Range and list partitions are very similar with regard to how
the adding and dropping of partitions are handled. For this
reason we discuss the management of both sorts of partitioning
in this section. For information about working with tables that
are partitioned by hash or key, see
Section 17.3.2, “Management of HASH
and KEY
Partitions”. Dropping a
RANGE
or LIST
partition is
more straightforward than adding one, so we discuss this first.
Dropping a partition from a table that is partitioned by either
RANGE
or by LIST
can be
accomplished using the ALTER
TABLE
statement with a DROP
PARTITION
clause. Here is a very basic example, which
supposes that you have already created a table which is
partitioned by range and then populated with 10 records using
the following CREATE TABLE
and
INSERT
statements:
mysql>CREATE TABLE tr (id INT, name VARCHAR(50), purchased DATE)
->PARTITION BY RANGE( YEAR(purchased) ) (
->PARTITION p0 VALUES LESS THAN (1990),
->PARTITION p1 VALUES LESS THAN (1995),
->PARTITION p2 VALUES LESS THAN (2000),
->PARTITION p3 VALUES LESS THAN (2005)
->);
Query OK, 0 rows affected (0.01 sec) mysql>INSERT INTO tr VALUES
->(1, 'desk organiser', '2003-10-15'),
->(2, 'CD player', '1993-11-05'),
->(3, 'TV set', '1996-03-10'),
->(4, 'bookcase', '1982-01-10'),
->(5, 'exercise bike', '2004-05-09'),
->(6, 'sofa', '1987-06-05'),
->(7, 'popcorn maker', '2001-11-22'),
->(8, 'aquarium', '1992-08-04'),
->(9, 'study desk', '1984-09-16'),
->(10, 'lava lamp', '1998-12-25');
Query OK, 10 rows affected (0.01 sec)
You can see which items should have been inserted into partition
p2
as shown here:
mysql>SELECT * FROM tr
->WHERE purchased BETWEEN '1995-01-01' AND '1999-12-31';
+------+-----------+------------+ | id | name | purchased | +------+-----------+------------+ | 3 | TV set | 1996-03-10 | | 10 | lava lamp | 1998-12-25 | +------+-----------+------------+ 2 rows in set (0.00 sec)
To drop the partition named p2
, execute the
following command:
mysql> ALTER TABLE tr DROP PARTITION p2;
Query OK, 0 rows affected (0.03 sec)
The NDBCLUSTER
storage engine
does not support ALTER TABLE ... DROP
PARTITION
. It does, however, support the other
partitioning-related extensions to ALTER
TABLE
that are described in this chapter.
It is very important to remember that, when you drop a
partition, you also delete all the data that was stored in that
partition. You can see that this is the case by
re-running the previous SELECT
query:
mysql>SELECT * FROM tr WHERE purchased
->BETWEEN '1995-01-01' AND '1999-12-31';
Empty set (0.00 sec)
Because of this, you must have the DROP
privilege for a table before you can execute ALTER
TABLE ... DROP PARTITION
on that table.
If you wish to drop all data from all partitions while
preserving the table definition and its partitioning scheme, use
the TRUNCATE TABLE
command. (See
Section 12.2.10, “TRUNCATE TABLE
Syntax”.)
If you intend to change the partitioning of a table
without losing data, use ALTER
TABLE ... REORGANIZE PARTITION
instead. See below or
in Section 12.1.6, “ALTER TABLE
Syntax”, for information about
REORGANIZE PARTITION
.
If you now execute a SHOW CREATE
TABLE
command, you can see how the partitioning makeup
of the table has been changed:
mysql> SHOW CREATE TABLE tr\G
*************************** 1. row ***************************
Table: tr
Create Table: CREATE TABLE `tr` (
`id` int(11) default NULL,
`name` varchar(50) default NULL,
`purchased` date default NULL
) ENGINE=MyISAM DEFAULT CHARSET=latin1
PARTITION BY RANGE ( YEAR(purchased) ) (
PARTITION p0 VALUES LESS THAN (1990) ENGINE = MyISAM,
PARTITION p1 VALUES LESS THAN (1995) ENGINE = MyISAM,
PARTITION p3 VALUES LESS THAN (2005) ENGINE = MyISAM
)
1 row in set (0.01 sec)
When you insert new rows into the changed table with
purchased
column values between
'1995-01-01'
and
'2004-12-31'
inclusive, those rows will be
stored in partition p3
. You can verify this
as follows:
mysql>INSERT INTO tr VALUES (11, 'pencil holder', '1995-07-12');
Query OK, 1 row affected (0.00 sec) mysql>SELECT * FROM tr WHERE purchased
->BETWEEN '1995-01-01' AND '2004-12-31';
+------+----------------+------------+ | id | name | purchased | +------+----------------+------------+ | 11 | pencil holder | 1995-07-12 | | 1 | desk organiser | 2003-10-15 | | 5 | exercise bike | 2004-05-09 | | 7 | popcorn maker | 2001-11-22 | +------+----------------+------------+ 4 rows in set (0.00 sec) mysql>ALTER TABLE tr DROP PARTITION p3;
Query OK, 0 rows affected (0.03 sec) mysql>SELECT * FROM tr WHERE purchased
->BETWEEN '1995-01-01' AND '2004-12-31';
Empty set (0.00 sec)
Note that the number of rows dropped from the table as a result
of ALTER TABLE ... DROP PARTITION
is not
reported by the server as it would be by the equivalent
DELETE
query.
Dropping LIST
partitions uses exactly the
same ALTER TABLE ... DROP PARTITION
syntax as
used for dropping RANGE
partitions. However,
there is one important difference in the effect this has on your
use of the table afterward: You can no longer insert into the
table any rows having any of the values that were included in
the value list defining the deleted partition. (See
Section 17.2.2, “LIST
Partitioning”, for an example.)
To add a new range or list partition to a previously partitioned
table, use the ALTER TABLE ... ADD PARTITION
statement. For tables which are partitioned by
RANGE
, this can be used to add a new range to
the end of the list of existing partitions. Suppose that you
have a partitioned table containing membership data for your
organisation, which is defined as follows:
CREATE TABLE members ( id INT, fname VARCHAR(25), lname VARCHAR(25), dob DATE ) PARTITION BY RANGE( YEAR(dob) ) ( PARTITION p0 VALUES LESS THAN (1970), PARTITION p1 VALUES LESS THAN (1980), PARTITION p2 VALUES LESS THAN (1990) );
Suppose further that the minimum age for members is 16. As the
calendar approaches the end of 2005, you realize that you will
soon be admitting members who were born in 1990 (and later in
years to come). You can modify the members
table to accommodate new members born in the years
1990–1999 as shown here:
ALTER TABLE ADD PARTITION (PARTITION p3 VALUES LESS THAN (2000));
With tables that are partitioned by range, you can use
ADD PARTITION
to add new partitions to the
high end of the partitions list only. Trying to add a new
partition in this manner between or before existing partitions
will result in an error as shown here:
mysql>ALTER TABLE members
>ADD PARTITION (
>PARTITION p3 VALUES LESS THAN (1960));
ERROR 1463 (HY000): VALUES LESS THAN value must be strictly » increasing for each partition
In a similar fashion, you can add new partitions to a table that
is partitioned by LIST
. For example, given a
table defined like so:
CREATE TABLE tt ( id INT, data INT ) PARTITION BY LIST(data) ( PARTITION p0 VALUES IN (5, 10, 15), PARTITION p1 VALUES IN (6, 12, 18) );
You can add a new partition in which to store rows having the
data
column values 7
,
14
, and 21
as shown:
ALTER TABLE tt ADD PARTITION (PARTITION p2 VALUES IN (7, 14, 21));
Note that you cannot add a new
LIST
partition encompassing any values that
are already included in the value list of an existing partition.
If you attempt to do so, an error will result:
mysql>ALTER TABLE tt ADD PARTITION
>(PARTITION np VALUES IN (4, 8, 12));
ERROR 1465 (HY000): Multiple definition of same constant » in list partitioning
Because any rows with the data
column value
12
have already been assigned to partition
p1
, you cannot create a new partition on
table tt
that includes 12
in its value list. To accomplish this, you could drop
p1
, and add np
and then a
new p1
with a modified definition. However,
as discussed earlier, this would result in the loss of all data
stored in p1
— and it is often the case
that this is not what you really want to do. Another solution
might appear to be to make a copy of the table with the new
partitioning and to copy the data into it using
CREATE TABLE ...
SELECT ...
, then drop the old table and rename the new
one, but this could be very time-consuming when dealing with a
large amounts of data. This also might not be feasible in
situations where high availability is a requirement.
You can add multiple partitions in a single ALTER TABLE
... ADD PARTITION
statement as shown here:
CREATE TABLE employees ( id INT NOT NULL, fname VARCHAR(50) NOT NULL, lname VARCHAR(50) NOT NULL, hired DATE NOT NULL ) PARTITION BY RANGE( YEAR(hired) ) ( PARTITION p1 VALUES LESS THAN (1991), PARTITION p2 VALUES LESS THAN (1996), PARTITION p3 VALUES LESS THAN (2001), PARTITION p4 VALUES LESS THAN (2005) ); ALTER TABLE employees ADD PARTITION ( PARTITION p5 VALUES LESS THAN (2010), PARTITION p6 VALUES LESS THAN MAXVALUE );
Fortunately, MySQL's partitioning implementation provides ways
to redefine partitions without losing data. Let us look first at
a couple of simple examples involving RANGE
partitioning. Recall the members
table which
is now defined as shown here:
mysql> SHOW CREATE TABLE members\G
*************************** 1. row ***************************
Table: members
Create Table: CREATE TABLE `members` (
`id` int(11) default NULL,
`fname` varchar(25) default NULL,
`lname` varchar(25) default NULL,
`dob` date default NULL
) ENGINE=MyISAM DEFAULT CHARSET=latin1
PARTITION BY RANGE ( YEAR(dob) ) (
PARTITION p0 VALUES LESS THAN (1970) ENGINE = MyISAM,
PARTITION p1 VALUES LESS THAN (1980) ENGINE = MyISAM,
PARTITION p2 VALUES LESS THAN (1990) ENGINE = MyISAM.
PARTITION p3 VALUES LESS THAN (2000) ENGINE = MyISAM
)
Suppose that you would like to move all rows representing
members born before 1960 into a separate partition. As we have
already seen, this cannot be done using ALTER TABLE ...
ADD PARTITION
. However, you can use another
partition-related extension to ALTER
TABLE
in order to accomplish this:
ALTER TABLE members REORGANIZE PARTITION p0 INTO ( PARTITION s0 VALUES LESS THAN (1960), PARTITION s1 VALUES LESS THAN (1970) );
In effect, this command splits partition p0
into two new partitions s0
and
s1
. It also moves the data that was stored in
p0
into the new partitions according to the
rules embodied in the two PARTITION ... VALUES
...
clauses, so that s0
contains
only those records for which
YEAR(dob)
is less than 1960 and
s1
contains those rows in which
YEAR(dob)
is greater than or
equal to 1960 but less than 1970.
A REORGANIZE PARTITION
clause may also be
used for merging adjacent partitions. You can return the
members
table to its previous partitioning as
shown here:
ALTER TABLE members REORGANIZE PARTITION s0,s1 INTO ( PARTITION p0 VALUES LESS THAN (1970) );
No data is lost in splitting or merging partitions using
REORGANIZE PARTITION
. In executing the above
statement, MySQL moves all of the records that were stored in
partitions s0
and s1
into
partition p0
.
The general syntax for REORGANIZE PARTITION
is:
ALTER TABLEtbl_name
REORGANIZE PARTITIONpartition_list
INTO (partition_definitions
);
Here, tbl_name
is the name of the
partitioned table, and partition_list
is a comma-separated list of names of one or more existing
partitions to be changed.
partition_definitions
is a
comma-separated list of new partition definitions, which follow
the same rules as for the
partition_definitions
list used in
CREATE TABLE
(see
Section 12.1.14, “CREATE TABLE
Syntax”). It should be noted that you are
not limited to merging several partitions into one, or to
splitting one partition into many, when using
REORGANIZE PARTITION
. For example, you can
reorganize all four partitions of the members
table into two, as follows:
ALTER TABLE members REORGANIZE PARTITION p0,p1,p2,p3 INTO ( PARTITION m0 VALUES LESS THAN (1980), PARTITION m1 VALUES LESS THAN (2000) );
You can also use REORGANIZE PARTITION
with
tables that are partitioned by LIST
. Let us
return to the problem of adding a new partition to the
list-partitioned tt
table and failing because
the new partition had a value that was already present in the
value-list of one of the existing partitions. We can handle this
by adding a partition that contains only nonconflicting values,
and then reorganizing the new partition and the existing one so
that the value which was stored in the existing one is now moved
to the new one:
ALTER TABLE tt ADD PARTITION (PARTITION np VALUES IN (4, 8)); ALTER TABLE tt REORGANIZE PARTITION p1,np INTO ( PARTITION p1 VALUES IN (6, 18), PARTITION np VALUES in (4, 8, 12) );
Here are some key points to keep in mind when using
ALTER TABLE ... REORGANIZE PARTITION
to
repartition tables that are partitioned by
RANGE
or LIST
:
The PARTITION
clauses used to determine
the new partitioning scheme are subject to the same rules as
those used with a CREATE
TABLE
statement.
Most importantly, you should remember that the new
partitioning scheme cannot have any overlapping ranges
(applies to tables partitioned by RANGE
)
or sets of values (when reorganizing tables partitioned by
LIST
).
The combination of partitions in the
partition_definitions
list should
account for the same range or set of values overall as the
combined partitions named in the
partition_list
.
For instance, in the members
table used
as an example in this section, partitions
p1
and p2
together
cover the years 1980 through 1999. Therefore, any
reorganization of these two partitions should cover the same
range of years overall.
For tables partitioned by RANGE
, you can
reorganize only adjacent partitions; you cannot skip over
range partitions.
For instance, you could not reorganize the
members
table used as an example in this
section using a statement beginning with ALTER
TABLE members REORGANIZE PARTITION p0,p2 INTO ...
because p0
covers the years prior to 1970
and p2
the years from 1990 through 1999
inclusive, and thus the two are not adjacent partitions.
You cannot use REORGANIZE PARTITION
to
change the table's partitioning type; that is, you cannot
(for example) change RANGE
partitions to
HASH
partitions or vice
versa. You also cannot use this command to
change the partitioning expression or column. To accomplish
either of these tasks without dropping and re-creating the
table, you can use ALTER TABLE ... PARTITION BY
...
. For example:
ALTER TABLE members PARTITION BY HASH( YEAR(dob) ) PARTITIONS 8;
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