Table Pullout Optimization

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Table pullout is an optimization for Semi-join subqueries.

The idea of Table Pullout

Sometimes, a subquery can be re-written as a join. For example:

select *
from City 
where City.Country in (select Country.Code
                       from Country 
                       where Country.Population < 100*1000);

If we know that there can be, at most, one country with a given value of Country.Code (we can tell that if we see that table Country has a primary key or unique index over that column), we can re-write this query as:

select City.* 
from 
  City, Country 
where
 City.Country=Country.Code AND Country.Population < 100*1000;

Table pullout in action

If one runs EXPLAIN for the above query in MySQL 5.1-5.6 or MariaDB 5.1-5.2, they'll get this plan:

MySQL [world]> explain select * from City where City.Country in (select Country.Code from Country where Country.Population < 100*1000);
+----+--------------------+---------+-----------------+--------------------+---------+---------+------+------+-------------+
| id | select_type        | table   | type            | possible_keys      | key     | key_len | ref  | rows | Extra       |
+----+--------------------+---------+-----------------+--------------------+---------+---------+------+------+-------------+
|  1 | PRIMARY            | City    | ALL             | NULL               | NULL    | NULL    | NULL | 4079 | Using where |
|  2 | DEPENDENT SUBQUERY | Country | unique_subquery | PRIMARY,Population | PRIMARY | 3       | func |    1 | Using where |
+----+--------------------+---------+-----------------+--------------------+---------+---------+------+------+-------------+
2 rows in set (0.00 sec)

It shows that the optimizer is going to do a full scan on table City, and for each city it will do a lookup in table Country.

If one runs the same query in MariaDB 5.3, they will get this plan:

MariaDB [world]> explain select * from City where City.Country in (select Country.Code from Country where Country.Population < 100*1000);
+----+-------------+---------+-------+--------------------+------------+---------+--------------------+------+-----------------------+
| id | select_type | table   | type  | possible_keys      | key        | key_len | ref                | rows | Extra                 |
+----+-------------+---------+-------+--------------------+------------+---------+--------------------+------+-----------------------+
|  1 | PRIMARY     | Country | range | PRIMARY,Population | Population | 4       | NULL               |   37 | Using index condition |
|  1 | PRIMARY     | City    | ref   | Country            | Country    | 3       | world.Country.Code |   18 |                       |
+----+-------------+---------+-------+--------------------+------------+---------+--------------------+------+-----------------------+
2 rows in set (0.00 sec)

The interesting parts are:

  • Both tables have select_type=PRIMARY, and id=1 as if they were in one join.
  • The `Country` table is first, followed by the `City` table.

Indeed, if one runs EXPLAIN EXTENDED; SHOW WARNINGS, they will see that the subquery is gone and it was replaced with a join:

MariaDB [world]> show warnings\G
*************************** 1. row ***************************
  Level: Note
   Code: 1003
Message: select `world`.`City`.`ID` AS `ID`,`world`.`City`.`Name` AS 
`Name`,`world`.`City`.`Country` AS `Country`,`world`.`City`.`Population` AS 
`Population` 

  
   from `world`.`City` join `world`.`Country` where 


((`world`.`City`.`Country` = `world`.`Country`.`Code`) and (`world`.`Country`.
`Population` < (100 * 1000)))
1 row in set (0.00 sec)

Changing the subquery into a join allows feeding the join to the join optimizer, which can make a choice between two possible join orders:

  1. City -> Country
  2. Country -> City

as opposed to the single choice of

  1. City->Country

which we had before the optimization.

In the above example, the choice produces a better query plan. Without pullout, the query plan with a subquery would read (4079 + 1*4079)=8158 table records. With table pullout, the join plan would read (37 + 37 * 18) = 703 rows. Not all row reads are equal, but generally, reading 10 times fewer table records is faster.

Table pullout fact sheet

  • Table pullout is possible only in semi-join subqueries.
  • Table pullout is based on UNIQUE/PRIMARY key definitions.
  • Doing table pullout does not cut off any possible query plans, so MariaDB will always try to pull out as much as possible.
  • Table pullout is able to pull individual tables out of subqueries to their parent selects. If all tables in a subquery have been pulled out, the subquery (i.e. its semi-join) is removed completely.
  • One common bit of advice for optimizing MySQL has been "If possible, rewrite your subqueries as joins". Table pullout does exactly that, so manual rewrites are no longer necessary.

Controlling table pullout

There is no separate @@optimizer_switch flag for table pullout. Table pullout can be disabled by switching off all semi-join optimizations with SET @@optimizer_switch='semijoin=off' command.

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