ALTER TABLE

Syntax

ALTER [ONLINE] [IGNORE] TABLE [IF EXISTS] tbl_name [WAIT n | NOWAIT] alter_specification [, alter_specification] ...

alter_specification: table_option ... | ADD [COLUMN] [IF NOT EXISTS] col_name column_definition [FIRST | AFTER col_name ] | ADD [COLUMN] [IF NOT EXISTS] (col_name column_definition,...) | ADD {INDEX|KEY} [IF NOT EXISTS] [index_name] [index_type] (index_col_name,...) [index_option] ... | ADD [CONSTRAINT [symbol]] PRIMARY KEY [index_type] (index_col_name,...) [index_option] ... | ADD [CONSTRAINT [symbol]] UNIQUE [INDEX|KEY] [index_name] [index_type] (index_col_name,...) [index_option] ... | ADD FULLTEXT [INDEX|KEY] [index_name] (index_col_name,...) [index_option] ... | ADD SPATIAL [INDEX|KEY] [index_name] (index_col_name,...) [index_option] ... | ADD [CONSTRAINT [symbol]] FOREIGN KEY [IF NOT EXISTS] [index_name] (index_col_name,...) reference_definition | ADD PERIOD FOR [time_period_name|SYSTEM_TIME] (start_column_name, end_column_name) | ALTER [COLUMN] col_name SET DEFAULT literal | (expression) | ALTER [COLUMN] col_name DROP DEFAULT | ALTER {INDEX|KEY} index_name [NOT] INVISIBLE | CHANGE [COLUMN] [IF EXISTS] old_col_name new_col_name column_definition [FIRST|AFTER col_name] | MODIFY [COLUMN] [IF EXISTS] col_name column_definition [FIRST | AFTER col_name] | DROP [COLUMN] [IF EXISTS] col_name [RESTRICT|CASCADE] | DROP PRIMARY KEY | DROP {INDEX|KEY} [IF EXISTS] index_name | DROP FOREIGN KEY [IF EXISTS] fk_symbol | DROP CONSTRAINT [IF EXISTS] constraint_name | DISABLE KEYS | ENABLE KEYS | RENAME [TO] new_tbl_name | ORDER BY col_name [, col_name] ... | RENAME COLUMN old_col_name TO new_col_name | RENAME {INDEX|KEY} old_index_name TO new_index_name | CONVERT TO CHARACTER SET charset_name [COLLATE collation_name] | [DEFAULT] CHARACTER SET [=] charset_name | [DEFAULT] COLLATE [=] collation_name | DISCARD TABLESPACE | IMPORT TABLESPACE | ALGORITHM [=] {DEFAULT|INPLACE|COPY|NOCOPY|INSTANT} | LOCK [=] {DEFAULT|NONE|SHARED|EXCLUSIVE} | FORCE | partition_options | CONVERT TABLE normal_table TO partition_definition [{WITH | WITHOUT} VALIDATION] | CONVERT PARTITION partition_name TO TABLE tbl_name | ADD PARTITION [IF NOT EXISTS] (partition_definition) | DROP PARTITION [IF EXISTS] partition_names | TRUNCATE PARTITION partition_names | COALESCE PARTITION number | REORGANIZE PARTITION [partition_names INTO (partition_definitions)] | ANALYZE PARTITION partition_names | CHECK PARTITION partition_names | OPTIMIZE PARTITION partition_names | REBUILD PARTITION partition_names | REPAIR PARTITION partition_names | EXCHANGE PARTITION partition_name WITH TABLE tbl_name [{WITH | WITHOUT} VALIDATION] | REMOVE PARTITIONING | ADD SYSTEM VERSIONING | DROP SYSTEM VERSIONING

index_col_name: col_name [(length)] [ASC | DESC]

index_type: USING {BTREE | HASH | RTREE}

index_option: [ KEY_BLOCK_SIZE [=] value | index_type | WITH PARSER parser_name | VISIBLE | COMMENT 'string' | CLUSTERING={YES| NO} ] [ IGNORED | NOT IGNORED ]

table_options: table_option [[,] table_option] ...

Description

ALTER TABLE enables you to change the structure of an existing 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 the comment for the table and the storage engine of the table.

If another connection is using the table, a metadata lock is active, and this statement will wait until the lock is released. This is also true for non-transactional tables.

When adding a UNIQUE index on a column (or a set of columns) which have duplicated values, an error will be produced and the statement will be stopped. To suppress the error and force the creation of UNIQUE indexes, discarding duplicates, the IGNORE option can be specified. This can be useful if a column (or a set of columns) should be UNIQUE but it contains duplicate values; however, this technique provides no control on which rows are preserved and which are deleted. Also, note that IGNORE is accepted but ignored in ALTER TABLE ... EXCHANGE PARTITION statements.

This statement can also be used to rename a table. For details see RENAME TABLE.

When an index is created, the storage engine may use a configurable buffer in the process. Incrementing the buffer speeds up the index creation. Aria and MyISAM allocate a buffer whose size is defined by aria_sort_buffer_size or myisam_sort_buffer_size, also used for REPAIR TABLE. InnoDB allocates three buffers whose size is defined by innodb_sort_buffer_size.

Privileges

Executing the ALTER TABLE statement generally requires at least the ALTER privilege for the table or the database..

If you are renaming a table, then it also requires the DROP, CREATE and INSERT privileges for the table or the database as well.

Online DDL

Online DDL is supported with the ALGORITHM and LOCK clauses.

See InnoDB Online DDL Overview for more information on online DDL with InnoDB.

ALTER ONLINE TABLE

ALTER ONLINE TABLE also works for partitioned tables.

Online ALTER TABLE is available by executing the following:

ALTER ONLINE TABLE ...;

This statement is equivalent to the following:

ALTER TABLE ... LOCK=NONE;

See the LOCK alter specification for more information.

WAIT/NOWAIT

Set the lock wait timeout. See WAIT and NOWAIT.

IF EXISTS

The IF EXISTS and IF NOT EXISTS clauses are available for the following:

ADD COLUMN [IF NOT EXISTS] ADD INDEX [IF NOT EXISTS] ADD FOREIGN KEY [IF NOT EXISTS] ADD PARTITION [IF NOT EXISTS] CREATE INDEX [IF NOT EXISTS]

DROP COLUMN [IF EXISTS] DROP INDEX [IF EXISTS] DROP FOREIGN KEY [IF EXISTS] DROP PARTITION [IF EXISTS] CHANGE COLUMN [IF EXISTS] MODIFY COLUMN [IF EXISTS] DROP INDEX [IF EXISTS]

When IF EXISTS and IF NOT EXISTS are used in clauses, queries will not report errors when the condition is triggered for that clause. A warning with the same message text will be issued and the ALTER will move on to the next clause in the statement (or end if finished).

MariaDB starting with 10.5.2

If this is directive is used after ALTER ... TABLE, one will not get an error if the table doesn't exist.

Column Definitions

See CREATE TABLE: Column Definitions for information about column definitions.

Index Definitions

See CREATE TABLE: Index Definitions for information about index definitions.

The CREATE INDEX and DROP INDEX statements can also be used to add or remove an index.

Character Sets and Collations

CONVERT TO CHARACTER SET charset_name [COLLATE collation_name] [DEFAULT] CHARACTER SET [=] charset_name [DEFAULT] COLLATE [=] collation_name

See Setting Character Sets and Collations for details on setting the character sets and collations.

Alter Specifications

Table Options

See CREATE TABLE: Table Options for information about table options.

ADD COLUMN

... ADD COLUMN [IF NOT EXISTS] (col_name column_definition,...)

Adds a column to the table. The syntax is the same as in CREATE TABLE. If you are using IF NOT_EXISTS the column will not be added if it was not there already. This is very useful when doing scripts to modify tables.

The FIRST and AFTER clauses affect the physical order of columns in the datafile. Use FIRST to add a column in the first (leftmost) position, or AFTER followed by a column name to add the new column in any other position. Note that, nowadays, the physical position of a column is usually irrelevant.

See also Instant ADD COLUMN for InnoDB.

DROP COLUMN

... DROP COLUMN [IF EXISTS] col_name [CASCADE|RESTRICT]

Drops the column from the table. If you are using IF EXISTS you will not get an error if the column didn't exist. If the column is part of any index, the column will be dropped from them, except if you add a new column with identical name at the same time. The index will be dropped if all columns from the index were dropped. If the column was used in a view or trigger, you will get an error next time the view or trigger is accessed. Dropping a column that is part of a multi-column UNIQUE constraint is not permitted. For example:

CREATE TABLE a (
  a int,
  b int,
  primary key (a,b)
);

ALTER TABLE x DROP COLUMN a;
[42000][1072] Key column 'A' doesn't exist in table

The reason is that dropping column a would result in the new constraint that all values in column b be unique. In order to drop the column, an explicit DROP PRIMARY KEY and ADD PRIMARY KEY would be required. Up until MariaDB 10.2.7, the column was dropped and the additional constraint applied, resulting in the following structure:

ALTER TABLE x DROP COLUMN a;
Query OK, 0 rows affected (0.46 sec)

DESC x;
+-------+---------+------+-----+---------+-------+
| Field | Type    | Null | Key | Default | Extra |
+-------+---------+------+-----+---------+-------+
| b     | int(11) | NO   | PRI | NULL    |       |
+-------+---------+------+-----+---------+-------+

MariaDB supports instant DROP COLUMN. DROP COLUMN of an indexed column would imply DROP INDEX (and in the case of a non-UNIQUE multi-column index, possibly ADD INDEX). These will not be allowed with ALGORITHM=INSTANT, but unlike prior to MariaDB 10.4, they can be allowed with ALGORITHM=NOCOPY

RESTRICT and CASCADE are allowed to make porting from other database systems easier. In MariaDB, they do nothing.

MODIFY COLUMN

Allows you to modify the type of a column. The column will be at the same place as the original column and all indexes on the column will be kept. Note that when modifying column, you should specify all attributes for the new column.

CREATE TABLE t1 (a INT UNSIGNED AUTO_INCREMENT, PRIMARY KEY((a));
ALTER TABLE t1 MODIFY a BIGINT UNSIGNED AUTO_INCREMENT;

CHANGE COLUMN

Works like MODIFY COLUMN except that you can also change the name of the column. The column will be at the same place as the original column and all index on the column will be kept.

CREATE TABLE t1 (a INT UNSIGNED AUTO_INCREMENT, PRIMARY KEY(a));
ALTER TABLE t1 CHANGE a b BIGINT UNSIGNED AUTO_INCREMENT;

ALTER COLUMN

This lets you change column options.

CREATE TABLE t1 (a INT UNSIGNED AUTO_INCREMENT, b varchar(50), PRIMARY KEY(a));
ALTER TABLE t1 ALTER b SET DEFAULT 'hello';

RENAME INDEX/KEY

MariaDB starting with 10.5.2

From MariaDB 10.5.2, it is possible to rename an index using the RENAME INDEX (or RENAME KEY) syntax, for example:

ALTER TABLE t1 RENAME INDEX i_old TO i_new;

RENAME COLUMN

MariaDB starting with 10.5.2

From MariaDB 10.5.2, it is possible to rename a column using the RENAME COLUMN syntax, for example:

ALTER TABLE t1 RENAME COLUMN c_old TO c_new;

ADD PRIMARY KEY

Add a primary key.

For PRIMARY KEY indexes, you can specify a name for the index, but it is silently ignored, and the name of the index is always PRIMARY.

See Getting Started with Indexes: Primary Key for more information.

DROP PRIMARY KEY

Drop a primary key.

For PRIMARY KEY indexes, you can specify a name for the index, but it is silently ignored, and the name of the index is always PRIMARY.

See Getting Started with Indexes: Primary Key for more information.

ADD FOREIGN KEY

Add a foreign key.

For FOREIGN KEY indexes, a reference definition must be provided.

For FOREIGN KEY indexes, you can specify a name for the constraint, using the CONSTRAINT keyword. That name will be used in error messages.

First, you have to specify the name of the target (parent) table and a column or a column list which must be indexed and whose values must match to the foreign key's values. The MATCH clause is accepted to improve the compatibility with other DBMS's, but has no meaning in MariaDB. The ON DELETE and ON UPDATE clauses specify what must be done when a DELETE (or a REPLACE) statements attempts to delete a referenced row from the parent table, and when an UPDATE statement attempts to modify the referenced foreign key columns in a parent table row, respectively. The following options are allowed:

  • RESTRICT: The delete/update operation is not performed. The statement terminates with a 1451 error (SQLSTATE '2300').
  • NO ACTION: Synonym for RESTRICT.
  • CASCADE: The delete/update operation is performed in both tables.
  • SET NULL: The update or delete goes ahead in the parent table, and the corresponding foreign key fields in the child table are set to NULL. (They must not be defined as NOT NULL for this to succeed).
  • SET DEFAULT: This option is implemented only for the legacy PBXT storage engine, which is disabled by default and no longer maintained. It sets the child table's foreign key fields to their DEFAULT values when the referenced parent table key entries are updated or deleted.

If either clause is omitted, the default behavior for the omitted clause is RESTRICT.

See Foreign Keys for more information.

DROP FOREIGN KEY

Drop a foreign key.

See Foreign Keys for more information.

ADD INDEX

Add a plain index.

Plain indexes are regular indexes that are not unique, and are not acting as a primary key or a foreign key. They are also not the "specialized" FULLTEXT or SPATIAL indexes. For limits on InnoDB indexes, see InnoDB Limitations.

See Getting Started with Indexes: Plain Indexes for more information.

DROP INDEX

Drop a plain index.

Plain indexes are regular indexes that are not unique, and are not acting as a primary key or a foreign key. They are also not the "specialized" FULLTEXT or SPATIAL indexes.

See Getting Started with Indexes: Plain Indexes for more information.

ADD UNIQUE INDEX

Add a unique index.

The UNIQUE keyword means that the index will not accept duplicated values, except for NULLs. An error will raise if you try to insert duplicate values in a UNIQUE index.

For UNIQUE indexes, you can specify a name for the constraint, using the CONSTRAINT keyword. That name will be used in error messages.

See Getting Started with Indexes: Unique Index for more information.

DROP UNIQUE INDEX

Drop a unique index.

The UNIQUE keyword means that the index will not accept duplicated values, except for NULLs. An error will raise if you try to insert duplicate values in a UNIQUE index.

For UNIQUE indexes, you can specify a name for the constraint, using the CONSTRAINT keyword. That name will be used in error messages.

See Getting Started with Indexes: Unique Index for more information.

ADD FULLTEXT INDEX

Add a FULLTEXT index.

See Full-Text Indexes for more information.

DROP FULLTEXT INDEX

Drop a FULLTEXT index.

See Full-Text Indexes for more information.

ADD SPATIAL INDEX

Add a SPATIAL index.

See SPATIAL INDEX for more information.

DROP SPATIAL INDEX

Drop a SPATIAL index.

See SPATIAL INDEX for more information.

ENABLE/ DISABLE KEYS

DISABLE KEYS will disable all non unique keys for the table for storage engines that support this (at least MyISAM and Aria). This can be used to speed up inserts into empty tables.

ENABLE KEYS will enable all disabled keys.

RENAME TO

Renames the table. See also RENAME TABLE.

ADD CONSTRAINT

Modifies the table adding a constraint on a particular column or columns.

ALTER TABLE table_name ADD CONSTRAINT [constraint_name] CHECK(expression);

Before a row is inserted or updated, all constraints are evaluated in the order they are defined. If any constraint fails, then the row will not be updated. One can use most deterministic functions in a constraint, including UDF's.

CREATE TABLE account_ledger (
	id INT PRIMARY KEY AUTO_INCREMENT,
	transaction_name VARCHAR(100),
	credit_account VARCHAR(100),
	credit_amount INT,
	debit_account VARCHAR(100),
	debit_amount INT);

ALTER TABLE account_ledger 
ADD CONSTRAINT is_balanced 
    CHECK((debit_amount + credit_amount) = 0);

The constraint_name is optional. If you don't provide one in the ALTER TABLE statement, MariaDB auto-generates a name for you. This is done so that you can remove it later using DROP CONSTRAINT clause.

You can disable all constraint expression checks by setting the variable check_constraint_checks to OFF. You may find this useful when loading a table that violates some constraints that you want to later find and fix in SQL.

To view constraints on a table, query information_schema.TABLE_CONSTRAINTS:

SELECT CONSTRAINT_NAME, TABLE_NAME, CONSTRAINT_TYPE 
FROM information_schema.TABLE_CONSTRAINTS
WHERE TABLE_NAME = 'account_ledger';

+-----------------+----------------+-----------------+
| CONSTRAINT_NAME | TABLE_NAME     | CONSTRAINT_TYPE |
+-----------------+----------------+-----------------+
| is_balanced     | account_ledger | CHECK           |
+-----------------+----------------+-----------------+

DROP CONSTRAINT

DROP CONSTRAINT for UNIQUE and FOREIGN KEY constraints was introduced in MariaDB 10.2.22 and MariaDB 10.3.13.

DROP CONSTRAINT for CHECK constraints was introduced in MariaDB 10.2.1

Modifies the table, removing the given constraint.

ALTER TABLE table_name
DROP CONSTRAINT constraint_name;

When you add a constraint to a table, whether through a CREATE TABLE or ALTER TABLE...ADD CONSTRAINT statement, you can either set a constraint_name yourself, or allow MariaDB to auto-generate one for you. To view constraints on a table, query information_schema.TABLE_CONSTRAINTS. For instance,

CREATE TABLE t (
   a INT,
   b INT,
   c INT,
   CONSTRAINT CHECK(a > b),
   CONSTRAINT check_equals CHECK(a = c)); 

SELECT CONSTRAINT_NAME, TABLE_NAME, CONSTRAINT_TYPE 
FROM information_schema.TABLE_CONSTRAINTS
WHERE TABLE_NAME = 't';

+-----------------+----------------+-----------------+
| CONSTRAINT_NAME | TABLE_NAME     | CONSTRAINT_TYPE |
+-----------------+----------------+-----------------+
| check_equals    | t              | CHECK           |
| CONSTRAINT_1    | t              | CHECK           |
+-----------------+----------------+-----------------+

To remove a constraint from the table, issue an ALTER TABLE...DROP CONSTRAINT statement. For example,

ALTER TABLE t DROP CONSTRAINT is_unique;

ADD SYSTEM VERSIONING

Add system versioning. See System-versioned tables.

DROP SYSTEM VERSIONING

Drop system versioning. See System-versioned tables.

ADD PERIOD FOR

See System-versioned tables, Application-time-period tables or Bitemporal Tables.

FORCE

ALTER TABLE ... FORCE can force MariaDB to re-build the table.

In MariaDB 5.5 and before, this could only be done by setting the ENGINE table option to its old value. For example, for an InnoDB table, one could execute the following:

ALTER TABLE tab_name ENGINE = InnoDB;

The FORCE option can be used instead. For example, :

ALTER TABLE tab_name FORCE;

With InnoDB, the table rebuild will only reclaim unused space (i.e. the space previously used for deleted rows) if the innodb_file_per_table system variable is set to ON (the default). If the system variable is OFF, then the space will not be reclaimed, but it will be-re-used for new data that's later added.

The rebuild may fail if conditions are violated due to a change in the sql_mode. For example:

CREATE OR REPLACE TABLE x (d DATE DEFAULT '0000-00-00');

SET SQL_MODE='NO_ZERO_DATE';

ALTER TABLE x FORCE;
ERROR 1067 (42000): Invalid default value for 'd'

Partitions

ADD PARTITION

See Partitioning Overview: Adding Partitions for details.

ANALYZE PARTITION

See Partitioning Overview: Analyzing Partitions for details.

CHECK PARTITION

See Partitioning Overview: Checking Partitions for details.

COALESCE PARTITION

Reduces the number of HASH or KEY partitions in a table. See Partitioning Overview: Coalescing Partitions.

CONVERT PARTITION / TABLE

CONVERT PARTITION and CONVERT TABLE were introduced in MariaDB 10.7.1.

CONVERT PARTITION can be used to remove a partition from a table and make this an ordinary table. For example:

ALTER TABLE partitioned_table CONVERT PARTITION part1 TO TABLE normal_table;

CONVERT TABLE will take an existing table and move this to another table as its own partition with a specified partition definition. For example the following moves normal_table to a partition of partitioned_table with a definition that its values, based on the PARTITION BY of the partitioned_table, are less than 12345.

ALTER TABLE partitioned_table CONVERT TABLE normal_table 
  TO PARTITION part1 VALUES LESS THAN (12345);

From MariaDB 11.4, the optional [{WITH | WITHOUT} VALIDATION] is permitted.

See Partitioning Overview: Converting Partitions to/from Tables for more details.

See also 10.7 preview feature: CONVERT PARTITION (mariadb.org blog post)

DROP PARTITION

Used to drop specific partitions (and discard all data within the specified partitions) for RANGE and LIST partitions. See Partitioning Overview: Dropping Partitions.

EXCHANGE PARTITION

This is used to exchange the contents of a partition with another table. This is performed by swapping the tablespaces of the partition with the other table.

From MariaDB 11.4, the optional [{WITH | WITHOUT} VALIDATION] is permitted.

See Partitioning Overview: Exchanging Partitions for more details.

See also copying InnoDB's transportable tablespaces.

OPTIMIZE PARTITION

See Partitioning Overview: Optimizing Partitions for details.

REMOVE PARTITIONING

See Partitioning Overview: Removing Partitioning.

REORGANIZE PARTITION

See Partitioning Overview: Reorganizing Partitions.

TRUNCATE PARTITION

See Partitioning Overview: Truncating Partitions.

DISCARD TABLESPACE

This is used to discard an InnoDB table's tablespace.

See copying InnoDB's transportable tablespaces for more information.

IMPORT TABLESPACE

This is used to import an InnoDB table's tablespace. The tablespace should have been copied from its original server after executing FLUSH TABLES FOR EXPORT.

See copying InnoDB's transportable tablespaces for more information.

ALTER TABLE ... IMPORT only applies to InnoDB tables. Most other popular storage engines, such as Aria and MyISAM, will recognize their data files as soon as they've been placed in the proper directory under the datadir, and no special DDL is required to import them.

ALGORITHM

The ALTER TABLE statement supports the ALGORITHM clause. This clause is one of the clauses that is used to implement online DDL. ALTER TABLE supports several different algorithms. An algorithm can be explicitly chosen for an ALTER TABLE operation by setting the ALGORITHM clause. The supported values are:

  • ALGORITHM=DEFAULT - This implies the default behavior for the specific statement, such as if no ALGORITHM clause is specified.
  • ALGORITHM=COPY
  • ALGORITHM=INPLACE
  • ALGORITHM=NOCOPY - This was added in MariaDB 10.3.7.
  • ALGORITHM=INSTANT - This was added in MariaDB 10.3.7.

See InnoDB Online DDL Overview: ALGORITHM for information on how the ALGORITHM clause affects InnoDB.

ALGORITHM=DEFAULT

The default behavior, which occurs if ALGORITHM=DEFAULT is specified, or if ALGORITHM is not specified at all, usually only makes a copy if the operation doesn't support being done in-place at all. In this case, the most efficient available algorithm will usually be used.

However, in MariaDB 10.3.6 and before, if the value of the old_alter_table system variable is set to ON, then the default behavior is to perform ALTER TABLE operations by making a copy of the table using the old algorithm.

In MariaDB 10.3.7 and later, the old_alter_table system variable is deprecated. Instead, the alter_algorithm system variable defines the default algorithm for ALTER TABLE operations. This was removed in MariaDB 11.5 for the following reasons:

  • alter_algorithm was introduced as a replacement for the old_alter_table that was used to force the usage of the original alter table algorithm (copy) in cases where the new alter algorithm did not work. The new option was added as a way to force the usage of a specific algorithm when it should instead have made it possible to disable algorithms that would not work for some reason.
  • alter_algorithm introduced some cases where ALTER TABLE would not work without specifying the ALGORITHM=XXX option together with ALTER TABLE.
  • Having different values of alter_algorithm on the primary and replica could cause replicas to stop unexpectedly.
  • ALTER TABLE FORCE, as used by mariadb-upgrade, would not always work if alter_algorithm was set for the server.
  • As part of MDEV-33449 "improving repair of tables" it became clear that alter-algorithm made it harder to provide a better and more consistent ALTER TABLE FORCE and REPAIR TABLE, and it would be better to remove it.

ALGORITHM=COPY

ALGORITHM=COPY is the name for the original ALTER TABLE algorithm from early MariaDB versions.

When ALGORITHM=COPY is set, MariaDB essentially does the following operations:

-- Create a temporary table with the new definition
CREATE TEMPORARY TABLE tmp_tab (
...
);

-- Copy the data from the original table
INSERT INTO tmp_tab
   SELECT * FROM original_tab;

-- Drop the original table
DROP TABLE original_tab;

-- Rename the temporary table, so that it replaces the original one
RENAME TABLE tmp_tab TO original_tab;

This algorithm is very inefficient, but it is generic, so it works for all storage engines.

If ALGORITHM=COPY is specified, then the copy algorithm will be used even if it is not necessary. This can result in a lengthy table copy. If multiple ALTER TABLE operations are required that each require the table to be rebuilt, then it is best to specify all operations in a single ALTER TABLE statement, so that the table is only rebuilt once.

From MariaDB 11.2, ALTER TABLE can now do most operations with ALGORITHM=COPY, LOCK=NONE. See LOCK=NONE.

ALGORITHM=INPLACE

ALGORITHM=COPY can be incredibly slow, because the whole table has to be copied and rebuilt. ALGORITHM=INPLACE was introduced as a way to avoid this by performing operations in-place and avoiding the table copy and rebuild, when possible.

When ALGORITHM=INPLACE is set, the underlying storage engine uses optimizations to perform the operation while avoiding the table copy and rebuild. However, INPLACE is a bit of a misnomer, since some operations may still require the table to be rebuilt for some storage engines. Regardless, several operations can be performed without a full copy of the table for some storage engines.

A more accurate name would have been ALGORITHM=ENGINE, where ENGINE refers to an "engine-specific" algorithm.

If an ALTER TABLE operation supports ALGORITHM=INPLACE, then it can be performed using optimizations by the underlying storage engine, but it may rebuilt.

See InnoDB Online DDL Operations with ALGORITHM=INPLACE for more.

ALGORITHM=NOCOPY

ALGORITHM=NOCOPY was introduced in MariaDB 10.3.7.

ALGORITHM=INPLACE can sometimes be surprisingly slow in instances where it has to rebuild the clustered index, because when the clustered index has to be rebuilt, the whole table has to be rebuilt. ALGORITHM=NOCOPY was introduced as a way to avoid this.

If an ALTER TABLE operation supports ALGORITHM=NOCOPY, then it can be performed without rebuilding the clustered index.

If ALGORITHM=NOCOPY is specified for an ALTER TABLE operation that does not support ALGORITHM=NOCOPY, then an error will be raised. In this case, raising an error is preferable, if the alternative is for the operation to rebuild the clustered index, and perform unexpectedly slowly.

See InnoDB Online DDL Operations with ALGORITHM=NOCOPY for more.

ALGORITHM=INSTANT

ALGORITHM=INSTANT was introduced in MariaDB 10.3.7.

ALGORITHM=INPLACE can sometimes be surprisingly slow in instances where it has to modify data files. ALGORITHM=INSTANT was introduced as a way to avoid this.

If an ALTER TABLE operation supports ALGORITHM=INSTANT, then it can be performed without modifying any data files.

If ALGORITHM=INSTANT is specified for an ALTER TABLE operation that does not support ALGORITHM=INSTANT, then an error will be raised. In this case, raising an error is preferable, if the alternative is for the operation to modify data files, and perform unexpectedly slowly.

See InnoDB Online DDL Operations with ALGORITHM=INSTANT for more.

LOCK

The ALTER TABLE statement supports the LOCK clause. This clause is one of the clauses that is used to implement online DDL. ALTER TABLE supports several different locking strategies. A locking strategy can be explicitly chosen for an ALTER TABLE operation by setting the LOCK clause. The supported values are:

DEFAULT

Acquire the least restrictive lock on the table that is supported for the specific operation. Permit the maximum amount of concurrency that is supported for the specific operation.

NONE

Acquire no lock on the table. Permit all concurrent DML. If this locking strategy is not permitted for an operation, then an error is raised. From MariaDB 11.2, ALTER TABLE can do most operations with ALGORITHM=COPY, LOCK=NONE, that is, in most cases, unless the algorithm and lock level are explicitly specified, ALTER TABLE will be performed using the COPY algorithm while simultaneously allowing concurrent DML statements on the altered table. If this is not desired, one can explicitly specify a different lock level or set old_mode to LOCK_ALTER_TABLE_COPY that will make ALGORITHM=COPY use LOCK=SHARED by default (but still allowing LOCK=NONE to be specified explicitly).

SHARED

Acquire a read lock on the table. Permit read-only concurrent DML. If this locking strategy is not permitted for an operation, then an error is raised.

EXCLUSIVE

Acquire a write lock on the table. Do not permit concurrent DML.

Different storage engines support different locking strategies for different operations. If a specific locking strategy is chosen for an ALTER TABLE operation, and that table's storage engine does not support that locking strategy for that specific operation, then an error will be raised.

If the LOCK clause is not explicitly set, then the operation uses LOCK=DEFAULT.

ALTER ONLINE TABLE is equivalent to LOCK=NONE. Therefore, the ALTER ONLINE TABLE statement can be used to ensure that your ALTER TABLE operation allows all concurrent DML.

See InnoDB Online DDL Overview: LOCK for information on how the LOCK clause affects InnoDB.

Index Options

See CREATE TABLE page for meaning of the index options.

Progress Reporting

MariaDB provides progress reporting for ALTER TABLE statement for clients that support the new progress reporting protocol. For example, if you were using the mariadb client, then the progress report might look like this::

ALTER TABLE test ENGINE=Aria;
Stage: 1 of 2 'copy to tmp table'    46% of stage

The progress report is also shown in the output of the SHOW PROCESSLIST statement and in the contents of the information_schema.PROCESSLIST table.

See Progress Reporting for more information.

Aborting ALTER TABLE Operations

If an ALTER TABLE operation is being performed and the connection is killed, the changes will be rolled back in a controlled manner. The rollback can be a slow operation as the time it takes is relative to how far the operation has progressed.

Aborting ALTER TABLE ... ALGORITHM=COPY was made faster in MariaDB 10.2.13 by removing excessive undo logging (MDEV-11415). This significantly shortened the time it takes to abort a running ALTER TABLE operation, compared with earlier releases.

Atomic ALTER TABLE

MariaDB starting with 10.6.1

From MariaDB 10.6, ALTER TABLE is atomic for most engines, including InnoDB, MyRocks, MyISAM and Aria (MDEV-25180). This means that if there is a crash (server down or power outage) during an ALTER TABLE operation, after recovery, either the old table and associated triggers and status will be intact, or the new table will be active.

In older MariaDB versions one could get leftover #sql-alter..', '#sql-backup..' or 'table_name.frm˝' files if the system crashed during the ALTER TABLE operation.

See Atomic DDL for more information.

Replication

MariaDB starting with 10.8.1

Before MariaDB 10.8.1, ALTER TABLE got fully executed on the primary first, and only then was it replicated and started executing on replicas. From MariaDB 10.8.1, ALTER TABLE gains an option to replicate sooner and begin executing on replicas when it merely starts executing on the primary, not when it finishes. This way the replication lag caused by a heavy ALTER TABLE can be completely eliminated (MDEV-11675).

Examples

Adding a new column:

ALTER TABLE t1 ADD x INT;

Dropping a column:

ALTER TABLE t1 DROP x;

Modifying the type of a column:

ALTER TABLE t1 MODIFY x bigint unsigned;

Changing the name and type of a column:

ALTER TABLE t1 CHANGE a b bigint unsigned auto_increment;

Combining multiple clauses in a single ALTER TABLE statement, separated by commas:

ALTER TABLE t1 DROP x, ADD x2 INT,  CHANGE y y2 INT;

Changing the storage engine and adding a comment:

ALTER TABLE t1 
  ENGINE = InnoDB 
  COMMENT = 'First of three tables containing usage info';

Rebuilding the table (the previous example will also rebuild the table if it was already InnoDB):

ALTER TABLE t1 FORCE;

Dropping an index:

ALTER TABLE rooms DROP INDEX u;

Adding a unique index:

ALTER TABLE rooms ADD UNIQUE INDEX u(room_number);

From MariaDB 10.5.3, adding a primary key for an application-time period table with a WITHOUT OVERLAPS constraint:

ALTER TABLE rooms ADD PRIMARY KEY(room_number, p WITHOUT OVERLAPS);

From MariaDB 10.8.1, ALTER query can be replicated faster with the setting of

SET @@SESSION.binlog_alter_two_phase = true;

prior the ALTER query. Binlog would contain two event groups

| master-bin.000001 | 495 | Gtid              |         1 |         537 | GTID 0-1-2 START ALTER                                        |
| master-bin.000001 | 537 | Query             |         1 |         655 | use `test`; alter table t add column b int, algorithm=inplace |
| master-bin.000001 | 655 | Gtid              |         1 |         700 | GTID 0-1-3 COMMIT ALTER id=2                                  |
| master-bin.000001 | 700 | Query             |         1 |         835 | use `test`; alter table t add column b int, algorithm=inplace |

of which the first one gets delivered to replicas before ALTER is taken to actual execution on the primary.

See Also

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