES
SQL_MODE
is required for the operation to succeed. The operation fails if the column contains NULL values. The server prohibits changes to foreign key columns that have the potential to cause loss of referential integrity. See Section 15.1.9, “ALTER TABLE Statement”. Data is reorganized substantially, making it an expensive operation.Modifying the definition of an
ENUM
orSET
columnCREATE TABLE t1 (c1 ENUM('a', 'b', 'c')); ALTER TABLE t1 MODIFY COLUMN c1 ENUM('a', 'b', 'c', 'd'), ALGORITHM=INSTANT;
Modifying the definition of an
ENUM
orSET
column by adding new enumeration or set members to the end of the list of valid member values may be performed instantly or in place, as long as the storage size of the data type does not change. For example, adding a member to aSET
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.
The following table provides an overview of online DDL support for generated column operations. For details, see Syntax and Usage Notes.
Table 17.19 Online DDL Support for Generated Column Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Adding a STORED column |
No | No | Yes | No | No |
Modifying STORED column order |
No | No | Yes | No | No |
Dropping a STORED column |
No | Yes | Yes | Yes | No |
Adding a VIRTUAL column |
Yes | Yes | No | Yes | Yes |
Modifying VIRTUAL column order |
No | No | Yes | No | No |
Dropping a VIRTUAL column |
Yes | Yes | No | Yes | Yes |
Syntax and Usage Notes
Adding a
STORED
columnALTER TABLE t1 ADD COLUMN (c2 INT GENERATED ALWAYS AS (c1 + 1) STORED), ALGORITHM=COPY;
ADD COLUMN
is not an in-place operation for stored columns (done without using a temporary table) because the expression must be evaluated by the server.Modifying
STORED
column orderALTER TABLE t1 MODIFY COLUMN c2 INT GENERATED ALWAYS AS (c1 + 1) STORED FIRST, ALGORITHM=COPY;
Rebuilds the table in place.
Dropping a
STORED
columnALTER TABLE t1 DROP COLUMN c2, ALGORITHM=INPLACE, LOCK=NONE;
Rebuilds the table in place.
Adding a
VIRTUAL
columnALTER TABLE t1 ADD COLUMN (c2 INT GENERATED ALWAYS AS (c1 + 1) VIRTUAL), ALGORITHM=INSTANT;
Adding a virtual column can be performed instantly or in place for non-partitioned tables.
Adding a
VIRTUAL
is not an in-place operation for partitioned tables.Modifying
VIRTUAL
column orderALTER TABLE t1 MODIFY COLUMN c2 INT GENERATED ALWAYS AS (c1 + 1) VIRTUAL FIRST, ALGORITHM=COPY;
Dropping a
VIRTUAL
columnALTER TABLE t1 DROP COLUMN c2, ALGORITHM=INSTANT;
Dropping a
VIRTUAL
column can be performed instantly or in place for non-partitioned tables.
The following table provides an overview of online DDL support for foreign key operations. An asterisk indicates additional information, an exception, or a dependency. For details, see Syntax and Usage Notes.
Table 17.20 Online DDL Support for Foreign Key Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Adding a foreign key constraint | No | Yes* | No | Yes | Yes |
Dropping a foreign key constraint | No | Yes | No | Yes | Yes |
Syntax and Usage Notes
Adding a foreign key constraint
The
INPLACE
algorithm is supported whenforeign_key_checks
is disabled. Otherwise, only theCOPY
algorithm is supported.ALTER TABLE tbl1 ADD CONSTRAINT fk_name FOREIGN KEY index (col1) REFERENCES tbl2(col2) referential_actions;
Dropping a foreign key constraint
ALTER TABLE tbl DROP FOREIGN KEY fk_name;
Dropping a foreign key can be performed online with the
foreign_key_checks
option enabled or disabled.If you do not know the names of the foreign key constraints on a particular table, issue the following statement and find the constraint name in the
CONSTRAINT
clause for each foreign key:SHOW CREATE TABLE table\G
Or, query the Information Schema
TABLE_CONSTRAINTS
table and use theCONSTRAINT_NAME
andCONSTRAINT_TYPE
columns to identify the foreign key names.You can also drop a foreign key and its associated index in a single statement:
ALTER TABLE table DROP FOREIGN KEY constraint, DROP INDEX index;
If foreign keys are
already present in the table being altered (that is, it is a
child table containing
a FOREIGN KEY ... REFERENCE
clause),
additional restrictions apply to online DDL operations, even
those not directly involving the foreign key columns:
An
ALTER TABLE
on the child table could wait for another transaction to commit, if a change to the parent table causes associated changes in the child table through anON UPDATE
orON DELETE
clause using theCASCADE
orSET NULL
parameters.In the same way, if a table is the parent table in a foreign key relationship, even though it does not contain any
FOREIGN KEY
clauses, it could wait for theALTER TABLE
to complete if anINSERT
,UPDATE
, orDELETE
statement causes anON UPDATE
orON DELETE
action in the child table.
The following table provides an overview of online DDL support for table operations. An asterisk indicates additional information, an exception, or a dependency. For details, see Syntax and Usage Notes.
Table 17.21 Online DDL Support for Table Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Changing the ROW_FORMAT |
No | Yes | Yes | Yes | No |
Changing the KEY_BLOCK_SIZE |
No | Yes | Yes | Yes | No |
Setting persistent table statistics | No | Yes | No | Yes | Yes |
Specifying a character set | No | Yes | Yes* | Yes | No |
Converting a character set | No | No | Yes* | No | No |
Optimizing a table | No | Yes* | Yes | Yes | No |
Rebuilding with the FORCE option |
No | Yes* | Yes | Yes | No |
Performing a null rebuild | No | Yes* | Yes | Yes | No |
Renaming a table | Yes | Yes | No | Yes | Yes |
Syntax and Usage Notes
Changing the
ROW_FORMAT
ALTER TABLE tbl_name ROW_FORMAT = row_format, ALGORITHM=INPLACE, LOCK=NONE;
Data is reorganized substantially, making it an expensive operation.
For additional information about the
ROW_FORMAT
option, see Table Options.Changing the
KEY_BLOCK_SIZE
ALTER TABLE tbl_name KEY_BLOCK_SIZE = value, ALGORITHM=INPLACE, LOCK=NONE;
Data is reorganized substantially, making it an expensive operation.
For additional information about the
KEY_BLOCK_SIZE
option, see Table Options.Setting persistent table statistics options
ALTER TABLE tbl_name STATS_PERSISTENT=0, STATS_SAMPLE_PAGES=20, STATS_AUTO_RECALC=1, ALGORITHM=INPLACE, LOCK=NONE;
Only modifies table metadata.
Persistent statistics include
STATS_PERSISTENT
,STATS_AUTO_RECALC
, andSTATS_SAMPLE_PAGES
. For more information, see Section 17.8.10.1, “Configuring Persistent Optimizer Statistics Parameters”.Specifying a character set
ALTER TABLE tbl_name CHARACTER SET = charset_name, ALGORITHM=INPLACE, LOCK=NONE;
Rebuilds the table if the new character encoding is different.
Converting a character set
ALTER TABLE tbl_name CONVERT TO CHARACTER SET charset_name, ALGORITHM=COPY;
Rebuilds the table if the new character encoding is different.
Optimizing a table
OPTIMIZE TABLE tbl_name;
In-place operation is not supported for tables with
FULLTEXT
indexes. The operation uses theINPLACE
algorithm, butALGORITHM
andLOCK
syntax is not permitted.Rebuilding a table with the
FORCE
optionALTER TABLE tbl_name FORCE, ALGORITHM=INPLACE, LOCK=NONE;
Uses
ALGORITHM=INPLACE
as of MySQL 5.6.17.
ALGORITHM=INPLACE
is not supported for tables withFULLTEXT
indexes.Performing a "null" rebuild
ALTER TABLE tbl_name ENGINE=InnoDB, ALGORITHM=INPLACE, LOCK=NONE;
Uses
ALGORITHM=INPLACE
as of MySQL 5.6.17.ALGORITHM=INPLACE
is not supported for tables withFULLTEXT
indexes.Renaming a table
ALTER TABLE old_tbl_name RENAME TO new_tbl_name, ALGORITHM=INSTANT;
Renaming a table can be performed instantly or in place. MySQL renames files that correspond to the table
tbl_name
without making a copy. (You can also use theRENAME TABLE
statement to rename tables. See Section 15.1.36, “RENAME TABLE Statement”.) Privileges granted specifically for the renamed table are not migrated to the new name. They must be changed manually.
The following table provides an overview of online DDL support for tablespace operations. For details, see Syntax and Usage Notes.
Table 17.22 Online DDL Support for Tablespace Operations
Operation | Instant | In Place | Rebuilds Table | Permits Concurrent DML | Only Modifies Metadata |
---|---|---|---|---|---|
Renaming a general tablespace | No | Yes | No | Yes | Yes |
Enabling or disabling general tablespace encryption | No | Yes | No | Yes | No |
Enabling or disabling file-per-table tablespace encryption | No | No | Yes | No | No |
Syntax and Usage Notes
Renaming a general tablespace
ALTER TABLESPACE tablespace_name RENAME TO new_tablespace_name;
ALTER TABLESPACE ... RENAME TO
uses theINPLACE
algorithm but does not support theALGORITHM
clause.Enabling or disabling general tablespace encryption
ALTER TABLESPACE tablespace_name ENCRYPTION='Y';
ALTER TABLESPACE ... ENCRYPTION
uses theINPLACE
algorithm but does not support theALGORITHM
clause.For related information, see Section 17.13, “InnoDB Data-at-Rest Encryption”.
Enabling or disabling file-per-table tablespace encryption
ALTER TABLE tbl_name ENCRYPTION='Y', ALGORITHM=COPY;
For related information, see Section 17.13, “InnoDB Data-at-Rest Encryption”.
With the exception of some ALTER
TABLE
partitioning clauses, online DDL operations for
partitioned InnoDB
tables follow the same
rules that apply to regular InnoDB
tables.
Some ALTER TABLE
partitioning
clauses do not go through the same internal online DDL API as
regular non-partitioned InnoDB
tables. As a
result, online support for ALTER
TABLE
partitioning clauses varies.
The following table shows the online status for each
ALTER TABLE
partitioning statement.
Regardless of the online DDL API that is used, MySQL attempts to
minimize data copying and locking where possible.
ALTER TABLE
partitioning options
that use ALGORITHM=COPY
or that only permit
“ALGORITHM=DEFAULT,
LOCK=DEFAULT
”, repartition the table using the
COPY
algorithm. In other words, a new
partitioned table is created with the new partitioning scheme.
The newly created table includes any changes applied by the
ALTER TABLE
statement, and table
data is copied into the new table structure.
Table 17.23 Online DDL Support for Partitioning Operations
Partitioning Clause | Instant | In Place | Permits DML | Notes |
---|---|---|---|---|
PARTITION BY |
No | No | No | Permits ALGORITHM=COPY ,
LOCK={DEFAULT|SHARED|EXCLUSIVE} |
ADD PARTITION |
No | Yes* | Yes* | ALGORITHM=INPLACE,
LOCK={DEFAULT|NONE|SHARED|EXCLUSISVE} is
supported for RANGE and
LIST partitions,
ALGORITHM=INPLACE,
LOCK={DEFAULT|SHARED|EXCLUSISVE} for
HASH and KEY
partitions, and ALGORITHM=COPY,
LOCK={SHARED|EXCLUSIVE} for all partition types.
Does not copy existing data for tables partitioned by
RANGE or LIST .
Concurrent queries are permitted with
ALGORITHM=COPY for tables partitioned
by HASH or LIST , as
MySQL copies the data while holding a shared lock. |
DROP PARTITION |
No | Yes* | Yes* |
|
DISCARD PARTITION |
No | No | No | Only permits ALGORITHM=DEFAULT ,
LOCK=DEFAULT |
IMPORT PARTITION |
No | No | No | Only permits ALGORITHM=DEFAULT ,
LOCK=DEFAULT |
TRUNCATE
PARTITION |
No | Yes | Yes | Does not copy existing data. It merely deletes rows; it does not alter the definition of the table itself, or of any of its partitions. |
COALESCE
PARTITION |
No | Yes* | No | ALGORITHM=INPLACE, LOCK={DEFAULT|SHARED|EXCLUSIVE} is
supported. |
REORGANIZE
PARTITION |
No | Yes* | No | ALGORITHM=INPLACE, LOCK={DEFAULT|SHARED|EXCLUSIVE} is
supported. |
EXCHANGE
PARTITION |
No | Yes | Yes | |
ANALYZE PARTITION |
No | Yes | Yes | |
CHECK PARTITION |
No | Yes | Yes | |
OPTIMIZE
PARTITION |
No | No | No | ALGORITHM and LOCK clauses are
ignored. Rebuilds the entire table. See
Section 26.3.4, “Maintenance of Partitions”. |
REBUILD PARTITION |
No | Yes* | No | ALGORITHM=INPLACE, LOCK={DEFAULT|SHARED|EXCLUSIVE} is
supported. |
REPAIR PARTITION |
No | Yes | Yes | |
REMOVE
PARTITIONING |
No | No | No | Permits ALGORITHM=COPY ,
LOCK={DEFAULT|SHARED|EXCLUSIVE} |
Non-partitioning online ALTER
TABLE
operations on partitioned tables follow the same
rules that apply to regular tables. However,
ALTER TABLE
performs online
operations on each table partition, which causes increased
demand on system resources due to operations being performed on
multiple partitions.
For additional information about ALTER
TABLE
partitioning clauses, see
Partitioning Options, and
Section 15.1.9.1, “ALTER TABLE Partition Operations”. For
information about partitioning in general, see
Chapter 26, Partitioning.