28.3.47 INFORMATION_SCHEMA VIEWS 表
The VIEWS
table provides information about views in databases. You must have the SHOW VIEW
privilege to access this table.
The VIEWS
table has these columns:
-
TABLE_CATALOG
The name of the catalog to which the view belongs. This value is always
def
. -
TABLE_SCHEMA
The name of the schema (database) to which the view belongs.
-
TABLE_NAME
The name of the view.
-
VIEW_DEFINITION
The
SELECT
statement that provides the definition of the view. This column has most of what you see in theCreate Table
column thatSHOW CREATE VIEW
produces. Skip the words beforeSELECT
and skip the wordsWITH CHECK OPTION
. Suppose that the original statement was:CREATE VIEW v AS SELECT s2,s1 FROM t WHERE s1 > 5 ORDER BY s1 WITH CHECK OPTION;
Then the view definition looks like this:
SELECT s2,s1 FROM t WHERE s1 > 5 ORDER BY s1
-
CHECK_OPTION
The value of the
CHECK_OPTION
attribute. The value is one ofNONE
,CASCADE
, orLOCAL
. -
IS_UPDATABLE
MySQL sets a flag, called the view updatability flag, at
CREATE VIEW
time. The flag is set toYES
(true) ifUPDATE
andDELETE
(and similar operations) are legal for the view. Otherwise, the flag is set toNO
(false). TheIS_UPDATABLE
column in theVIEWS
table displays the status of this flag. It means that the server always knows whether a view is updatable.If a view is not updatable, statements such
UPDATE
,DELETE
, andINSERT
are illegal and are rejected. (Even if a view is updatable, it might not be possible to insert into it; for details, refer to Section 27.5.3, “Updatable and Insertable Views”.) -
DEFINER
The account of the user who created the view, in
'
format.user_name
'@'host_name
' -
SECURITY_TYPE
The view
SQL SECURITY
characteristic. The value is one ofDEFINER
orINVOKER
. -
CHARACTER_SET_CLIENT
The session value of the
character_set_client
system variable when the view was created. -
COLLATION_CONNECTION
The session value of the
collation_connection
system variable when the view was created.
MySQL permits different sql_mode
settings to tell the server the type of SQL syntax to support. For example, you might use the ANSI
SQL mode to ensure MySQL correctly interprets the standard SQL concatenation operator, the double bar (||
), in your queries. If you then create a view that concatenates items, you might worry that changing the sql_mode
setting to a value different from ANSI
could cause the view to become invalid. But this is not the case. No matter how you write out a view definition, MySQL always stores it the same way, in a canonical form. Here is an example that shows how the server changes a double bar concatenation operator to a CONCAT()
function:
mysql> SET sql_mode = 'ANSI';
Query OK, 0 rows affected (0.00 sec)
mysql> CREATE VIEW test.v AS SELECT 'a' || 'b' as col1;
Query OK, 0 rows affected (0.00 sec)
mysql> SELECT VIEW_DEFINITION FROM INFORMATION_SCHEMA.VIEWS
WHERE TABLE_SCHEMA = 'test' AND TABLE_NAME = 'v';
+----------------------------------+
| VIEW_DEFINITION |
+----------------------------------+
| select concat('a','b') AS `col1` |
+----------------------------------+
1 row in set (0.00 sec)
The advantage of storing a view definition in canonical form is that changes made later to the value of sql_mode
do not affect the results from the view. However, an additional consequence is that comments prior to SELECT
are stripped from the definition by the server.