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The optimizer can handle derived table references using two strategies (which also apply to view references and common table expressions):
Merge the derived table into the outer query block
Materialize the derived table to an internal temporary table
Example 1:
With merging of the derived table
derived_t1
, that query is executed similar
to:
Example 2:
With merging of the derived table
derived_t2
, that query is executed similar
to:
With materialization, derived_t1
and
derived_t2
are each treated as a separate
table within their respective queries.
The optimizer handles derived tables, view references, and common table expressions the same way: It avoids unnecessary materialization whenever possible, which enables pushing down conditions from the outer query to derived tables and produces more efficient execution plans. (For an example, see Section 8.2.2.2, “Optimizing Subqueries with Materialization”.)
If merging would result in an outer query block that references more than 61 base tables, the optimizer chooses materialization instead.
The optimizer propagates an ORDER BY
clause
in a derived table or view reference to the outer query block
if these conditions are all true:
The outer query is not grouped or aggregated.
The outer query does not specify
DISTINCT
,HAVING
, orORDER BY
.The outer query has this derived table or view reference as the only source in the
FROM
clause.
Otherwise, the optimizer ignores the ORDER
BY
clause.
The following means are available to influence whether the optimizer attempts to merge derived tables, view references, and common table expressions into the outer query block:
The
MERGE
andNO_MERGE
optimizer hints can be used. They apply assuming that no other rule prevents merging. See Section 8.9.3, “Optimizer Hints”.Similarly, you can use the
derived_merge
flag of theoptimizer_switch
system variable. See Section 8.9.2, “Switchable Optimizations”. By default, the flag is enabled to permit merging. Disabling the flag prevents merging and avoidsER_UPDATE_TABLE_USED
errors.The
derived_merge
flag also applies to views that contain noALGORITHM
clause. Thus, if anER_UPDATE_TABLE_USED
error occurs for a view reference that uses an expression equivalent to the subquery, addingALGORITHM=TEMPTABLE
to the view definition prevents merging and takes precedence over thederived_merge
value.It is possible to disable merging by using in the subquery any constructs that prevent merging, although these are not as explicit in their effect on materialization. Constructs that prevent merging are the same for derived tables, common table expressions, and view references:
If the optimizer chooses the materialization strategy rather than merging for a derived table, it handles the query as follows:
The optimizer postpones derived table materialization until its contents are needed during query execution. This improves performance because delaying materialization may result in not having to do it at all. Consider a query that joins the result of a derived table to another table: If the optimizer processes that other table first and finds that it returns no rows, the join need not be carried out further and the optimizer can completely skip materializing the derived table.
During query execution, the optimizer may add an index to a derived table to speed up row retrieval from it.
Consider the following EXPLAIN
statement, for a SELECT
query
that contains a derived table:
The optimizer avoids materializing the derived table by
delaying it until the result is needed during
SELECT
execution. In this case,
the query is not executed (because it occurs in an
EXPLAIN
statement), so the
result is never needed.
Even for queries that are executed, delay of derived table materialization may enable the optimizer to avoid materialization entirely. When this happens, query execution is quicker by the time needed to perform materialization. Consider the following query, which joins the result of a derived table to another table:
If the optimization processes t1
first and
the WHERE
clause produces an empty result,
the join must necessarily be empty and the derived table need
not be materialized.
For cases when a derived table requires materialization, the
optimizer may add an index to the materialized table to speed
up access to it. If such an index enables
ref
access to the table, it
can greatly reduce amount of data read during query execution.
Consider the following query:
The optimizer constructs an index over column
f1
from derived_t2
if
doing so would enable use of
ref
access for the lowest
cost execution plan. After adding the index, the optimizer can
treat the materialized derived table the same as a regular
table with an index, and it benefits similarly from the
generated index. The overhead of index creation is negligible
compared to the cost of query execution without the index. If
ref
access would result in
higher cost than some other access method, the optimizer
creates no index and loses nothing.
For optimizer trace output, a merged derived table or view reference is not shown as a node. Only its underlying tables appear in the top query's plan.
What is true for materialization of derived tables is also true for common table expressions (CTEs). In addition, the following considerations pertain specifically to CTEs.
If a CTE is materialized by a query, it is materialized once for the query, even if the query references it several times.
A recursive CTE is always materialized.
If a CTE is materialized, the optimizer automatically adds relevant indexes if it estimates that indexing will speed up access by the top-level statement to the CTE. This is similar to automatic indexing of derived tables, except that if the CTE is referenced multiple times, the optimizer may create multiple indexes, to speed up access by each reference in the most appropriate way.
The MERGE
and
NO_MERGE
optimizer hints can
be applied to CTEs. Each CTE reference in the top-level
statement can have its own hint, permitting CTE references to
be selectively merged or materialized. The following statement
uses hints to indicate that cte1
should be
merged and cte2
should be materialized:
The ALGORITHM
clause for
CREATE VIEW
does not affect
materialization for any WITH
clause preceding the SELECT
statement in the view definition. Consider this statement:
The ALGORITHM
value affects materialization
only of the SELECT
, not the
WITH
clause.
Prior to MySQL 8.0.16, if
internal_tmp_disk_storage_engine=MYISAM
,
an error occurred for any attempt to materialize a CTE using
an on-disk temporary table, since for CTEs, the storage engine
used for on-disk internal temporary tables could not be
MyISAM
. Beginning with MySQL 8.0.16, this
is no longer an issue, since TempTable
now
always uses InnoDB
for on-disk internal
temporary tables.
As mentioned previously, a CTE, if materialized, is
materialized once, even if referenced multiple times. To
indicate one-time materialization, optimizer trace output
contains an occurrence of
creating_tmp_table
plus one or more
occurrences of reusing_tmp_table
.
CTEs are similar to derived tables, for which the
materialized_from_subquery
node follows the
reference. This is true for a CTE that is referenced multiple
times, so there is no duplication of
materialized_from_subquery
nodes (which
would give the impression that the subquery is executed
multiple times, and produce unnecessarily verbose output).
Only one reference to the CTE has a complete
materialized_from_subquery
node with the
description of its subquery plan. Other references have a
reduced materialized_from_subquery
node.
The same idea applies to
EXPLAIN
output in
TRADITIONAL
format: Subqueries for other
references are not shown.
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Document créé le 26/06/2006, dernière modification le 26/10/2018
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