MySQL also supports linear hashing, which differs from regular hashing in that linear hashing utilizes a linear powers-of-two algorithm whereas regular hashing employs the modulus of the hashing function's value.
Syntactically, the only difference between linear-hash
partitioning and regular hashing is the addition of the
LINEAR
keyword in the PARTITION
BY
clause, as shown here:
CREATE TABLE employees ( id INT NOT NULL, fname VARCHAR(30), lname VARCHAR(30), hired DATE NOT NULL DEFAULT '1970-01-01', separated DATE NOT NULL DEFAULT '9999-12-31', job_code INT, store_id INT ) PARTITION BY LINEAR HASH( YEAR(hired) ) PARTITIONS 4;
Given an expression expr
, the
partition in which the record is stored when linear hashing is
used is partition number N
from
among num
partitions, where
N
is derived according to the
following algorithm:
Find the next power of 2 greater than
num
. We call this value
V
; it can be calculated as:
V
= POWER(2, CEILING(LOG(2,num
)))
(Suppose that num
is 13. Then
LOG(2,13)
is
3.7004397181411.
CEILING(3.7004397181411)
is
4, and V
=
POWER(2,4)
, which is 16.)
Set N
=
F
(column_list
)
& (V
- 1).
While N
>=
num
:
Set V
=
CEIL(V
/ 2)
Set N
=
N
&
(V
- 1)
Suppose that the table t1
, using linear
hash partitioning and having 6 partitions, is created using
this statement:
CREATE TABLE t1 (col1 INT, col2 CHAR(5), col3 DATE) PARTITION BY LINEAR HASH( YEAR(col3) ) PARTITIONS 6;
Now assume that you want to insert two records into
t1
having the col3
column values '2003-04-14'
and
'1998-10-19'
. The partition number for the
first of these is determined as follows:
V
= POWER(2, CEILING( LOG(2,6) )) = 8N
= YEAR('2003-04-14') & (8 - 1) = 2003 & 7 = 3 (3 >= 6 is FALSE: record stored in partition #3)
The number of the partition where the second record is stored is calculated as shown here:
V
= 8N
= YEAR('1998-10-19') & (8-1) = 1998 & 7 = 6 (6 >= 6 is TRUE: additional step required)N
= 6 & CEILING(8 / 2) = 6 & 3 = 2 (2 >= 6 is FALSE: record stored in partition #2)
The advantage in partitioning by linear hash is that the adding, dropping, merging, and splitting of partitions is made much faster, which can be beneficial when dealing with tables containing extremely large amounts (terabytes) of data. The disadvantage is that data is less likely to be evenly distributed between partitions as compared with the distribution obtained using regular hash partitioning.
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