View processing is not optimized:
It is not possible to create an index on a view.
Indexes can be used for views processed using the merge algorithm. However, a view that is processed with the temptable algorithm is unable to take advantage of indexes on its underlying tables (although indexes can be used during generation of the temporary tables).
Subqueries cannot be used in the FROM
clause of
a view.
There is a general principle that you cannot modify a table and select from the same table in a subquery. See Section D.3, “Restrictions on Subqueries”.
The same principle also applies if you select from a view that selects from the table, if the view selects from the table in a subquery and the view is evaluated using the merge algorithm. Example:
CREATE VIEW v1 AS SELECT * FROM t2 WHERE EXISTS (SELECT 1 FROM t1 WHERE t1.a = t2.a); UPDATE t1, v2 SET t1.a = 1 WHERE t1.b = v2.b;
If the view is evaluated using a temporary table, you
can select from the table in the view
subquery and still modify that table in the outer query. In this
case the view will be stored in a temporary table and thus you are
not really selecting from the table in a subquery and modifying it
“at the same time.” (This is another reason you might
wish to force MySQL to use the temptable algorithm by specifying
ALGORITHM = TEMPTABLE
in the view definition.)
You can use DROP TABLE
or
ALTER TABLE
to drop or alter a
table that is used in a view definition. No warning results from
the DROP
or ALTER
operation,
even though this invalidates the view. Instead, an error occurs
later, when the view is used. CHECK
TABLE
can be used to check for views that have been
invalidated by DROP
or ALTER
operations.
A view definition is “frozen” by certain statements:
If a statement prepared by
PREPARE
refers to a view, the
view definition seen each time the statement is executed later
will be the definition of the view at the time it was
prepared. This is true even if the view definition is changed
after the statement is prepared and before it is executed.
Example:
CREATE VIEW v AS SELECT RAND(); PREPARE s FROM 'SELECT * FROM v'; ALTER VIEW v AS SELECT NOW(); EXECUTE s;
The result returned by the
EXECUTE
statement is a random
number, not the current date and time.
If a statement in a stored routine refers to a view, the view definition seen by the statement are its definition the first time that statement is executed. For example, this means that if the statement is executed in a loop, further iterations of the statement see the same view definition, even if the definition is changed later in the loop. Example:
CREATE VIEW v AS SELECT 1; delimiter // CREATE PROCEDURE p () BEGIN DECLARE i INT DEFAULT 0; WHILE i < 5 DO SELECT * FROM v; SET i = i + 1; ALTER VIEW v AS SELECT 2; END WHILE; END; // delimiter ; CALL p();
When the procedure p()
is called, the
SELECT
returns 1 each time
through the loop, even though the view definition is changed
within the loop.
As of MySQL 5.0.46, ALTER VIEW
is prohibited within stored routines, so this restriction does
not apply.
With regard to view updatability, the overall goal for views is
that if any view is theoretically updatable, it should be
updatable in practice. This includes views that have
UNION
in their definition.
Currently, not all views that are theoretically updatable can be
updated. The initial view implementation was deliberately written
this way to get usable, updatable views into MySQL as quickly as
possible. Many theoretically updatable views can be updated now,
but limitations still exist:
Updatable views with subqueries anywhere other than in the
WHERE
clause. Some views that have
subqueries in the SELECT
list
may be updatable.
You cannot use UPDATE
to update
more than one underlying table of a view that is defined as a
join.
You cannot use DELETE
to update
a view that is defined as a join.
There exists a shortcoming with the current implementation of
views. If a user is granted the basic privileges necessary to
create a view (the CREATE VIEW
and
SELECT
privileges), that user will
be unable to call SHOW CREATE VIEW
on that object unless the user is also granted the
SHOW VIEW
privilege.
That shortcoming can lead to problems backing up a database with mysqldump, which may fail due to insufficient privileges. This problem is described in Bug#22062.
The workaround to the problem is for the administrator to manually
grant the SHOW VIEW
privilege to
users who are granted CREATE VIEW
,
since MySQL doesn't grant it implicitly when views are created.
Views do not have indexes, so index hints do not apply. Use of index hints when selecting from a view is disallowed.
SHOW CREATE VIEW
displays view
definitions using an AS
clause for each
column. If a column is created from an expression, the default
alias is the expression text, which can be quite long. As of MySQL
5.0.52, aliases for column names in alias_name
CREATE
VIEW
statements are checked against the maximum column
length of 64 characters (not the maximum alias length of 256
characters). As a result, views created from the output of
SHOW CREATE VIEW
fail if any column
alias exceeds 64 characters. This can cause problems in the
following circumstances for views with too-long aliases:
View definitions fail to replicate to newer slaves that enforce the column-length restriction.
Dump files created with mysqldump cannot be loaded into servers that enforce the column-length restriction.
A workaround for either problem is the modify each problematic
view definition to use aliases that provide shorter column names.
Then the view will replicate properly, and can be dumped and
reloaded without causing an error. To modify the definition, drop
and create the view again with DROP
VIEW
and CREATE VIEW
, or
replace the definition with
CREATE OR REPLACE
VIEW
.
For problems that occur when reloading view definitions in dump
files, another workaround is to edit the dump file to modify its
CREATE VIEW
statements. However,
this does not change the original view definitions, which may
cause problems for subsequent dump operations.
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